CN103190856B - A kind of dust pelletizing system - Google Patents

Abstract

The invention discloses a kind of dust pelletizing system, this system comprises: suction source main frame, water filtration dust bucket and dust sucting pipeline; Described water filtration dust bucket is provided with air inlet and gas outlet, is provided with tube connector in described water filtration dust bucket; Have a certain amount of water in described water filtration dust bucket, wherein, described gas outlet and air inlet are arranged on waterline; Air inlet is connected with one end of tube connector, and the other end of tube connector is placed under waterline; Suction mouth on suction source main frame is connected with the gas outlet on water filtration dust bucket by dust sucting pipeline, and the air inlet on water filtration dust bucket is connected with dust sucting pipeline.Technical scheme provided by the invention can solve existing dust catcher and there is use trouble, and rear current cost is high, easily causes the problem of secondary pollution.

Description

Dust removal system

Technical Field

The invention relates to the technical field of dust removal, in particular to a dust removal system.

Background

Along with the development of society, people have more and more demands on intelligent and high-tech products and higher and more demands on the living environment and hardware facilities of the people, and the household has facilities such as a central air conditioner, a high-speed optical fiber network and intelligent household appliances. However, in the field of household dust removal, at present, a household dust collector, a mop and a broom are used in a household, and the mop and the broom are labor-consuming and time-consuming; when the household dust collector is used, a power supply is plugged in each room, and when the room is changed, the dust collector is moved to the room firstly, and the household dust collector is started up from the newly plugged power supply and then used. The vacuum cleaner is not convenient to be used by being plugged in a power supply again when the vacuum cleaner is continuously moved. And the dust collector can generate noise when being in a room, thereby influencing the physical and mental health of users.

Some existing dust collectors are heavy, and in the using process, some people sometimes do not want to lift the dust collectors to move, the dust collectors are pulled by power lines to move, the power lines can be damaged after a long time, electricity leakage is caused, and therefore danger is brought to people.

In addition, the household dust collector adopts a filter element or a dust separation filter, the two filters have limitation on dust filtration, all dust can not be filtered, and the household dust is generally air falling dust with fine characteristics. The small dust can not be effectively filtered by some dust filter devices of the dust collector, can penetrate through the filter and is discharged through the exhaust outlet of the dust collector, secondary pollution is caused, and because the household dust collector is filtered by the filter element or the dust separator, the dust can be adsorbed on the filter element or the dust separator during dust removal, so that blockage can be caused, air flow generated by the dust collector can be weakened or disappeared, the suction force of the dust collector is directly weakened or disappeared, and if the filter element or the dust separator is blocked, a motor can be burnt out; when the dust collection barrel is cleaned after a room is cleaned, the dust collection barrel needs to be opened, so that the dust collection barrel is not closed, and secondary pollution is directly caused. Moreover, the use of filter bags also has the problem of high later cost.

As can be seen, the existing dust collector has the problems of troublesome use, high later cost and easy secondary pollution.

Disclosure of Invention

The invention provides a dust removal system, and the technical scheme provided by the invention can solve the problems of troublesome use, high later-stage cost and easiness in causing secondary pollution of the existing dust collector.

In order to achieve the purpose, the technical scheme of the invention is realized as follows:

the invention discloses a dust removal system, which comprises: a suction source host, a water filtering dust collection barrel and a dust collection pipeline; the water filtering dust collecting barrel is provided with an air inlet and an air outlet, and a connecting pipe is arranged in the water filtering dust collecting barrel; a certain amount of water is filled in the water filtering dust collecting barrel, wherein the air outlet and the air inlet are arranged above a water level line; the air inlet is connected with one end of the connecting pipe, and the other end of the connecting pipe is arranged below the water level line; the suction port on the suction source main machine is connected with the air outlet on the water filtration dust collection barrel through a dust collection pipeline, and the air inlet on the water filtration dust collection barrel is connected with the dust collection pipeline.

In the above system, the system further comprises: dust collection windows respectively arranged at the other ends of the dust collection pipelines; a dust suction pipe orifice is arranged in the dust suction window, a window cover plate is hinged to one side of the dust suction window, and the dust suction pipe orifice is sealed after the window cover plate is closed; wherein,

a contact switch is arranged at the hinged position of the window cover plate and the dust collection window;

when the window cover plate is closed, the contact switch is switched off; after the window cover plate is opened, the contact switch is switched on, and the dust collection window sends a starting-up instruction to the suction source host; the suction source host starts to work according to the starting instruction;

or,

a contact switch is arranged on the dust collection pipe orifice;

after the dust collection joint is connected to the dust collection pipe orifice, the contact switch is switched on; the dust collection window sends a starting-up instruction to the suction source host; and the suction source host starts to work according to the starting-up instruction.

