CN212489602U - Anti-settling system - Google Patents

Abstract

The utility model provides a prevent deposiing system. The anti-settling system comprises: the storage structure is provided with a storage cavity, a first liquid through port and a second liquid through port, the storage cavity is used for storing turbid liquid, and the first liquid through port and the second liquid through port are both communicated with the storage cavity; the pump body structure is communicated with the first liquid through port through a first pipeline and is communicated with the second liquid through port through a second pipeline; the first valve body is arranged on the first pipeline and used for controlling the on-off of the first pipeline; the second valve body is arranged on the first pipeline and used for controlling the working state of the anti-precipitation system; when the first valve body is in a non-conduction state and/or the turbid liquid pressure in the second valve body is larger than or equal to a preset pressure value, the second valve body is in a discharging state, so that the turbid liquid in the first pipeline is discharged through the second valve body. The utility model effectively solves the problem that the taste of dishes is affected by the easy precipitation of the reclaimed water starch in the prior art.

Description

Anti-settling system

Technical Field

The utility model relates to a kitchen utensils and appliances technical field particularly, relates to a prevent deposiing system.

Background

At present, at the in-process that intelligent kitchen utensils and appliances cooked, to some specific dishes, need automatic water starch of throwing in to utilize water starch to collude the starch to the dishes.

However, when the intelligent kitchen ware does not need to put in water starch, the phenomenon of starch deposit in the storage tank bottom easily occurs, influences the normal use of water starch, and then has influenced the vegetable taste.

SUMMERY OF THE UTILITY MODEL

The main object of the utility model is to provide a prevent system of deposiing to solve prior art normal water starch and easily take place to deposit and influence the problem of dish taste.

In order to achieve the above object, the present invention provides an anti-settling system, comprising: the storage structure is provided with a storage cavity, a first liquid through port and a second liquid through port, the storage cavity is used for storing turbid liquid, and the first liquid through port and the second liquid through port are both communicated with the storage cavity; the pump body structure is communicated with the first liquid through port through a first pipeline and is communicated with the second liquid through port through a second pipeline; the first valve body is arranged on the first pipeline and used for controlling the on-off of the first pipeline; the second valve body is arranged on the first pipeline and used for controlling the working state of the anti-precipitation system; when the first valve body is in a non-conduction state and/or the turbid liquid pressure in the second valve body is larger than or equal to a preset pressure value, the second valve body is in a discharging state, so that the turbid liquid in the first pipeline is discharged through the second valve body.

Further, the first valve body is positioned between the second valve body and the material storage structure; when the second valve body is in the discharging state, the second valve body is located at the upstream position of the first valve body.

Further, the anti-settling system further comprises: the control module is connected with the first valve body and used for controlling the working state of the first valve body; when the control module controls the first valve body to be in a conducting state, the first pipeline is in a communicating state; when the control module controls the first valve body to be in a non-conduction state, the first pipeline is in a disconnection and connection state; when the pressure of turbid liquid in the second valve body is greater than or equal to a preset pressure value, the turbid liquid pushes the valve core of the second valve body to move towards the direction far away from the discharge hole, so that the turbid liquid is discharged from the discharge hole, and the second valve body is in a discharge state.

Further, the second valve body is connected with the control module, and the first pipeline includes: the first valve body is arranged on the main pipeline; the branch pipeline is communicated with the main pipeline, and the second valve body is arranged on the branch pipeline; the anti-settling system further comprises: the third valve body is arranged on the branch pipeline and connected with the control module so as to control the on-off of the branch pipeline; when the first valve body is in a conducting state, the control module controls the third valve body so as to enable the branch pipeline to be in a disconnected and connected state; when the first valve body is in a non-conduction state, the control module controls the third valve body and the second valve body so that the branch pipeline is in a communication state and the second valve body is in a discharging state.

Furthermore, the first valve body is a pinch valve, the first pipeline is a hose, and the control module controls a valve core of the pinch valve to move towards the direction close to the hose so as to squeeze the hose, so that the hose is in a disconnected and communicated state; the control module controls the valve core of the pinch valve to move towards the direction far away from the hose so as to enable the hose to be in a communication state.

Further, first valve body is first check valve, and anti-settling system still includes: the control module is connected with the pump body structure, and when the control module controls the motor of the pump body structure to rotate along a first direction, the first one-way valve is conducted, and the first pipeline is in a communicated state; when the control module controls the motor of the pump body structure to rotate along a second direction opposite to the first direction, the first one-way valve is not conducted, and the first pipeline is in an unconnected state.

