阅读说明：本技术 一种清洁设备及其清洁方法 (Cleaning equipment and cleaning method thereof ) 是由 周鹏 李磊 于 2021-09-27 设计创作，主要内容包括：本发明公开了一种清洁设备及其清洁方法,包括分别与壳体安装连接为一体的垃圾盒、抽吸风机以及气液分离中转仓,其中,壳体设有抽吸口；气液分离中转仓的内部分别连接抽吸入口、气流出口和液体出口；抽吸口与抽吸风机之间形成贯穿抽吸入口和气流出口的抽吸通道,通过抽吸口进入抽吸通道的抽吸流在气液分离中转仓的内部进行气液分离；液体出口与垃圾盒的内部连通；本发明既可靠确保了气液分离中转仓在进行水汽分离工作时其内部空间不会受到影响,而且垃圾盒内部避免了水汽分离的过程,因而明显提高了垃圾盒的有效储污量。(The invention discloses a cleaning device and a cleaning method thereof, and the cleaning device comprises a garbage box, a suction fan and a gas-liquid separation transfer bin which are respectively installed and connected with a shell into a whole, wherein the shell is provided with a suction port; the interior of the gas-liquid separation transfer bin is respectively connected with a suction inlet, an airflow outlet and a liquid outlet; a suction channel penetrating through the suction inlet and the air outlet is formed between the suction port and the suction fan, and the suction flow entering the suction channel through the suction port is subjected to gas-liquid separation in the gas-liquid separation transfer bin; the liquid outlet is communicated with the interior of the garbage box; the invention not only reliably ensures that the internal space of the gas-liquid separation transfer bin is not influenced when the gas-liquid separation transfer bin performs water-vapor separation, but also avoids the water-vapor separation process inside the garbage box, thereby obviously improving the effective dirt storage capacity of the garbage box.)

1. A cleaning device is characterized by comprising a garbage box, a suction fan and a gas-liquid separation transfer bin, wherein,

the shell is provided with a suction port;

the interior of the gas-liquid separation transfer bin is respectively connected with a suction inlet, an airflow outlet and a liquid outlet;

a suction channel penetrating through the suction inlet and the gas outlet is formed between the suction port and the suction fan, and the suction flow entering the suction channel through the suction port is subjected to gas-liquid separation in the gas-liquid separation transfer bin;

the liquid outlet is in communication with the interior of the waste bin.

2. The cleaning apparatus defined in claim 1, wherein the liquid outlet communicates with the interior of the waste bin through a transfer bin return passage; and a garbage box air return channel is also arranged between the garbage box and the gas-liquid separation transfer bin and is used for discharging gas in the garbage box to the suction fan.

3. The cleaning device as claimed in claim 2, wherein the garbage box return air passage and the transfer bin return passage are respectively provided by independent passages.

4. The cleaning device as claimed in claim 2, wherein the garbage box return air channel and the transfer bin return channel are arranged in a single channel; when the gas-liquid separation transfer bin performs gas-liquid separation, the single channel cannot be filled with backflow liquid and is used for forming a gas return space.

5. The cleaning device according to claim 1, wherein the gas-liquid separation transit bin and the garbage box are in a split mounting connection structure, the liquid outlet is communicated with the interior of the garbage box through a transit bin return passage, and the transit bin return passage is located between the gas-liquid separation transit bin and the garbage box.

6. The cleaning device according to claim 1, wherein the gas-liquid separation transit bin and the garbage box adopt an integral connection structure; the integrated connection structure comprises an installation shell installed on the cleaning equipment, and a separation part used for enabling the gas-liquid separation transfer bin and the garbage box to be separated is arranged inside the installation shell.

7. The cleaning apparatus as claimed in claim 6, wherein the partition is provided with the suction inlet and the liquid outlet, respectively, the liquid outlet is communicated with the interior of the garbage box through a transfer bin return passage, and a garbage box return passage is further provided between the garbage box and the gas-liquid separation transfer bin; the transfer bin return passage and the garbage box return passage are arranged by adopting independent passages or single passages.

8. The cleaning device according to claim 2 or 7, wherein a separator for solid-liquid separation is arranged in the liquid outlet and/or the transfer bin return flow channel, so that the gas-liquid separation transfer bin is simultaneously used as a solid garbage collecting area.