In the above system, the system further comprises: a multi-way head;

one joint of the multi-way head is connected with an air inlet on the water filtering dust collecting barrel through a dust collecting pipeline; and other joints of the multi-way head are connected with the dust collection window through dust collection pipelines.

In the above system, the water filtering dust collecting tub further comprises: a water retaining device; wherein the connecting pipe is a U-shaped pipe;

the water blocking device is vertically fixed in the water filtering dust collecting barrel through a U-shaped pipe, wherein the bottom end of the water blocking device is connected with one end, located underwater, of the U-shaped pipe, the top end of the water blocking device is sealed, and an opening is formed in the side face of the water blocking device.

In the system, the water retaining device is a cylinder with an opening on the side surface, the top end of the cylinder is provided with a water retaining plate, and the bottom end of the cylinder is connected with one end of the U-shaped pipe, which is positioned under water.

In the system, the bottom of the water filtering dust collecting barrel is provided with a water outlet; the water filtering dust collecting barrel further comprises: a drain hose; one end of the drainage hose is connected with the drainage port.

In the above system, the suction source host further includes: a control device; and the control device is used for receiving a starting-up instruction sent by the dust collection window and starting the suction source host to work.

In the above system, the suction source host further comprises: a timing switch; and the control device is used for stopping the suction source host from working according to a shutdown instruction sent by the timing switch.

In the system, a negative pressure interface is arranged on an air suction port of the suction source host, and a negative pressure switch is arranged on the negative pressure interface; the negative pressure switch is used for sending a negative pressure signal to the control device under the negative pressure condition; and the control device is used for stopping the suction source host from working according to the negative pressure signal.

In the system, the suction source host further comprises a light sensation switch and a landscape lamp; the light sensation switch is connected with the scene light lamp and used for controlling the scene light lamp to be turned on or turned off.

In summary, the embodiment of the invention discloses a dust removal system, which comprises a suction source host and a water filtering dust collection barrel which are separately arranged, and a dust collection window which is arranged in each room. After the suction source main machine works, powerful suction is generated, dust is sucked into the water filtering dust collecting barrel from the dust collecting window for filtering, and is fixed in water, so that secondary pollution is prevented. The water filtration mode is used, the cleaning is convenient, and only the sewage in the water filtration dust collection barrel needs to be poured out during cleaning; does not need to purchase a dust bag, and reduces later consumption. And a contact switch is arranged on the dust collection window, so that dust collection operation can be realized only by connecting a corresponding dust collection joint on the dust collection window, and a heavy dust collector does not need to be moved. And the suction source main engine is arranged outdoors, so that the noise pollution is reduced. The technical scheme provided by the invention can solve the problems of troublesome use, high later-stage cost and easy secondary pollution of the existing dust collector.

Drawings

FIG. 1 is a schematic view of the overall construction of a dust removing system according to the present invention;

FIG. 2 is a schematic front view of a dust extraction window according to the present invention;

FIG. 3 is a side schematic view of the dust extraction window of FIG. 2;

FIG. 4 is a cross-sectional view of a water filtration dust collection bucket of the present invention;

FIG. 5 is a cross-sectional view of a suction source host of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In order to achieve the purpose, the technical scheme of the invention is realized as follows:

fig. 1 is a schematic view showing the overall construction of a dust removing system according to the present invention, and referring to fig. 1, the system comprises: a suction source main machine 101, a water filtering dust collection barrel 102, a dust suction pipeline 105, a multi-way head 106 and a connecting pipe 1023.

The water filtering dust collecting barrel 102 is provided with an air inlet 1022 and an air outlet 1021, a certain amount of water is in the water filtering dust collecting barrel 102, dust and other garbage entering from the air inlet 1022 can firstly enter the water, and the air outlet 1021 and the air inlet 1022 are arranged above a water level line in order to prevent the air outlet 1021 from sucking water. Wherein, the air inlet 1022 is connected with one end of the connection tube 1023, and the other end of the connection tube 1023 is disposed under the water level line. That is, the sucked dust is discharged into the water through the connection pipe 1023, thereby fixing the dust in the water and preventing the dust from being discharged from the air outlet 1021 to cause secondary dust pollution.