Further, the second valve body is the second check valve, and first pipeline includes: the first valve body is arranged on the main pipeline; the branch pipeline is communicated with the main pipeline, and the second one-way valve is arranged on the branch pipeline; when the motor of the pump body structure rotates along the second direction, turbid liquid in the branch pipeline pushes the valve core of the second one-way valve to move, so that the second one-way valve is conducted, and the turbid liquid is discharged through the second one-way valve.

Further, the anti-settling system further comprises: the third valve body is arranged on the branch pipeline; when the motor of the pump body structure rotates along the first direction, the turbid liquid pressure in the branch pipeline is adjusted through the third valve body, so that the turbid liquid pressure is smaller than or equal to the preset pressure value, and the second one-way valve is not conducted.

Further, prevent deposiing system including the communication subassembly, the communication subassembly is connected with control module electricity, and the communication subassembly is used for receiving external equipment's control command and transmits control command to control module, and control module can carry out the ejection of compact according to control command control second valve body.

Further, prevent that deposit system includes the alarm component, and the alarm component is connected with control module, and when the ejection of compact time of second valve body was greater than or equal to the time of predetermineeing, control module control alarm component sent alarm signal.

Further, first pipeline is the pipeline structure, prevents that sediment system still includes: stirring impeller, stirring impeller set up in pipeline structure to be used for stirring the turbid liquid that flows in pipeline structure, prevent that turbid liquid from taking place the sediment.

Use the technical scheme of the utility model, prevent deposiing the system and include storage structure, pump body structure, first valve body and second valve body. When the anti-precipitation system is not needed for discharging, turbid liquid in the storage structure circularly flows between the first liquid through port and the second liquid through port under the pumping action of the pump body structure, so that the turbid liquid is prevented from precipitating in the storage structure, the first pipeline, the second pipeline and the pump body structure, and the problem that the taste of dishes is influenced by the fact that the starch in the prior art is easy to precipitate is solved. When the anti-settling system is required to discharge materials, the anti-settling system is operated, so that the first valve body is in a non-conduction state and/or the turbid liquid pressure in the second valve body is greater than or equal to a preset pressure value, and the second valve body is in a discharging state, so that the turbid liquid in the first pipeline is discharged through the second valve body.

Drawings

The accompanying drawings, which form a part of the present application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 shows a schematic structural view of a first embodiment of an anti-settling system according to the present invention;

fig. 2 shows a schematic structural view of a second embodiment of an anti-settling system according to the present invention;

fig. 3 shows a schematic structural view of a third embodiment of an anti-settling system according to the present invention; and

fig. 4 shows a schematic structural diagram of a fourth embodiment of the anti-settling system according to the present invention.

Wherein the figures include the following reference numerals:

10. a material storage structure; 11. a first liquid through port; 12. a second liquid passage; 20. a pump body structure; 30. a first pipeline; 31. a main pipeline; 32. a branch pipeline; 40. a second pipeline; 50. a first valve body; 60. a second valve body.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

It is noted that, unless otherwise indicated, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs.

In the present invention, unless otherwise specified, the use of directional words such as "upper and lower" is generally in reference to the orientation shown in the drawings, or to the vertical, perpendicular or gravitational orientation; likewise, for ease of understanding and description, "left and right" are generally to the left and right as shown in the drawings; the terms "inner and outer" refer to the inner and outer relative to the profile of the respective component itself, but the above directional terms are not intended to limit the present invention.

In order to solve the problem that the taste of dishes is influenced by the fact that the starch hydrate is easy to precipitate in the prior art, the application provides an anti-precipitation system.

Example one

As shown in fig. 1, the anti-settling system includes a storage structure 10, a pump body structure 20, a first valve body 50, and a second valve body 60. The storage structure 10 is provided with a storage cavity, a first liquid through port 11 and a second liquid through port 12, the storage cavity is used for storing turbid liquid, and the first liquid through port 11 and the second liquid through port 12 are both communicated with the storage cavity. The pump body structure 20 is communicated with the first liquid through port 11 through a first pipeline 30, and the pump body structure 20 is communicated with the second liquid through port 12 through a second pipeline 40. The first valve body 50 is provided on the first pipe 30 for controlling on/off of the first pipe 30. A second valve body 60 is provided on the first line 30 for controlling the operating state of the anti-settling system. When the first valve body 50 is in the non-conducting state and the pressure of the turbid liquid in the second valve body 60 is greater than or equal to the preset pressure value, the second valve body 60 is in the discharging state, so that the turbid liquid in the first pipeline 30 is discharged through the second valve body 60.