9. Method for cleaning a cleaning device according to one of claims 1 to 8, characterized in that it comprises the following cleaning process:

under the negative pressure suction effect of the suction fan, garbage on the ground and gas form suction flow and enter the gas-liquid separation transfer bin through the suction port and the suction channel;

under the gas-liquid separation action of the gas-liquid separation part, gas in the suction flow is sucked into the suction fan, and simultaneously liquid garbage/solid garbage in the suction flow enters the garbage box through the liquid outlet.

10. The cleaning method according to claim 9, wherein the gas in the garbage box enters the gas-liquid separation transfer bin through a garbage box return gas channel and is used for discharging the gas in the garbage box to the suction fan.

Technical Field

The invention belongs to the technical field of cleaning, and particularly relates to cleaning equipment and a cleaning method of the cleaning equipment.

Background

With the continuous progress and development of science and technology, people also have higher expectations on the living level. Cleaning is an indispensable daily affair in people's life, so the cleaning equipment with the automatic cleaning function also becomes the necessary daily cleaning tool of people. In order to achieve a good cleaning effect on the ground, a cleaning device with a suction function has been proposed, and specifically includes a suction fan and a suction port which are communicated with each other through a suction channel, the suction fan is used to make the suction port form a negative pressure adsorption effect on the ground, and then the garbage (including liquid garbage) on the ground is sucked and transferred to a garbage collection box of the cleaning device.

Present cleaning equipment with suction function, its garbage collection box are located cleaning equipment's upper portion position basically, and not only gas-liquid separation is inefficient, and after the storage was collected sewage, obvious sewage liquid level sloshing problem can take place in gas-liquid separation's work, consequently, the garbage collection box need set up certain surplus space, and this effective storage dirty volume that has led to garbage collection box among the current suction type cleaning equipment is very little, and the concrete performance is: the trash storage space utilization ratio of the trash collection box is usually less than 50%.

Furthermore, the higher the height of the waste collection box, the larger the transverse area, which leads to a higher moisture separation efficiency, which, however, leads to a generally larger size of the waste collection box. For users with large household housing area, the clear water box needs to be expanded to ensure that enough water is used for cleaning the ground, and the corresponding garbage collection box also needs to be expanded to ensure matching in the cleaning process; otherwise, the user needs to pour the garbage due to the problem of insufficient capacity of the garbage collection box in the cleaning process, which is obviously inconvenient for the user; however, once the garbage collection box is expanded, the whole machine of the cleaning device has heavy weight and large volume, and cannot enter a short area to be cleaned, so that a cleaning blind area is easily formed.

To this end, the applicant wishes to seek technical solutions that improve on the above technical problem.

Disclosure of Invention

In view of the above, the present invention provides a cleaning apparatus and a cleaning method thereof, which can reliably ensure that the internal space of a gas-liquid separation transfer bin is not affected when performing water-vapor separation, and the inside of a garbage box avoids the water-vapor separation process, thereby significantly improving the effective dirt storage capacity of the garbage box.

The technical scheme adopted by the invention is as follows:

a cleaning device comprises a garbage box, a suction fan and a gas-liquid separation transfer bin, wherein,

the shell is provided with a suction port;

the interior of the gas-liquid separation transfer bin is respectively connected with a suction inlet, an airflow outlet and a liquid outlet;

a suction channel penetrating through the suction inlet and the gas outlet is formed between the suction port and the suction fan, and the suction flow entering the suction channel through the suction port is subjected to gas-liquid separation in the gas-liquid separation transfer bin;

the liquid outlet is in communication with the interior of the waste bin.

Preferably, the liquid outlet is communicated with the interior of the garbage box through a transfer bin return passage; and a garbage box air return channel is also arranged between the garbage box and the gas-liquid separation transfer bin and is used for discharging gas in the garbage box to the suction fan.

Preferably, the garbage box air return channel and the transfer bin return channel are respectively arranged by adopting independent channels.

Preferably, the garbage box air return channel and the transfer bin return channel are arranged in a single channel; when the gas-liquid separation transfer bin performs gas-liquid separation, the single channel cannot be filled with backflow liquid and is used for forming a gas return space.

Preferably, the gas-liquid separation transfer bin and the garbage box adopt a split installation connection structure, the liquid outlet is communicated with the interior of the garbage box through a transfer bin return passage, and the transfer bin return passage is positioned between the gas-liquid separation transfer bin and the garbage box.

Preferably, the gas-liquid separation transfer bin and the garbage box adopt an integrated connecting structure; the integrated connection structure comprises an installation shell installed on the cleaning equipment, and a separation part used for enabling the gas-liquid separation transfer bin and the garbage box to be separated is arranged inside the installation shell.