In the present invention, the suction source main unit 101 is disposed separately from the water filtering dust collecting tub 102. Wherein, a suction port 1011 on the suction source host 101 is connected with an air outlet 1021 on the water filtration dust collection barrel 102 through a dust collection pipeline 105, and an air inlet 1022 on the water filtration dust collection barrel 102 is connected with the dust collection pipeline 105. In practice, the system further includes a multi-way head 106, and the air inlet 1022 of the water filtering dust collecting tank 102 is connected to the plurality of dust collecting pipes 105 through the multi-way head 106. After the suction source host 101 is operated, a corresponding dust removal operation can be performed as long as a corresponding dust suction interface is connected to the interface of the dust suction pipeline 105 of the room. Wherein, the dust absorption interface includes: round hair brushes, pillow brushes, pneumatic turbine brushes, water suction brushes, pointed suction nozzles and the like.

Referring to fig. 1, in the embodiment of the present invention, the air inlet 1022 of the water filtering dust collecting bucket 102 is provided with a multi-way head 106, and each joint of the multi-way head 106 can be connected with the multi-way head 106, so that a joint of the dust collecting pipeline 106 is reserved in each room. That is, one dust suction duct 105 connected to the air inlet 1022 of the water filtration dust collecting tub 102 is provided in each room according to the specific circumstances. The multi-pass head 106 includes a three-pass head, a four-pass head, and the like, which can be selected according to a specific scene, and is not limited herein. The multi-pass head 106 is shown as a quad head.

In other embodiments of the present invention, in order to better control the dust-collecting operation and to improve the overall appearance of the room, as shown in fig. 1, the system further comprises: dust suction windows 103 respectively provided at the other ends of the plurality of dust suction ducts 105; that is, one dust suction window 103 is installed at the interface of the corresponding dust suction duct 105 of each room.

FIG. 2 is a schematic front view of a dust extraction window according to the present invention; figure 3 is a side schematic view of the dust extraction window of figure 2. As shown in fig. 2 and 3, a dust suction nozzle is arranged in the dust suction window 103, and is directly connected with the dust suction pipe 105 and communicated with the air inlet 1022 of the water filtration dust collection barrel 102 through the dust suction pipe 105. One side of the dust collection window 103 is hinged with a window cover plate 1031, specifically, a hinge shaft 1033 is arranged at the upper end of the dust collection window 103, and the window cover plate 1031 can rotate around the hinge shaft 1033. After the window panel 1031 is opened, a required dust collection interface can be connected to the dust collection pipe orifice; after the window panel 1031 is closed, the window panel 1031 just covers the dust suction pipe opening, so that the dust suction pipe opening is sealed.

In an embodiment of the present invention, a contact switch 1032 is disposed at the hinge joint of the window cover plate 1031 and the dust collection window 103; after the window cover plate 1031 is closed, the dust suction pipe opening is sealed, and the contact switch 1032 is turned off; when the window cover plate 1031 is opened, the contact switch 1032 is turned on; the dust collection window 103 sends a starting-up instruction to the suction source host 101; the suction source host 101 starts to operate according to the boot instruction. Similarly, after the window cover plate 1031 is closed again, the contact switch 1032 is turned off, and the dust collection window 103 sends a shutdown instruction to the suction source host 101; the suction source host 101 stops operating according to the shutdown instruction. Specifically, the dust collection window 103 sends a power-on command to a control device in the suction source host 101, and the control device starts the suction source host 101 to operate according to the power-on command.

In another embodiment of the invention, a contact switch is arranged on the dust collection pipe orifice, and the contact switch is switched on after the dust collection joint is connected to the dust collection pipe orifice; the dust collection window sends a starting-up instruction to the suction source host 101; the suction source host 101 starts to operate according to the boot instruction. In the embodiment, the window cover plate needs to be opened when the dust collection connector is connected, so that the defect that the suction source main machine 101 works due to the fact that the window cover plate is opened by misoperation is perfectly overcome.

