CN-224213866-U - Garbage collection device and swimming pool robot

Abstract

The utility model discloses a garbage collection device which is arranged in a swimming pool robot and comprises a shell arranged in the swimming pool robot body, wherein the bottom end of the shell is provided with a water inlet, the water inlet is communicated with a sewage suction port of the swimming pool robot body, the top wall or/and the side wall of the shell is/are provided with a plurality of filtering through holes in a penetrating way, the side wall or/and the top wall of the shell is provided with at least one drain pipe in a penetrating way, the inner wall of the drain pipe is detachably provided with a filtering collection net, the drain pipe is provided with a first valve, the first valve is in a normally closed state, and when the filtering through holes are blocked or the water flow is not smooth, the first valve on the drain pipe is opened, so that liquid in the shell is discharged out of the shell through a drain pipe. This garbage collection device and swimming pool robot, when having solved the garbage collection device in the current swimming pool robot and taking place the jam phenomenon, the swimming pool robot just can not continue the problem of absorbing rubbish effectively, makes the swimming pool robot can more effectually absorb rubbish.

Inventors

• ZHENG CHENGDONG

Assignees

• 佛山市顺德区一拓电气有限公司

Dates

Publication Date

20260508

Application Date

20250403

Claims (9)

1. 1. The garbage collection device is arranged in a swimming pool robot and is characterized by comprising a shell (200) arranged in a swimming pool robot body (100), wherein a water inlet (201) is formed in the bottom end of the shell (200), the water inlet (201) is communicated with a sewage suction port (101) of the body (100), and a plurality of filtering through holes (202) are formed in the top wall or/and the side wall of the shell (200) in a penetrating manner; The side wall or/and the top wall of the shell (200) are/is provided with at least one drain pipe (300) in a penetrating way, the inner wall of the drain pipe (300) is detachably provided with a filtering collecting net (400), the drain pipe (300) is provided with a first valve (500), the first valve (500) is in a normally closed state, when the filtering through hole (202) is blocked or the water flow is not smooth, the first valve (500) on the drain pipe (300) is opened, so that liquid in the shell (200) is discharged outside the shell (200) through the drain pipe (300).
2. 2. A garbage collection device according to claim 1, characterized in that the mesh of the filter collection net (400) is larger than the pore size of the filter through-holes (202).
3. 3. A waste collection device according to claim 1, wherein a second valve (600) is provided in the water inlet (201), the second valve (600) being adapted to prevent waste in the housing (200) from flowing backwards into the waste suction port (101).
4. 4. A waste collection device according to claim 1, wherein the filter collection mesh (400) is arranged at an end of the drain pipe (300) adjacent to the interior of the housing (200).
5. 5. A garbage collection device according to claim 1, wherein the first valve (500) is a solenoid valve, the first valve (500) being electrically connected to a controller inside the machine body (100).
6. 6. A waste collection device as claimed in claim 5, wherein a pressure sensor is provided in the housing (200), the pressure sensor being electrically connected to the controller, the pressure sensor being arranged to detect a pressure value in the housing (200) and to transmit the detected pressure value to the controller.
7. 7. The garbage collection device according to claim 5, wherein a flow sensor is arranged in the dirt suction port (101), the flow sensor is electrically connected with the controller, and the flow sensor is used for detecting the liquid flow rate at the dirt suction port (101) and transmitting the detected flow rate value to the controller.
8. 8. A waste collection device according to claim 1, wherein the first valve (500) is a mechanical safety valve.
9. 9. A swimming pool robot comprising a machine body (100), a treatment cavity (104) is formed in the machine body (100), a sewage suction port (101) communicated with the treatment cavity (104) is formed in the bottom of the machine body (100), a water outlet (102) communicated with the treatment cavity (104) is formed in the side part and/or the top of the machine body (100), a vane pump (103) is arranged at a position, close to the water outlet (102), in the treatment cavity (104), a controller is arranged in the machine body (100), the controller is electrically connected with the vane pump (103), the vane pump (103) is used for discharging water in the treatment cavity (104) to the outside of the water outlet (102), negative pressure is formed in the treatment cavity (104), so that water can enter the treatment cavity (104) from the sewage suction port (101), a running gear (700) is arranged at the bottom of the machine body (100), and the running gear (700) is used for moving the position of the swimming pool robot.