Preferably, the partition part is respectively provided with the suction inlet and a liquid outlet, the liquid outlet is communicated with the interior of the garbage box through a transfer bin return channel, and a garbage box return channel is further arranged between the garbage box and the gas-liquid separation transfer bin; the transfer bin return passage and the garbage box return passage are arranged by adopting independent passages or single passages.

Preferably, a separation part for solid-liquid separation is arranged in the liquid outlet and/or the transfer bin return flow channel, so that the gas-liquid separation transfer bin is simultaneously used as a solid garbage collection area.

Preferably, the cleaning method according to the cleaning apparatus as described above includes the following cleaning processes:

under the negative pressure suction effect of the suction fan, garbage on the ground and gas form suction flow and enter the gas-liquid separation transfer bin through the suction port and the suction channel;

under the gas-liquid separation action of the gas-liquid separation part, gas in the suction flow is sucked into the suction fan, and simultaneously liquid garbage/solid garbage in the suction flow enters the garbage box through the liquid outlet.

Preferably, the gas in the garbage box enters the gas-liquid separation transfer bin through a garbage box gas return channel and is used for discharging the gas in the garbage box to the suction fan.

It should be noted that the floor related to the present application includes any working surface to be cleaned, and the specific embodiment and the shape thereof are not particularly limited; the gas referred to in this application is typically air.

It should be noted that, for the sake of convenience of describing the water-vapor separation effect of the present application, the present application refers to the relevant features "liquid", "liquid outlet", but those skilled in the art can know without any doubt that: in practical operation, the liquid in the "liquid" and the "liquid outlet" referred to in the present application may specifically include liquid waste, and may also include other waste mixed in the liquid waste, such as various solid waste like dirt, dust, and the present application has no particular limitation on the specific form of the waste, and may include all waste capable of forming a suction flow from the ground through the suction port, which all belong to the scope of the present application.

The application proposes the core structural design who creatively proposes gas-liquid separation transfer bin in cleaning equipment, and the theory of operation when carrying out cleaning lies in: under the negative pressure suction effect of the suction fan, garbage on the ground and gas integrally enter the gas-liquid separation transfer bin through the suction port and the suction channel; under the gas-liquid separation action of the gas-liquid separation part, gas in the gas-liquid separation transfer bin is sucked into the suction fan, and meanwhile liquid garbage/solid garbage in the gas-liquid separation transfer bin enters the garbage box through the transfer bin return flow channel; the applicant has surprisingly found that: because the water-vapor separation in the application is carried out in the internal fixed area of the gas-liquid separation transfer bin, and the liquid garbage after the water-vapor separation is transferred into the garbage box in real time, the internal space of the gas-liquid separation transfer bin can not be influenced when the water-vapor separation is carried out, and the inside of the garbage box avoids the process of water-vapor separation, so that the effective dirt storage amount of the garbage box is obviously improved, and the theoretical dirt storage space utilization rate can reach 100 percent, therefore, the cleaning equipment provided by the application can greatly adapt to the capacity expansion requirement of the matched liquid storage box after being practically applied, and the problem of garbage dumping or liquid adding in the cleaning process can be avoided as much as possible; after the liquid storage box is expanded, the change influence on the weight and the volume of the whole cleaning equipment is small, and the size change of the machine body of the whole cleaning equipment is not obvious, so that the cleaning equipment can still enter a low area for cleaning, and a cleaning blind area is avoided as far as possible.

Drawings

FIG. 1 is a schematic view of the structure of a cleaning apparatus in embodiment 1 of the present invention;

FIG. 2 is a schematic structural view of the housing of FIG. 1 after being partially hidden;

FIG. 3 is a cross-sectional view of FIG. 1;

FIG. 4 is an enlarged view of a portion of the structure of FIG. 3;

fig. 5 is a schematic structural diagram of the garbage box return air channel and the transfer bin return air channel in embodiment 2 of the present invention, which are set using a single channel;

FIG. 6 is a schematic view of the structure of FIG. 5 after being rotated by a certain angle;

FIG. 7 is a cross-sectional view of FIG. 5;

FIG. 8 is a schematic structural view showing a case where the gas-liquid separation transit bin and the garbage box are integrally constructed in embodiment 3 of the present invention;

FIG. 9 is a cross-sectional view of FIG. 8;

FIG. 10 is an exploded view of FIG. 8;

FIG. 11 is a perspective view of a portion of the mounting housing of FIG. 8 (for illustrating the internal mounting structure);

fig. 12 is a schematic view of the structure of the partition in fig. 8.