In the above embodiment, after the contact switch 1032 is turned on, the dust collection window 103 sends the power-on command to the suction source host 101, specifically, a low-voltage signal circuit is provided on the dust collection window 103, and after the contact switch 103 is turned on, the low-voltage signal circuit operates to send the power-on command to the control device in the suction source host 101, where the power-on command may be a high level or a low level. After receiving the high level or the low level indicating the power-on command, the control device switches on the power supply, switches on the working power supply of the vacuum motor in the suction source host 101, and starts the operation of the vacuum motor in the suction source host 101. Similarly, a low level or a high level is sent to the control device at the instant when the contacts on the low voltage signal circuit are opened and closed. The power-on command is just opposite to the power-off command, and may be specifically set according to an actual situation, which is not limited herein.

In the specific implementation process of the invention, after dust needs to be directly discharged into water, the strong negative pressure of the air outlet 1021 easily causes water drops in the water filtering dust collecting barrel 102 to splash, and the splashed water drops can enter the suction source host machine 101 through the air outlet 1021, which easily causes water inlet short circuit of the suction source host machine 101, thus causing accidents.

Therefore, in the embodiment of the present invention, the water filtering dust collecting tub 102 further includes: a water retaining device; fig. 4 is a sectional view of a water filtering dust collecting tub according to the present invention, and as shown in fig. 4, in this embodiment, the connection pipe 1023 is embodied as a U-shaped pipe 406. The water filtering dust collecting tub 102 includes: barrel 401, barrel cover 403, water retaining device 402, U-shaped pipe 406, water outlet 404, water outlet pipe 405, air inlet 1022 and air outlet 1021. After the barrel cover 403 and the barrel body 401 are covered, sealing can be achieved.

The water blocking device 402 is vertically fixed in the water filtering dust collecting barrel 102 through a U-shaped pipe 406, wherein the bottom end of the water blocking device 402 is connected with the other end of the U-shaped pipe 1023, which is positioned under water, the top end of the water blocking device 402 is sealed, and an opening is arranged on the side surface of the water blocking device 402. In this embodiment, the vertical fixing of the water retaining device is beneficial to the water under the negative pressure to fly upwards vertically, and the top end sealing is beneficial to the fact that the rising water can only flow out from the side opening after the rising is blocked. Of course, the water blocking device 402 can be implemented in other ways as long as it can block the splashed water drops.

In the embodiment of the invention, the water blocking device 402 is a cylinder with an opening on the side, the top end of the cylinder is provided with a water blocking plate 4021, and the bottom end of the cylinder is connected with the other end of the U-shaped pipe 406 which is positioned underwater, that is, the bottom end of the cylinder is sleeved on the other end of the U-shaped pipe 406 which is positioned underwater. The area of the water baffle 4021 is large, so that splashed water drops can fall on the water baffle. In addition, splashing caused by excessive water in the barrel body 401 is prevented, and the highest water level in the barrel body 401 is not higher than one half of the water retaining device 402; and the effect of fixing dust is not strong due to too little water in the barrel body 401, the lowest water level is not lower than the joint of the water retaining device 402 and the U-shaped pipe 406, namely, the bottom end interface of the U-shaped pipe needs to be submerged into water.

In the present invention, in order to facilitate the discharge of waste water, as shown in fig. 4, a drain port 404 is provided at the bottom of the water filtering dust collecting tub 102; in addition, the water filtering dust collecting barrel 102 also comprises a drain hose 405; one end of the drain hose 405 is connected to the drain port 404. When the water drain device works normally, the other end of the drain hose 405 is hung on the side wall of the barrel 401, and when water is drained, the other end of the drain hose 405 is lowered.

In addition, in order to prevent the pipe from being blocked, a polyvinyl chloride PVC pipe having an advantage that the inner wall is smooth and is not easily blocked is used as the dust suction pipe 105 in the present invention. To reduce noise pollution, the suction source main unit 101 is installed outdoors.

Fig. 5 is a cross-sectional view of a suction source main unit according to the present invention, and as shown in fig. 5, the suction source main unit 101 includes: a shell 501, a control device 502, a vacuum motor 503, a suction port 507, a hanging plate 505, a cover plate 504, an exhaust port 508 and a negative pressure switch 506; wherein, the vacuum motor 503 is arranged inside the shell 501, the suction port 507 arranged at the bottom of the shell 501 is communicated with the exhaust port 508 arranged at the side of the shell 501, and the strong suction force generated by the vacuum motor 503; the cover plate 504 is disposed on the top of the housing 501 for protecting the electronic devices inside the housing 501 from wind, sunlight and rain. The hanging plate 505 is arranged on the side of the shell and used for fixing the suction source main machine 101 on a support such as a wall body. The control device 502 is disposed in the housing 501, connected to the vacuum motor 503, the negative pressure switch 506, the timer, and the dust collection window 103, and configured to receive corresponding signals to perform corresponding operations.