By applying the technical scheme of the embodiment, the anti-sedimentation system comprises a material storage structure 10, a pump body structure 20, a first valve body 50 and a second valve body 60. When the anti-precipitation system is not needed for discharging, turbid liquid in the storage structure 10 circularly flows between the first liquid through port 11 and the second liquid through port 12 under the pumping action of the pump body structure 20, so that the turbid liquid is prevented from precipitating in the storage structure 10, the first pipeline 30, the second pipeline 40 and the pump body structure 20, and the problem that the taste of dishes is influenced by the fact that the starch in the prior art is prone to precipitating is solved. When the anti-settling system is required to discharge, the anti-settling system is operated so that the first valve body 50 is in a non-conducting state and the pressure of the turbid liquid in the second valve body 60 is greater than or equal to a preset pressure value, and the second valve body 60 is in a discharging state so that the turbid liquid in the first pipeline 30 is discharged through the second valve body 60.

The discharge conditions for discharging the second valve body 60 are not limited to these conditions. In other embodiments, which are not shown in the figures, the second valve body is in the discharge state when the first valve body is in the non-conducting state, so that the turbid liquid in the first pipeline is discharged through the second valve body.

The discharge conditions for discharging the second valve body 60 are not limited to these conditions. In other embodiments not shown in the drawings, when the pressure of the turbid liquid in the second valve body is greater than or equal to the preset pressure value, the second valve body is in a discharging state, so that the turbid liquid in the first pipeline is discharged through the second valve body.

In this example, the turbid solution is water starch; of course, a water-oil mixture, a sauce with good fluidity, or the like may be used.

As shown in fig. 1, the first valve body 50 is located between the second valve body 60 and the magazine 10. When the second valve body 60 is in the discharging state, the second valve body 60 is located at an upstream position of the first valve body 50. Thus, when the first valve body 50 is in the non-conducting state, the above-mentioned positional relationship of the first valve body 50 and the second valve body 60 ensures that the turbid liquid can flow into the second valve body 60 to be discharged through the second valve body 60, thereby improving the discharging reliability of the anti-settling system.

Specifically, when the anti-settling system is required to discharge, the first valve body 50 is operated to make the first valve body 50 in a non-conducting state, the first pipeline 30 is in a disconnected state, the pressure of the turbid liquid at the second valve body 60 is suddenly increased, and when the pressure of the turbid liquid is increased to be greater than or equal to a preset pressure value, the second valve body 60 is in a discharging state, so that the turbid liquid is discharged through the second valve body 60 for cooking.

In this embodiment, the anti-settling system further comprises a control module. The control module is connected with the first valve body 50 for controlling the working state of the first valve body 50. When the control module controls the first valve body 50 to be in a conducting state, the first pipeline 30 is in a communicating state. When the control module controls the first valve body 50 to be in the non-conducting state, the first pipeline 30 is in the disconnected state. When the pressure of the turbid liquid in the second valve body 60 is greater than or equal to the preset pressure value, the turbid liquid pushes the valve core of the second valve body 60 to move in a direction away from the discharge port, so that the turbid liquid is discharged through the discharge port, and the second valve body 60 is in a discharge state. Like this, above-mentioned setting makes the operation of user to first valve body 50 easier, simple and convenient, has reduced the operation degree of difficulty, has promoted user's use and has experienced.

Specifically, when the anti-settling system is not required to discharge, the control module controls the first valve body 50 to be in a conducting state, so that the first pipeline 30 is in a communicating state, and turbid liquid in the storage structure 10 circularly flows between the first liquid through port 11 and the second liquid through port 12 under the pumping action of the pump body structure 20, so as to avoid settling of the turbid liquid in the storage structure 10, the first pipeline 30, the second pipeline 40 and the pump body structure 20. When the anti-settling system is required to discharge, the control module controls the first valve body 50 to be in a non-conducting state, so that the first pipeline 30 is in a disconnected and connected state, the turbid liquid pressure at the second valve body 60 is suddenly increased, and when the turbid liquid pressure is increased to be greater than or equal to a preset pressure value, the second valve body 60 is in a discharging state, so that the turbid liquid is discharged through the second valve body 60 for cooking.