Detailed Description

The embodiment of the invention discloses cleaning equipment, which comprises a garbage box, a suction fan and a gas-liquid separation transfer bin, wherein the garbage box, the suction fan and the gas-liquid separation transfer bin are respectively connected with a shell into a whole; the interior of the gas-liquid separation transfer bin is respectively connected with a suction inlet, an airflow outlet and a liquid outlet; a suction channel penetrating through the suction inlet and the air outlet is formed between the suction port and the suction fan, and the suction flow entering the suction channel through the suction port is subjected to gas-liquid separation in the gas-liquid separation transfer bin; the liquid outlet is communicated with the interior of the garbage box.

In order to make those skilled in the art better understand the technical solution of the present invention, the technical solution in the embodiment of the present invention will be clearly and completely described below with reference to the drawings in the embodiment of the present invention, and it is obvious that the described embodiment is only a part of the embodiment of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1: referring to fig. 1, 2, 3 and 4, a cleaning device 1 includes a garbage box 10, a suction fan 20 and a gas-liquid separation transit bin 30, which are respectively installed and connected with a housing as a whole, preferably, in the present embodiment, the housing includes a control housing 52 installed to be relatively swingable and a floor housing 51 installed with a suction port 40, the gas-liquid separation transit bin 30 is installed on the control housing 52, and the garbage box 10 is installed on the floor housing 51; preferably, in the present embodiment, in order to facilitate convenient charging of the cleaning device 1, the cleaning device 1 is further provided with a charging tray 53 in limit fit with the ground shell 51; meanwhile, a liquid storage box 61 (which can be used for containing clean water or cleaning liquid in particular) is mounted on the control shell 52; the floor housing 51 is provided with a rolling brush 62 (only the mounting shaft of the rolling brush 62 is shown in the figure) which can be in rolling contact with the floor; specifically, the rear end of the rolling brush 62 is provided with a collecting inlet 63 correspondingly arranged, the collecting inlet 63 is communicated with the garbage box 10, and further specifically, when the present application is implemented, the rest of related structures of the cleaning device 1 can be directly referred to the related descriptions of the prior application patents CN111588318A, CN 111543892A and CN112806925A, the present embodiment is not specifically described, and similar technical effects can be brought by the application of the present embodiment, and in addition, the cleaning device 1 can be a handheld integrated type with a handle (as shown in the present embodiment), or a cleaning robot type without a handle (the structures of the garbage box 10, the suction fan 20, the gas-liquid separation middle rotating bin 30, and the like are all integrally installed in the installation housing of the cleaning robot), which are all applicable implementation ranges of the present application, and the present embodiment is not particularly limited thereto.

In the present embodiment, as shown in fig. 5, 6 and 7, a suction inlet 31, a gas flow outlet 32 and a liquid outlet 33 are respectively connected to the inside of the gas-liquid separation transit bin 30; a suction passage 34 penetrating the suction inlet 31 and the air outlet 32 is formed between the suction port 40 and the suction fan 20, and the suction flow entering the suction passage 34 through the suction port 40 is subjected to gas-liquid separation inside the gas-liquid separation rotary bin 30; the liquid outlet 33 communicates with the interior of the waste bin 10.

Preferably, in this embodiment, the liquid outlet 33 communicates with the interior of the waste bin 10 through the transfer bin return passage 35; a garbage box air return channel 36 (an internal connection air return port 36a of the gas-liquid separation transfer bin 30) is arranged between the garbage box 10 and the gas-liquid separation transfer bin 30 and used for discharging gas in the garbage box 10 to the suction fan 20; particularly preferably, in the present embodiment, the waste box return air channel 36 and the intermediate transfer bin return channel 35 are respectively provided by using independent channels; meanwhile, the gas-liquid separation transit bin 30 and the garbage box 10 adopt a split installation connection structure, and the transit bin return passage 35 is positioned between the gas-liquid separation transit bin 30 and the garbage box 10.