In the actual operation process, the situation that the sucked garbage is too large to cause pipeline blockage easily occurs, and accidents are easily caused. In order to prevent this phenomenon, a negative pressure port is provided on the suction port of the suction source main unit 101, and a negative pressure switch 506 is provided on the negative pressure port. Referring to FIG. 5, the negative pressure switch 506 is used to send a negative pressure signal to the control device 502 in the case of a negative pressure; the control device 502 stops the operation of the suction source main unit 101 according to the negative pressure signal. Specifically, after the pipeline is blocked, the negative pressure in the pipeline is increased due to the continuous operation of the suction source main machine 101; the negative pressure switch arranged on the negative pressure interface is triggered to work under the action of strong negative pressure, that is, the negative pressure protection circuit is switched on, and simultaneously a negative pressure signal is sent to the control device 502, and the control device 502 switches off the working power supply of the vacuum motor 503 after delaying for 5s according to the negative pressure signal. Wherein, the negative voltage signal can be high level or low level.

In the present invention, for better appearance, the suction source host 101 further comprises a light-sensitive switch 509 and a landscape lamp 510; the landscape lamp 510 is disposed on the housing 501 near the cover 504, the light-sensitive switch 509 is connected to the landscape lamp 510, and the light-sensitive switch 509 is used for controlling the opening or closing of the landscape lamp 510. The light-sensitive switch 509 turns on the circuit when the light intensity is lower than a specified value and turns off the circuit when the light intensity is higher than the specified value; specifically, when the night comes, the light-sensitive switch 509 can sense that the external light gradually weakens, and when the intensity of the external light is lower than a certain value, the light-sensitive switch 509 is turned on, and the landscape lamp 510 flashes. The landscape lamps 510 may be LED lamps, the landscape lamps 510 are arranged in a U-shape at the adjacent position of the cover plate 504 and the housing 501, and the housing 501 is a translucent housing.

In order to more clearly inform the user that the suction source main unit 101 is operating, a key lamp provided on the cover plate may flash after the suction source main unit 101 is turned on.

Because the suction source main machine 101 is installed outdoors, in order to prolong the service life of the suction source main machine 101, the suction source main machine 101 is made of PP materials, and can resist rain, sun and impact.

The water filtering dust collecting barrel 102 is made of carbon, and has the advantages of scratch resistance, high strength, acid and alkali corrosion resistance and high temperature resistance.

In the actual operation process, the suction source host 101 is likely to operate for more than 1 hour, or the user may inadvertently turn on the power supply or forget to turn off the power supply due to misoperation, which may affect the service life of the suction source host 101. Therefore, in the present invention, the suction source main unit 101 further includes: a timing switch; the timing switch is connected with the power supply of the suction source host 101 and is used for disconnecting the power supply of the suction source host 101 after a specified time.

The outdoor suction source host is connected with the indoor water filtering dust collecting barrel through a pipeline, and the dust suction window of each room is connected with the water filtering dust collecting barrel through a connecting pipe. When the dust collection device is used, a dust collection window is opened in a room needing to be cleaned, and dust can be removed by connecting a hose. When a room is changed, dust can be removed by only holding the dust collection connector and inserting the dust collection connector into a dust collection window of another room, or dust or garbage can be directly swept to the dust collection window in the room without holding the dust collection connector, and the dust can be removed by opening a window cover plate, so that the complicated procedures of continuously moving a heavy dust collector, plugging a power supply and starting the dust collector are solved, and the occurrence of safety accidents such as electric leakage and the like caused by the damage of a power line due to the movement of the dust collector is avoided; the suction source host is arranged outdoors, and the noise of the suction source host is low after treatment, thus solving the problem that the dust collector generates noise indoors; the water filtering dust collecting barrel capable of being installed indoors is designed into a water filtering type filtering mode, sucked dust and garbage can be filtered through water, so that 100% of dust can be locked in water, and secondary pollution is completely avoided. In addition, because the filter element or the dust barrier is removed for filtration, the suction force is always kept strong and powerful, and only the grey water needs to be discharged when the dust and the garbage are cleaned, namely, the secondary pollution can not be caused when the garbage in the dust collecting barrel is cleaned, and the cost for purchasing the filter element or the dust barrier can be reduced.