In this embodiment, the first valve body 50 is a pinch valve, the first pipeline 30 is a hose, and the control module controls the valve core of the pinch valve to move toward a direction close to the hose so as to squeeze the hose, so that the hose is in a disconnected state. The control module controls the valve core of the pinch valve to move towards the direction far away from the hose so as to enable the hose to be in a communication state. Thus, the arrangement enables the first valve body 50 to be simple in structure, easy to process and implement, and reduces the processing cost of the anti-precipitation system.

Specifically, the first liquid through port 11 is a liquid inlet, the second liquid through port 12 is a liquid outlet, and turbid liquid in the storage structure 10 enters the second pipeline 40 through the second liquid through port 12 under the suction action of the pump body structure 20, and enters the pump body structure 20 through the second pipeline 40. Then, the turbid liquid is discharged from the pump structure 20 into the first pipeline 30, and flows back into the storage structure 10 again through the first liquid through port 11, and the circulation is performed, so that the precipitation phenomenon in the precipitation prevention system is avoided. When the anti-settling system needs to discharge, the control module controls the valve core of the pinch valve to move towards the direction close to the hose so as to squeeze the hose, the hose is in a disconnected connection state, and the second valve body 60 is in a discharge state, so that turbid liquid is discharged through the second valve body 60. When the anti-settling system is not required to discharge materials, the control module controls the valve core of the pinch valve to move towards the direction far away from the hose, so that the hose is in a communicated state, and turbid liquid can flow back into the material storage structure 10 through the hose.

In this embodiment, the anti-settling system includes a communication component, the communication component is electrically connected with the control module, the communication component is used for receiving the control command of the external device and transmitting the control command to the control module, and the control module can control the second valve body 60 to discharge according to the control command. Like this, prevent that precipitation system and intelligent menu combine together, can carry out the ejection of compact according to the control command that intelligent menu sent, realize intelligent culinary art, promoted user and used experience.

In this embodiment, the anti-settling system includes an alarm component, the alarm component is connected to the control module, and when the discharging time of the second valve body 60 is greater than or equal to the preset time, the control module controls the alarm component to send out an alarm signal. Optionally, the alarm signal comprises a voice broadcast, a vibration, a light indication. Thus, if the discharging time of the second valve body 60 exceeds the preset time, the control module controls the alarm assembly to send an alarm signal to remind the user, so as to prevent the turbid liquid from precipitating in the material storage structure 10, the first pipeline 30, the second pipeline 40 and the pump body structure 20.

Alternatively, when the discharging time of the second valve body 60 exceeds the preset time, the second valve body 60 is controlled to perform the batch discharging.

Optionally, the preset time is less than or equal to 10 s. Like this, at the in-process that second valve body 60 carries out the ejection of compact, turbid liquid has not taken place to deposit in storage structure 10, first pipeline 30, second pipeline 40 and pump body structure 20, and pump body structure 20 just continues to carry out the pump sending to turbid liquid, avoids taking place turbid liquid to deposit in the anti-precipitation system, has promoted the operational reliability of anti-precipitation system.

Optionally, the first pipeline 30 is a pipeline structure, and the anti-settling system further comprises a stirring impeller. Wherein, impeller sets up in pipeline structure to be used for stirring the turbid liquid that flows in pipeline structure, prevent that turbid liquid from taking place the sediment. Like this, above-mentioned setting has further promoted the anti-sediment reliability of preventing the sediment system, avoids turbid liquid to take place to deposit and influences ejection of compact stability.

Optionally, the second pipeline 40 is a pipeline structure, and the anti-settling system further comprises a stirring impeller. Wherein, impeller sets up in pipeline structure to be used for stirring the turbid liquid that flows in pipeline structure, prevent that turbid liquid from taking place the sediment. Like this, above-mentioned setting has further promoted the anti-sediment reliability of preventing the sediment system, avoids turbid liquid to take place to deposit and influences ejection of compact stability.

Example two

The difference between the anti-precipitation system in the second embodiment and the first embodiment is that: the first conduit 30 and the anti-settling system are of different construction.