Preferably, in order to facilitate the suction efficiency and at the same time, to facilitate the compact installation effect, in the present embodiment, the gas-liquid separation transit bin 30 includes a transit bin installation housing 30a installed in connection with the suction fan 20, wherein the suction inlet 31, the gas flow outlet 32, and the liquid outlet 33 are respectively provided on the transit bin installation housing 30 a; meanwhile, a water-vapor separation part 37 is arranged inside the transfer bin installation shell 30a, and the water-vapor separation part 37 can adopt a known structure with a water-vapor separation effect, which is not particularly limited in this embodiment; for example: the water-vapor separation part 37 comprises at least 1 flow separation unit and/or at least 1 airflow centrifugal unit; the liquid part is contacted with the liquid part in the suction flow through the flow separation unit, so that the liquid part is separated from the suction flow after being collected; the centrifugal separation of the liquid fraction from the suction flow is achieved by the centrifugal spinning action of the air flow centrifugal unit on the suction flow, more specifically the structure of the flow separation unit and the structure of the air flow centrifugal unit can be seen directly in the applicant's prior applications: a description of CN 113317734A; specifically, in the present embodiment, the moisture separation portion 37 employs a flow blocking unit formed in a labyrinth plate shape, and achieves an efficient moisture separation effect on the suction flow.

Considering that the gas-liquid separation rotary bin 30 not only serves as a space for gas-liquid separation of the suction flow but also serves as a solid waste collection area (which can be used for collecting solid waste), the applicant preferably proposes that the internal volume of the gas-liquid separation rotary bin 30 is not less than 100mL, and of course, the specific volume parameter of the gas-liquid separation rotary bin 30 can be selected conventionally according to actual needs, and the embodiment is not particularly limited.

Preferably, in order to ensure the suction efficiency and facilitate the installation effect with the gas-liquid separation turn-around bin 30, in the present embodiment, the suction fan 20 includes a suction motor 21, an impeller 22, an impeller cover 23, and a fan housing 24 (particularly, a volute shape) which are integrally installed and connected, and an inlet of the impeller cover 23 communicates with the gas flow outlet 32; the transfer bin mounting housing 30a is mounted to the fan housing 24, and in other embodiments, other known electric fans may be used as the suction fan.

The cleaning method of the cleaning device of the embodiment includes the following cleaning processes:

under the negative pressure suction effect of the suction fan 20, the garbage on the ground and the gas form a suction flow and enter the gas-liquid separation transit bin 30 through the suction port 31 and the suction channel 34; under the gas-liquid separation action of the gas-liquid separation part 37, gas in the suction flow is sucked into the suction fan 20 through the gas flow outlet 32 and discharged, and meanwhile, liquid garbage/solid garbage in the suction flow enters the garbage box 10 through the liquid outlet 33; the gas in the garbage box 10 enters the gas-liquid separation transfer bin 30 through the garbage box return air channel 36, and is used for discharging the gas in the garbage box 10 to the suction fan 20.

Because the water-vapor separation in the embodiment is performed in the internal fixed area of the gas-liquid separation transfer bin 30 and the liquid garbage after the water-vapor separation is transferred to the garbage box 10 in real time, the internal space of the gas-liquid separation transfer bin 30 is not affected when the water-vapor separation is performed, the water-vapor separation process is avoided in the garbage box 10, the problem of sloshing of the sewage liquid level is not needed to be worried about, the effective sewage storage amount of the garbage box 10 is obviously improved, and the theoretical sewage storage space utilization rate can reach 100%, therefore, after the practical application of the cleaning equipment 1 provided by the embodiment, the capacity expansion requirement of the matched liquid storage box 61 can be greatly adapted, and the problem of garbage dumping or liquid adding during cleaning can be avoided as much as possible; after the liquid storage box 61 is expanded, the influence on the change of the cleaning equipment 1 in the weight and the volume of the whole machine is small, and the change of the size of the machine body of the whole machine is not obvious, so that the cleaning equipment still can enter a low area for cleaning, and a cleaning blind area is avoided as much as possible.

It should be particularly noted that, the internal structure of the garbage box in the present embodiment may adopt any known garbage box, or may be provided with a solid-liquid separation structure therein, which may be specifically referred to the related scheme disclosed in CN212939599U, or referred to the prior application: 202121430836.7, respectively; the present application is not particularly limited in its practice.

In order to achieve a better solid-liquid garbage separation effect, in the present embodiment, a separation portion (not shown in the drawings, specifically, a structure such as a grid or a filter screen may be adopted) for solid-liquid separation is provided in the liquid outlet 33 and/or the return channel 35 of the transit bin, so that the gas-liquid separation transit bin 30 serves as a solid garbage collection region at the same time, and specifically, the solid garbage can be dumped by providing a detachable structure on the transit bin installation shell 30 a; the arrangement of the specific solid-liquid separation structure can be seen in the related scheme disclosed in CN 212939599U.

