CN216147902U - Food processor with liquid level measurement structure - Google Patents

Abstract

The application provides a food preparation machine with level measurement structure mainly relates to food processing technology field, and this food preparation machine is including the host computer subassembly of taking control module, the processing subassembly of taking the valve structure and connect thick liquid subassembly, through control module control valve structure arranges thick liquid or waste water extremely connect thick liquid subassembly, be equipped with on the host computer subassembly and connect the spacing subassembly of thick liquid subassembly complex, be equipped with the first contact point and the second contact point that link to each other with control module on the spacing subassembly, connect and be equipped with first detection contact and the second detection contact that the corresponding electrical property switched on the thick liquid subassembly, will through the fluid contact first detection contact and second detection contact electrical property switch on and form liquid level return circuit. The application provides a food preparation machine when the liquid level reaches and predetermines when high, can in time form the return circuit, sends control signal through control module, prevents that the liquid level from spilling over, improves the user and uses experience.

Description

Food processor with liquid level measurement structure

Technical Field

The application relates to a food processor with a liquid level measurement structure, in particular to the technical field of food processors.

Background

With the increasing living standard of people, a plurality of different types of food processing machines appear on the market, can realize the automatic pulping and cleaning functions, but are easy to overflow in the pulp discharging process.

The general process chamber of current broken wall machine that need not wash by hand and motor are fixed to be set up inside the host computer, the water tank with connect thick liquid subassembly to set up in the host computer both sides, adopt and connect the inside float that has magnet that sets up of thick liquid subassembly, corresponding position sets up magnetic control switch or tongue tube etc. switch components and parts through magnetic control in the host computer, along with connect the interior liquid level of thick liquid subassembly to rise, the drive is equipped with the float of magnet and also rises thereupon, when the liquid level reachs a take the altitude, can give a signal of control panel through magnetic control switch or tongue tube, the control panel tells consumer water level condition through audible and visual signal.

The liquid level detection function can be realized to this structure, but the structure is complicated, and is with high costs, and has the float to block and lead to measuring inaccurate problem.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a food processor with a liquid level measuring structure, which can realize a stable and accurate liquid level detection function and improve the use experience of a user.

The technical problem of the utility model is mainly solved by the following technical scheme:

the utility model provides a food preparation machine with level measurement structure, includes the host computer subassembly of taking control module, takes the processing subassembly of valve structure and connects the liquid container, through control module control valve structure arranges thick liquid or waste water extremely connect the liquid container, be equipped with on the host computer subassembly and connect the spacing subassembly of liquid container complex, be equipped with the first contact point and the second contact point that link to each other with control module on the spacing subassembly, connect and be equipped with first detection contact and the second detection contact that the corresponding electrical property switched on the liquid container, will through the fluid contact first detection contact and second detection contact electrical property switch on and form liquid level return circuit.

Furthermore, the first connecting contact point and the second connecting contact point are arranged at the upper end of the limiting component.

Furthermore, one end of the first connecting contact and one end of the second connecting contact are exposed outside the limiting assembly, and the other end of the first connecting contact and the other end of the second connecting contact are electrically connected with the host assembly control module through a circuit.

Furthermore, the liquid receiving container comprises a residual water box and/or a slurry receiving cup, and a first detection contact and a second detection contact which respectively correspond to the first connection contact and the second connection contact are arranged on the residual water box or the slurry receiving cup.

Further, a first detection contact and a second detection contact are arranged on the residual water box, the residual water box comprises a residual water box upper cover and a residual water box lower cover, and the first detection contact and the second detection contact are arranged on the residual water box lower cover;

or the slurry receiving cup is provided with a first detection contact and a second detection contact, and the first detection contact and the second detection contact are arranged on the side wall of the slurry receiving cup.

Furthermore, the first detection contact and the second detection contact are respectively in electric conduction with the first connection contact and the second connection contact in an abutting mode, when the liquid level height in the liquid receiving container simultaneously overflows the first detection contact and the second detection contact, the first detection contact is in electric conduction with the second detection contact through fluid contact, and a liquid level loop is formed.