As shown in fig. 2, the second valve body 60 is connected to the control module, and the first pipeline 30 includes a main pipeline 31 and a branch pipeline 32. Wherein the first valve body 50 is arranged on the main line 31. The branch line 32 communicates with the main line 31, and the second valve body 60 is provided on the branch line 32. The anti-settling system further comprises a third valve body, and the third valve body is arranged on the branch pipeline 32 and connected with the control module so as to be used for controlling the on-off of the branch pipeline 32. Wherein when the first valve body 50 is in the on state, the control module controls the third valve body to place the branch line 32 in the off state. When the first valve body 50 is in the non-conducting state, the control module controls the third valve body and the second valve body 60 to place the branch pipe 32 in the communicating state and place the second valve body 60 in the discharging state. Thus, when dispensing is not required, the above arrangement ensures that the turbid liquid cannot enter the second valve body 60 through the branch line 32, preventing the turbid liquid from being discharged accidentally.

Specifically, when the anti-settling system does not need to discharge, the control module controls the first valve body 50 to be in a conducting state and controls the third valve body to be in a non-conducting state, so that the first pipeline 30 and the main pipeline 31 are in a communicating state, the branch pipeline 32 is in a non-communicating state, and turbid liquid in the material storage structure 10 circularly flows between the first liquid through port 11 and the second liquid through port 12 under the pumping action of the pump body structure 20, so that the sedimentation of the turbid liquid in the material storage structure 10, the first pipeline 30, the second pipeline 40 and the pump body structure 20 is avoided. When the anti-settling system needs to discharge, the control module controls the first valve body 50 to be in a non-conducting state and controls the third valve body to be in a conducting state, so that the first pipeline 30 is in a disconnected and connected state, the branch pipeline 32 is in a connected state, the turbid liquid pressure at the second valve body 60 is suddenly increased, and when the turbid liquid pressure is increased to be larger than or equal to a preset pressure value, the second valve body 60 is in a discharging state, so that the turbid liquid is discharged through the second valve body 60 and used for cooking.

EXAMPLE III

The anti-precipitation system in the third embodiment is different from the first embodiment in that: the first valve body 50 is different in structure.

As shown in fig. 3, the first valve body 50 is a first one-way valve, and the anti-settling system further includes a control module. Wherein, the control module is connected with the pump body structure 20, and when the control module controls the motor of the pump body structure 20 to rotate along the first direction, the first one-way valve is conducted, and the first pipeline 30 is in a communicating state. When the control module controls the motor of the pump body structure 20 to rotate in a second direction opposite to the first direction, the first one-way valve is not conducted, and the first pipeline 30 is in an unconnected state. Therefore, the working state of the first valve body 50 can be adjusted by only changing the rotation direction of the motor, so that the operation of the first valve body 50 by a user is easier and simpler, and the operation difficulty is reduced.

Specifically, when the motor of the pump body structure 20 rotates in a first direction, the flow of the turbid liquid in the anti-settling system is clockwise, and when the motor of the pump body structure 20 rotates in a second direction, the flow of the turbid liquid in the anti-settling system is counterclockwise. When the anti-settling system is not needed for discharging, the control module controls the motor of the pump body structure 20 to rotate along the first direction, the first one-way valve is switched on, so that the first pipeline 30 is in a communicated state, and turbid liquid in the storage structure 10 circularly flows between the first liquid through port 11 and the second liquid through port 12 under the pumping action of the pump body structure 20, so that the turbid liquid is prevented from settling in the storage structure 10, the first pipeline 30, the second pipeline 40 and the pump body structure 20. When the anti-settling system is required to discharge, the control module controls the motor of the pump structure 20 to rotate along the second direction, the first one-way valve is not conducted, so that the first pipeline 30 is in a disconnected and connected state, the turbid liquid pressure at the second valve body 60 is suddenly increased, and when the turbid liquid pressure is increased to be greater than or equal to a preset pressure value, the second valve body 60 is in a discharging state, so that the turbid liquid is discharged through the second valve body 60 for cooking.

Example four

The anti-settling system in example four differs from that in example three in that: the first conduit 30 and the anti-settling system are of different construction.

