Automatic feeding device, control method thereof and multi drum washing machine

The invention claimed is: 1. An automatic feeding device, comprising: at least two water outlets; a water supply pipeline configured to controllably and reversibly deliver inlet water to any one of the water outlets; at least two liquid storage parts each configured to contain additive; and a pumping structure configured to generate a negative pressure by virtue of a water flow flowing through the water supply pipeline to pump out the additives in the at least two liquid storage parts and deliver the additives to the selected water outlet with the water flow; the at least two liquid storage parts include a first liquid storage part and a second liquid storage part; a flushing pipeline, wherein at least a part of the water flow at a water outlet end of the water supply pipeline is directly introduced to the pumping structure by the flushing pipeline to perform flushing, and then returns to the water supply pipeline through the pumping structure; two ends of a connecting pipeline respectively communicate with a water outlet end of the flushing pipeline and a pumping port of the pumping structure; the connecting pipeline is connected in series with first and second reversing valves, and a reversing port of each of the reversing valves communicates with each of the liquid storage parts in a one-to-one correspondence; and configured so that when any one of the reversing valves is switched to enable the corresponding liquid storage part to communicate with the pumping port of the pumping structure, the two reversing ports, communicating with the connecting pipeline, of the reversing valve are disconnected; each of the first reversing valve and the second reversing valve is a valve body provided with two inlets and one outlet, and the inlets are configured to respectively communicate with the two outlets under the actions of valve elements inside the valve bodies; a first inlet and the outlet of each of the first reversing valve and the second reversing valve are both formed in the connecting pipeline, and second inlets of the first reversing valve and the second reversing valve respectively communicate with the first liquid storage part and the second liquid storage part in a one-to-one correspondence. 2. The automatic feeding device according to claim 1 , wherein the flushing pipeline is provided with a one-way valve for ensuring that a water flow in the flushing pipeline flows from a water inlet end to the water outlet end in a single direction; and the flushing pipeline is provided with a control valve for controlling the water flow to flow in the flushing pipeline or not. 3. The automatic feeding device according to claim 2 , wherein the connecting pipeline is provided with a metering device for detecting a flow of a liquid flowing through the pipeline; and the connecting pipeline is provided with a one-way valve for ensuring that the liquid in the pipeline flows to one end of the pumping port of the pumping structure in a single direction. 4. The automatic feeding device according to claim 1 , wherein the water outlet end of the water supply pipeline communicates with a first water outlet or a second water outlet by a third reversing valve; or, the water outlet end of the water supply pipeline is respectively connected with the first water outlet and the second water outlet by two different pipelines, and each of the two pipelines is provided with a control valve for controlling the on/off of the pipeline; and the water supply pipeline is provided with a one-way valve for ensuring the water flow in the pipeline flows from a water inlet source end to the water outlet end in a single direction. 5. The automatic feeding device according to claim 1 , wherein the pumping structure comprises a venturi tube arranged in the water supply pipeline and configured to generate the negative pressure by virtue of the flowing of the water flow, and a negative pressure region of the venturi tube is provided with the pumping port communicating with the liquid storage parts and used for pumping the additives into the water flow of the water supply pipeline by virtue of the negative pressure; and two ends of the venturi tube are both connected into the water supply pipeline and respectively and correspondingly communicate with the water inlet end and the water outlet end; and the middle of the venturi tube is provided with a necking part of which the inner wall tube diameter is suddenly reduced, the flow rate of the water flow flowing through the necking part is suddenly increased to generate the negative pressure to form the negative pressure region. 6. The automatic feeding device according to claim 3 , wherein the connecting pipeline including a pipeline located between each of the liquid storage parts and the pumping structure and is provided with a labyrinth loop; each of the connecting pipelines communicates with the pumping port of the pumping structure by the same labyrinth loop; the metering device for detecting the flow of the flowing liquid is arranged between the labyrinth loop and the pumping port of the pumping structure; and the labyrinth loop communicates with the pumping port of the pumping structure by a pipeline provided with a control valve, and the control valve controls the on/off of the pipeline. 7. The automatic feeding device according to claim 1 , comprising: at least two water supply pipelines, capable of respectively delivering inlet water to water outlets of the corresponding water supply pipelines, wherein each of the water supply pipelines is provided with a pumping structure capable of generating a negative pressure by virtue of a water flow flowing through the corresponding water supply pipeline to pump out the additives in the liquid storage parts and deliver the additives to the water outlet of the corresponding water supply pipeline with the water flow. 8. The automatic feeding device according to claim 7 , wherein the water outlet end of each of the water supply pipelines is connected with each of the pumping structures in a one-to-one correspondence way by a different flushing pipeline; or, the water outlet end of any one of the water supply pipelines communicates with the water inlet end of one of the flushing pipelines, and the water outlet end of the flushing pipeline communicates with one of the pumping structures by a reversing valve; or, the water outlet end of any one of the water supply pipelines communicates with the water inlet end of one of the flushing pipelines, and the water outlet end of the flushing pipeline is connected with each of the pumping structures in a one-to-one correspondence way by a pipeline provided with a control valve; or, the water outlet end of each of the water supply pipelines is correspondingly connected, by one of the flushing pipelines, with the pumping structure arranged on the water supply pipeline. 9. The automatic feeding device according to claim 7 , comprising at least two liquid storage parts, wherein each of the liquid storage parts is connected with a pumping port of each of the pumping structures in a one-to-one correspondence way by a different connecting pipeline, and each of the connecting pipelines is provided with a control valve for controlling the on/off of the pipeline; or, one of the at least two liquid storage parts communicates with the same connecting pipeline by a reversing valve; or, the at least two liquid storage parts respectively communicate with the same connecting pipeline by pipelines provided with control valves; the water outlet end of the connecting pipeline communicates with the pumping port of one of the at least two pumping structures by a reversing valve; or, the water outlet end of the connecting pipeline respect