In summary, the present invention provides a dust removing system, which comprises a suction source main unit and a water filtering dust collecting barrel which are separately arranged, and a dust collecting window installed in each room. Wherein, connect through many connecting pipes, a plurality of logical heads. After the suction source host computer worked, produced powerful breathing in, in sucking water from the dust absorption window and filtering the dust collection bucket with the dust, fixed the dust in the aquatic, prevent secondary pollution, the mode of using water filtration, when wasing, only need with water filter the sewage in the dust collection bucket fall can, need not purchase the dust bag, reduce later stage consumption. And a contact switch is arranged on the dust collection window, so that dust collection operation can be realized only by connecting a corresponding dust collection joint on the dust collection window, and a heavy dust collector does not need to be moved. And the suction source main engine is arranged outdoors, so that the noise pollution is reduced. The technical scheme provided by the invention can solve the problems of troublesome use, high later-stage cost and easy secondary pollution of the existing dust collector.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention shall fall within the protection scope of the present invention.

Claims (8)

1. A dust extraction system, the system comprising: a suction source host, a water filtering dust collection barrel and a dust collection pipeline;

the water filtering dust collecting barrel is provided with an air inlet and an air outlet, and a connecting pipe is arranged in the water filtering dust collecting barrel; a certain amount of water is filled in the water filtering dust collecting barrel, wherein the air outlet and the air inlet are arranged above a water level line; the air inlet is connected with one end of the connecting pipe, and the other end of the connecting pipe is arranged below the water level line;

a suction port on the suction source main machine is connected with an air outlet on the water filtration dust collection barrel through a dust collection pipeline, and an air inlet on the water filtration dust collection barrel is connected with the dust collection pipeline;

the water filtering dust collecting bucket further comprises: a water retaining device; wherein the connecting pipe is a U-shaped pipe;

the water retaining device is vertically fixed in the water filtering dust collecting barrel through a U-shaped pipe, and the top end of the water retaining device is sealed;

the water retaining device is a cylinder with an opening on the side face, a water retaining plate is arranged at the top end of the cylinder, and the bottom end of the cylinder is connected with one end, located underwater, of the U-shaped pipe.

2. The system of claim 1, further comprising: dust collection windows respectively arranged at the other ends of the dust collection pipelines; a dust suction pipe orifice is arranged in the dust suction window, a window cover plate is hinged to one side of the dust suction window, and the dust suction pipe orifice is sealed after the window cover plate is closed; wherein,

a contact switch is arranged at the hinged position of the window cover plate and the dust collection window;

when the window cover plate is closed, the contact switch is switched off; after the window cover plate is opened, the contact switch is switched on, and the dust collection window sends a starting-up instruction to the suction source host; the suction source host starts to work according to the starting instruction;

or,

a contact switch is arranged on the dust collection pipe orifice;

after the dust collection joint is connected to the dust collection pipe orifice, the contact switch is switched on; the dust collection window sends a starting-up instruction to the suction source host; and the suction source host starts to work according to the starting-up instruction.

3. The system of claim 2, further comprising: a multi-way head;

one joint of the multi-way head is connected with an air inlet on the water filtering dust collecting barrel through a dust collecting pipeline; and other joints of the multi-way head are connected with the dust collection window through dust collection pipelines.

4. The system as claimed in claim 1, wherein the bottom of the water filtering dust collecting barrel is provided with a water outlet;

the water filtering dust collecting barrel further comprises: a drain hose; one end of the drainage hose is connected with the drainage port.

5. The system of claim 2, wherein the suction source host further comprises: a control device;

and the control device is used for receiving a starting-up instruction sent by the dust collection window and starting the suction source host to work.

6. The system of claim 5, wherein the suction source host further comprises: a timing switch;

and the control device is used for stopping the suction source host from working according to a shutdown instruction sent by the timing switch.

7. The system according to claim 6, wherein a negative pressure interface is arranged on an air suction port of the suction source main machine, and a negative pressure switch is arranged on the negative pressure interface;

the negative pressure switch is used for sending a negative pressure signal to the control device under the negative pressure condition;

and the control device is used for stopping the suction source host from working according to the negative pressure signal.

8. The system of claim 7, wherein the suction source host further comprises a light-sensitive switch and a landscape lamp, and the light-sensitive switch is connected with the landscape lamp;

the light sensation switch is used for controlling the scene light to be turned on or turned off.