Furthermore, a third detection contact and a third connection contact are correspondingly arranged on the liquid receiving container and the limiting assembly, the third detection contact is electrically connected with the first detection contact, and when the liquid receiving container is placed in place, the third detection contact and the first detection contact are respectively in butt electrical conduction with the third connection contact and the first connection contact to form a positioning loop.

Furthermore, the first detection contact and/or the third detection contact are provided in plurality, and at least one first detection contact and/or one third detection contact is not conducted with the second detection contact.

Further, a plurality of the first detection contacts and/or the third detection contacts are not in the same straight line with the second detection contacts.

Furthermore, the liquid receiving containers are provided with a plurality of positioning loops which respectively form different positioning loops with the limiting assemblies.

Compared with the prior art, the beneficial effect of this application is:

1. the application provides a food preparation machine with level measurement structure, the control module of its host computer subassembly can regulate and control the valve structure on the processing subassembly, through spacing subassembly with connect liquid container cooperation installation, ensures to connect liquid container position to place stably. And the spacing subassembly is last still to be provided with first connecting point and the second connecting point with control module electric connection simultaneously, after connecing the liquid container installation to target in place, install first detection contact and the second detection contact on connecing the liquid container and respectively with first connecting point and second connecting point butt, when connecing the liquid level height of thick liquid container inside to spill over first detection contact and second detection contact simultaneously, switch on through fluid contact electrical property between the two, make and connect and form the liquid level return circuit between liquid container and the spacing subassembly, and send the anti-overflow signal through control module, the thick liquid is arranged in the closing of control valve structure, remind the user to in time take out simultaneously, the anti-overflow failure phenomenon because of contact failure leads to has effectively been avoided.

2. The limiting assembly is in limiting assembly with the liquid receiving container, so that a connecting contact on the limiting assembly can be accurately aligned with a detection contact on the liquid receiving cavity, and the conditions of poor contact or no contact and the like are avoided; first connecting point and second connecting point set up in spacing subassembly upper end, and one end exposes in the outside of spacing subassembly, and the other end passes through the control module electric connection in circuit and the host computer subassembly, when connecing liquid to hold the chamber and not place, the detection return circuit is off-state, when connecing liquid to hold the chamber and place with spacing subassembly cooperation and target in place, the connecting point realizes with the detection contact butt that the electrical property switches on, be convenient for realize the liquid level return circuit after the liquid level rises on next step and switch on, can stabilize and accurate realization anti-overflow and detect, improve user's use and experience.

3. Connect the liquid container to include the surplus water box and/or connect the thick liquid cup, the surplus water box or connect the thick liquid cup when with spacing subassembly cooperation installation, set up first detection contact and second detection contact on the surplus water box or connect the thick liquid cup respectively with first connection contact and second connection contact point counterpoint butt, when the liquid level of the washing water of surplus water box or the thick liquid that connects the thick liquid cup rises to a take the altitude, switch on through the liquid level return circuit that forms and control module electrical property to this sends anti-overflow control signal.

4. The liquid receiving container and the limiting assembly are also correspondingly provided with a third detection contact and a third connecting contact, wherein the third detection contact is directly connected and conducted with the first detection contact, when the liquid receiving container is placed in place, the third detection contact and the first detection contact are respectively abutted and electrically conducted with the third connecting contact and the first connecting contact, so that a positioning loop communicated with the control module is formed, and whether the liquid receiving container and the limiting assembly are accurately installed in place or not can be confirmed before liquid drainage.

5. The first detection contact and/or the third detection contact are/is provided with a plurality of first detection contacts and/or a plurality of third detection contacts, and at least one first detection contact and/or one third detection contact are/is not conducted with the second detection contact, so that the combination of the positioning loop and the liquid level loop is realized, the positioning loop is firstly confirmed to be conducted firstly, then the conduction of the liquid level loop is realized according to the rise of the liquid level, and the stability and the accuracy of the anti-overflow detection are further ensured.