As shown in fig. 4, the second valve body 60 is a second check valve, and the first pipeline 30 includes a main pipeline 31 and a branch pipeline 32. Wherein the first valve body 50 is arranged on the main line 31. The branch pipe 32 communicates with the main pipe 31, and a second check valve is provided on the branch pipe 32. When the motor of the pump structure 20 rotates in the second direction, the turbid liquid in the branch pipe 32 pushes the valve element of the second check valve to move, so that the second check valve is turned on, and the turbid liquid is discharged through the second check valve. Thus, when the control module controls the motor of the pump structure 20 to rotate in the first direction, the pressure of the turbid liquid entering the branch pipeline 32 is lower than the pressure of the fluid conducting the second check valve, and the second check valve is in a non-conducting state, so that the discharge cannot be performed. When the control module controls the motor of the pump body structure 20 to rotate in the second direction, the turbid liquid in the branch pipeline 32 pushes the valve core of the second one-way valve to move, so that the second one-way valve is conducted, and the second one-way valve is in a discharging state.

In this embodiment, the anti-settling system further comprises a third valve body. Wherein the third valve body is arranged on the branch line 32; when the motor of the pump body structure 20 rotates in the first direction, the turbid liquid pressure in the branch pipeline 32 is adjusted through the third valve body, so that the turbid liquid pressure is smaller than or equal to the preset pressure value, and the second one-way valve is not conducted.

Specifically, when the anti-settling system does not need to discharge, the control module controls the first valve body 50 to be in a conducting state, so that the pressure of turbid liquid in the branch pipeline 32 is adjusted to be less than or equal to a preset pressure value through the third valve body, the second one-way valve is not in a conducting state, the branch pipeline 32 is in a disconnected and connected state, the first pipeline 30 and the main pipeline 31 are in a connected state, turbid liquid in the storage structure 10 circularly flows between the first liquid through port 11 and the second liquid through port 12 under the pumping action of the pump body structure 20, and settling of the turbid liquid in the storage structure 10, the first pipeline 30, the second pipeline 40 and the pump body structure 20 is avoided. When the anti-settling system is required to discharge, the control module controls the first valve body 50 to be in a non-conducting state and controls the third valve body to be in a conducting state (only conducting function is performed, and the turbid liquid pressure in the branch pipeline 32 is not adjusted), so that the first pipeline 30 is in a disconnected and connected state, the branch pipeline 32 is in a connected state, and the second one-way valve is conducting and in a discharging state, so that the turbid liquid is discharged through the second one-way valve for cooking.

From the above description, it can be seen that the above-mentioned embodiments of the present invention achieve the following technical effects:

the anti-precipitation system comprises a material storage structure, a pump body structure, a first valve body and a second valve body. When the anti-precipitation system is not needed for discharging, turbid liquid in the storage structure circularly flows between the first liquid through port and the second liquid through port under the pumping action of the pump body structure, so that the turbid liquid is prevented from precipitating in the storage structure, the first pipeline, the second pipeline and the pump body structure, and the problem that the taste of dishes is influenced by the fact that the starch in the prior art is easy to precipitate is solved. When the anti-settling system is required to discharge materials, the anti-settling system is operated, so that the first valve body is in a non-conduction state and/or the turbid liquid pressure in the second valve body is greater than or equal to a preset pressure value, and the second valve body is in a discharging state, so that the turbid liquid in the first pipeline is discharged through the second valve body.

It is obvious that the above described embodiments are only some of the embodiments of the present invention, and not all of them. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts shall belong to the protection scope of the present invention.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present application. As used herein, the singular is intended to include the plural unless the context clearly dictates otherwise, and it should be further understood that the terms "comprises" and/or "comprising," when used in this specification, specify the presence of features, steps, operations, devices, components, and/or combinations thereof.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the application described herein are capable of operation in sequences other than those illustrated or described herein.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (11)

1. An anti-settling system for a cooking system, comprising:

the storage structure (10) is provided with a storage cavity, a first liquid through port (11) and a second liquid through port (12), the storage cavity is used for storing turbid liquid, and the first liquid through port (11) and the second liquid through port (12) are both communicated with the storage cavity;

the pump body structure (20), the pump body structure (20) is communicated with the first liquid through opening (11) through a first pipeline (30), and the pump body structure (20) is communicated with the second liquid through opening (12) through a second pipeline (40);

the first valve body (50) is arranged on the first pipeline (30) and used for controlling the on-off of the first pipeline (30);

a second valve body (60), said second valve body (60) being arranged on said first line (30) for controlling the working condition of said anti-settling system; when the first valve body (50) is in a non-conducting state and/or the turbid liquid pressure in the second valve body (60) is greater than or equal to a preset pressure value, the second valve body (60) is in a discharging state, so that the turbid liquid in the first pipeline (30) is discharged through the second valve body (60).