Example 2: the other technical solutions of this embodiment 2 are the same as that of embodiment 1, except that please refer to fig. 5, fig. 6 and fig. 7, in order to simplify the arrangement of the channel structure and improve the installation compactness of the structure, in this embodiment 2, the garbage box return air channel and the transfer bin return air channel are arranged by using a single channel 35 ', wherein, when the gas-liquid separation is performed in the gas-liquid separation transfer bin 30, as long as the single channel 35 ' is not filled with the returned liquid to form a return air space, therefore, in actual implementation, the caliber size of the single channel 35 ' needs to be widened or a specific shape design is required (the specific design can be selected according to actual needs by a conventional technique, and the embodiment does not specifically expand), and further, the return air space is ensured to be maintained all the time when in use.

Example 3: the remaining technical solutions of this embodiment 3 are the same as those of embodiment 1, except that, referring to fig. 8, 9, 10 and 11, for the compactness of the installation structure and the convenience of dumping garbage, in this embodiment 3, the gas-liquid separation transfer bin and the garbage box adopt an integrated connection structure, which is made into a garbage collection device 70 with gas-liquid separation transfer effect, and includes an installation housing composed of an installation housing body 71 (in a cylindrical shape) and an installation housing cover 72, and preferably, the installation housing is detachably installed on the housing of the cleaning device 1; the mounting shell cover 72 is connected with the fan shell 24 in a mounting way, and the gas-liquid separation transfer bin 30 'and the garbage box 10' are arranged in the mounting shell body 71 in a separated way; in the present embodiment, the inside of the mounting case body 71 achieves the effect of separating the gas-liquid separation transfer bin 30 'and the dust box 10' by the partition portion 73 (specifically, a plate-shaped partition portion shown in the drawing may be used, and other shapes may be used as a matter of course); when dumping rubbish, can directly dismantle the installation casing of rubbish collection device 70 from cleaning equipment, can also set up the mouth of falling dirty that is used for dumping rubbish in the side of installation casing, also can refer to earlier application: 202121430836.7, respectively.

Preferably, in order to achieve the compact partitioning effect, the partitioning portion 73 is respectively provided with a liquid outlet 74 and an air return port 75, the liquid in the gas-liquid separation transit bin 30 ' is transferred into the garbage box 10 ' in real time through the liquid outlet 74, and the gas in the garbage box 10 ' is discharged to the suction fan 20 through the air return port 75; in order to facilitate the suction and the gas-liquid separation relay effect, in the present embodiment, the gas-liquid separation relay bin 30 ' is located above the trash box 10 ' and is installed below the suction fan 20 (in other embodiments, the suction fan 20 may be installed on the side of the gas-liquid separation relay bin 30 ', and is not particularly limited); wherein the partition 73 is provided with a suction inlet 76, and a suction channel 34 'between the suction inlet 76 and the suction opening 40 penetrates the waste bin 10'.

Preferably, in the present embodiment, the interior of the garbage box 10' is provided with a transfer bin return pipeline 74a (corresponding to the transfer bin return channel 35 in embodiment 1) connected to the liquid outlet 74 for guiding the liquid; the gas-liquid separation transit bin 30 'is provided inside with a waste box return air line 75a (equivalent to the waste box return air channel 36 in embodiment 1) connected to the return air port 75 for the effect of guiding the flow of the gas, as shown in fig. 11 and 12, the transit bin return air line 74a and the waste box return air line 75a (provided by separate channels; particularly preferably, the outlet end of the waste box return air line 75a is close to the gas flow outlet 77 of the gas-liquid separation transit bin 30'.

In order to simplify the arrangement of the channel structure, in other embodiments, similar to the above embodiment 2, the transfer bin return line 74a and the waste bin return line 75a may also be arranged in a single channel; specifically, the liquid outlet 74 in the present embodiment may be used as the return air port 75 at the same time, and when the gas-liquid separation is performed in the gas-liquid separation silo 30', the liquid outlet 74 may be used to form a return air space without being filled with liquid, which is also a content of the present invention.

Similar to the above embodiment 1, in order to achieve a better solid-liquid waste separation effect, in this embodiment, a separation part (not shown in the figure, specifically, a structure such as a grating or a filter screen may be adopted) for solid-liquid separation is provided in the liquid outlet 74 and/or the transit bin return line 74a, so that the gas-liquid separation transit bin 30' serves as a solid waste collection area at the same time, and specifically, the solid waste can be dumped by providing a detachable structure on the installation shell body 71.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.