Description

Garbage collection device and swimming pool robot Technical Field The utility model relates to the technical field of intelligent underwater equipment, in particular to a swimming pool cleaning technology, and more particularly relates to a running gear of a swimming pool robot and the swimming pool robot. Background In the field of intelligent home, the application of robots is more extensive and deep, the figures and shadows of the robots are frequently found in all corners of a family, diversified tasks such as cleaning, security and the like are born, complex family and courtyard work is gradually completed instead of manual work, and the convenience and comfort level of life of people are greatly improved. In the field of swimming pool cleaning technology, swimming pool robots are increasingly popular with users as professional swimming pool automatic cleaning devices, and more families begin to choose to use the swimming pool robots to maintain the cleaning of swimming pools. The swimming pool can independently move underwater, efficiently clean dirt, sundries and the like at the bottom and on the four walls of the swimming pool, and provide a convenient and efficient solution for daily maintenance of the swimming pool. However, current pool robots expose a series of challenges to be addressed during actual use. Among them, the problem of clogging of the garbage collection device is particularly remarkable. As the pool robot operates for a long period of time, the body may absorb a large amount of debris, such as leaves, hair, sand, etc., during the cleaning process. After the garbage is continuously accumulated, the garbage collection device is extremely easy to be blocked, and once the garbage is blocked, the swimming pool robot cannot continuously and effectively absorb the garbage, so that the persistence and the effectiveness of the cleaning work of the swimming pool robot are seriously affected, the user experience is reduced, and the further popularization and the application of the swimming pool robot in the swimming pool cleaning market are also limited. In chinese patent 202420040003.7, the publication date is 2024.12.03, which includes a housing and at least two wheels defining a first plane, wherein a flow channel is formed from a water inlet to an end of the swimming pool robot at the bottom of the housing, and an arc-shaped drainage surface is provided on the flow channel. The swimming pool robot is characterized in that the flow channel with the cambered surface structure is arranged on the bottom surface, and any tangent line on the cambered surface structure is not parallel to the plane where the advancing direction is located, so that water flows backwards along the flow channel in the moving process of the swimming pool robot. Therefore, most of water flow in the advancing direction can flow backwards along the flow channel, so that excessive resistance cannot be caused at the front end of the first plane, and energy consumption is reduced. Therefore, how to make the swimming pool robot can still effectively absorb garbage when the garbage collection device is blocked is a technical problem which needs to be solved in industry. Disclosure of utility model The utility model aims to overcome the defects in the prior art, and provides a garbage collection device and a swimming pool robot, which are used for solving the problem that the swimming pool robot cannot continuously and effectively suck garbage when the garbage collection device in the conventional swimming pool robot is blocked. The utility model adopts the technical scheme that the garbage collection device is arranged in a swimming pool robot and comprises a shell arranged in a swimming pool robot body, wherein the bottom end of the shell is provided with a water inlet which is communicated with a sewage suction port of the swimming pool robot body, and the top wall or/and the side wall of the shell is provided with a plurality of filtering through holes in a penetrating way; The side wall or/and the roof of casing link up and are provided with at least one drain pipe, and the inner wall detachably of drain pipe is provided with the filtration and collects the net, is provided with first valve on the drain pipe, and first valve is normally closed state, when the filtration through-hole is blocked or rivers are unsmooth, first valve on the drain pipe opens, makes the liquid in the casing discharge outside the casing through the drain pipe. In one form, the mesh of the filter collection mesh is larger than the pore size of the filter through-holes. The rubbish that can block up the filtration through-hole can not be all with filtering the collection net jam for rivers can be through drain pipe discharge casing. In one mode, a second valve is arranged in the water inlet and is used for preventing garbage in the shell from flowing backwards into the sewage suction port. In one form, the filter collection mesh is disposed at an