2. Anti-sedimentation system according to claim 1, wherein the first valve body (50) is located between the second valve body (60) and the magazine structure (10); when the second valve body (60) is in the discharging state, the second valve body (60) is located at an upstream position of the first valve body (50).

3. The anti-settling system as claimed in claim 1, further comprising:

the control module is connected with the first valve body (50) and is used for controlling the working state of the first valve body (50); when the control module controls the first valve body (50) to be in a conducting state, the first pipeline (30) is in a communicating state; when the control module controls the first valve body (50) to be in a non-conduction state, the first pipeline (30) is in a disconnection and connection state;

when the pressure of turbid liquid in the second valve body (60) is greater than or equal to the preset pressure value, the turbid liquid pushes the valve core of the second valve body (60) to move towards the direction far away from the discharge hole, so that the turbid liquid is discharged from the discharge hole, and the second valve body (60) is in the discharge state.

4. Anti-sedimentation system according to claim 3, wherein the second valve body (60) is connected with the control module, the first conduit (30) comprising:

a main pipe (31), the first valve body (50) being arranged on the main pipe (31);

a branch pipe (32) communicating with the main pipe (31), the second valve body (60) being provided on the branch pipe (32); the anti-settling system further comprises:

the third valve body is arranged on the branch pipeline (32) and connected with the control module to control the on-off of the branch pipeline (32);

wherein when the first valve body (50) is in a conducting state, the control module controls the third valve body to enable the branch pipeline (32) to be in a disconnection and connection state; when the first valve body (50) is in the non-conduction state, the control module controls the third valve body and the second valve body (60) to enable the branch pipeline (32) to be in a communication state and enable the second valve body (60) to be in the discharging state.

5. The anti-sedimentation system according to claim 3, wherein the first valve body (50) is a pinch valve, the first pipeline (30) is a hose, and the control module controls a spool of the pinch valve to move in a direction to approach the hose to squeeze the hose to place the hose in a disconnected state; the control module controls the valve core of the pinch valve to move towards a direction away from the hose so as to enable the hose to be in a communication state.

6. The anti-settling system as defined in claim 1, wherein the first valve body (50) is a first one-way valve, the anti-settling system further comprising:

the control module is connected with the pump body structure (20), and when the control module controls the motor of the pump body structure (20) to rotate along a first direction, the first one-way valve is conducted, and the first pipeline (30) is in a communicated state; when the control module controls the motor of the pump body structure (20) to rotate along a second direction opposite to the first direction, the first one-way valve is not conducted, and the first pipeline (30) is in an unconnected state.

7. Anti-sedimentation system according to claim 6, wherein the second valve body (60) is a second one-way valve, the first conduit (30) comprising:

a main pipe (31), the first valve body (50) being arranged on the main pipe (31);

a branch pipe (32) communicating with the main pipe (31), the second check valve being provided on the branch pipe (32); when the motor of the pump body structure (20) rotates along the second direction, turbid liquid in the branch pipeline (32) pushes the valve core of the second one-way valve to move, so that the second one-way valve is conducted, and the turbid liquid is discharged through the second one-way valve.

8. The anti-settling system as claimed in claim 7, further comprising:

a third valve body provided on the branch pipe (32); when the motor of the pump body structure (20) rotates along the first direction, the turbid liquid pressure in the branch pipeline (32) is adjusted through the third valve body, so that the turbid liquid pressure is smaller than or equal to a preset pressure value, and the second one-way valve is not conducted.

9. The anti-sedimentation system according to claim 3, comprising a communication assembly electrically connected to the control module, the communication assembly being configured to receive a control command from an external device and transmit the control command to the control module, the control module being configured to control the second valve body (60) to discharge material according to the control command.

10. The anti-settling system as claimed in claim 3, comprising an alarm assembly connected to the control module, wherein the control module controls the alarm assembly to send an alarm signal when the discharge time of the second valve body (60) is greater than or equal to a preset time.

11. An anti-settling system as claimed in claim 3, wherein the first conduit (30) is a pipe structure, the anti-settling system further comprising:

the stirring impeller is arranged in the pipeline structure and used for stirring turbid liquid flowing in the pipeline structure to prevent the turbid liquid from precipitating.

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