6. The first detection contact and/or the third detection contact are/is not in the same straight line with the second detection contact, so that the situations that the positions are not placed in place, the detection contacts and the connecting contacts are conducted in a staggered mode and the like are avoided, accurate alignment connection and conduction can be guaranteed, and a stable liquid level loop and/or a positioning loop are formed.

7. The liquid receiving containers are provided with a plurality of positioning loops which can form different positioning loops with the limiting assemblies respectively, and the control module can distinguish the types of the liquid receiving containers according to the different positioning loops.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained from the drawings without inventive effort.

FIG. 1 is an exploded view of a food processor with a liquid level measuring structure according to an embodiment of the present disclosure;

FIG. 2 is a schematic cross-sectional view of the food processor shown in one embodiment of the present application;

fig. 3 is a partially enlarged view of a liquid level measuring structure of the food processor according to an embodiment of the present application.

Icon:B-a liquid level measuring structure;

1-a host machine component, 2-a processing component, 3-a liquid receiving container, 4-a limiting component and 5-a water tank;

31-a first detection contact, 32-a second detection contact, 33-a third detection contact, 34-a residual water box and 35-a slurry receiving cup;

341-residual water box upper cover, 342-residual water box lower cover;

41-first connecting contact point, 42-second connecting contact point, 43-third connecting contact point, 44-limit upper cover and 45-limit lower cover.

Detailed Description

The terms "first," "second," "third," and the like are used for descriptive purposes only and not for purposes of indicating or implying relative importance, and do not denote any order or order.

Furthermore, the terms "horizontal", "vertical", "overhang" and the like do not imply that the components are required to be absolutely horizontal or overhang, but may be slightly inclined. For example, "horizontal" merely means that the direction is more horizontal than "vertical" and does not mean that the structure must be perfectly horizontal, but may be slightly inclined.

In the description of the present application, it should be noted that the terms "inside", "outside", "left", "right", "upper", "lower", and the like indicate orientations or positional relationships based on orientations or positional relationships shown in the drawings or orientations or positional relationships that are conventionally arranged when products of the application are used, and are used only for convenience in describing the application and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the application.

In the description of the present application, unless expressly stated or limited otherwise, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements.

The technical solution of the present application will be clearly and completely described below with reference to the accompanying drawings.

Please refer to fig. 1, which is an exploded view of a food processor with a liquid level measuring structure according to an embodiment of the present application. The utility model provides a food preparation machine with level measurement structure, includes host computer subassembly 1 of taking control module, host computer subassembly 1 is inside to be equipped with the processing subassembly 2 of taking the valve structure to and be located the liquid container 3 and the water tank 5 that connect of host computer subassembly 1 both sides respectively, can regulate and control the valve structure of processing subassembly 2 inside through the control module on the host computer subassembly 1, control from water tank 5 intaking and to arranging thick liquid container 3 discharge thick liquid or washing waste water.

Host computer subassembly 1 still is provided with spacing subassembly 4 with the junction that connects liquid container 3, connects liquid container 3 and carries out spacing cooperation with spacing subassembly 4, through spacing subassembly 4 fixed mounting on host computer subassembly 1.

The liquid receiving container 3 comprises a residual water box 34 and a slurry receiving cup 35, and the residual water box 34 and/or the slurry receiving cup 35 can be installed on the main machine component 1 in a matching way with the limiting component 4.

In an embodiment, the residual water box 34 is in limit fit with the limit component 4, so that the residual water box 34 is installed on the host component 1, the slurry receiving cup 35 is placed above the residual water box 34, and the slurry receiving cup 35 is positioned by the residual water box 34, so that the whole liquid receiving container 3 and the host component 1 are stably installed.

It is understood that the limiting component 4 can be installed to match with the slurry receiving cup 35 alone, or can be installed to match with the residual water box 34 and the slurry receiving cup 35 in a limiting way.

Please refer to fig. 2, which is a schematic cross-sectional view of a food processor with a liquid level measuring structure according to an embodiment of the present application. The limiting assembly 4 is provided with a first connecting contact point 41 and a second connecting contact point 42 which are electrically connected with the control module, the liquid receiving container 3 is provided with a first detection contact point 31 and a second detection contact point 32 which are electrically conducted with the first connecting contact point 41 and the second connecting contact point 42 correspondingly, the first detection contact point 31 and the second detection contact point 32 can be electrically conducted through mutual contact of fluids, so that a liquid level loop is formed, and a corresponding anti-overflow signal is fed back through the control module on the host assembly 1.

The first connecting contact point 41 and the second connecting contact point 42 are arranged at the upper end of the limiting component 4, one end of the first connecting contact point 41 and one end of the second connecting contact point 42 are exposed outside the limiting component 4, and the other end of the first connecting contact point 41 and the other end of the second connecting contact point 42 are electrically connected with the control module of the host component 1 through a circuit.

The second detection contact 31 and the second detection contact 32 are arranged on the residual water box 31 and/or the slurry cup 32, and when the liquid receiving container 3 and the limiting component 4 are installed in place, the first detection contact 31 and the second detection contact 32 which respectively correspond to the first connection contact 41 and the second connection contact 42 are arranged on the residual water box 31 or the slurry cup 32 and are in butt electrical conduction.

The residual water box 34 includes a residual water box upper cover 341 and a residual water box lower cover 342, the residual water box lower cover 342 is matched with the limit component 4 in advance, and the second detection contact 31 and the second detection contact 32 are arranged on the residual water box lower cover 342.

In an embodiment, the lower cover 342 of the residual water box protrudes upward to form a step surface, the step surface is installed in cooperation with the limiting component 4, the first detection contact 31 and the second detection contact 32 are arranged on the lower cover 342 of the residual water box in a penetrating manner, one end of the first detection contact is arranged on the inner side of the residual water box 34, the other end of the first detection contact is exposed out of the outer end surface of the lower cover of the residual water box, when the residual water box 34 and the limiting component 4 are installed in place, the end surface of the lower cover 342 of the residual water box is attached to the upper end surface of the limiting component 4, and the first detection contact 31 and the second detection contact 32 fixed on the lower cover 342 of the residual water box are electrically connected with the first connection contact 41 and the second connection contact 42 fixed on the limiting component 4 in a butting manner.

It is easy to think that the first detecting contact 31 and the second detecting contact 32 may also be disposed on the slurry receiving cup 35 in a penetrating manner, and the first detecting contact 31 and the second detecting contact 32 are electrically conducted with the first connecting contact 41 and the second connecting contact 42 by the corresponding abutting engagement of the side wall of the slurry receiving cup 35 and the limiting component 4.

In an embodiment, the host component 1 controls the module control valve structure to discharge the slurry or the waste water to the liquid receiving container 3, when the liquid level of the liquid receiving container 3 rises to a level that can simultaneously overflow the first detection contact 31 and the second detection contact 32, the first detection contact 31 and the second detection contact 32 are electrically conducted through fluid contact, so that the first detection contact 31 and the second detection contact 32 form a conducted liquid level loop through the first connection contact 41 and the second connection contact 42, and further the control module sends an anti-overflow signal according to the loop to stop discharging the slurry, and simultaneously sends a prompt to a user.

Please refer to fig. 3, which is an enlarged partial sectional view of a food processor with a liquid level measuring structure according to an embodiment of the present application. The liquid receiving container 3 and the limiting component 4 are correspondingly provided with a third detection contact 33 and a third connecting contact 43, the third detection contact 33 is directly electrically connected and conducted with the first detection contact 31, and when the liquid receiving container 3 and the limiting component 4 are installed in place, a positioning loop can be formed.

The limiting component 4 comprises a limiting upper cover 44 and a limiting lower cover 45, the first connecting contact point 41 and the third connecting contact point 43 are arranged on the limiting upper cover 44, one end of the first connecting contact point is exposed outside the limiting upper cover 44, and the other end of the first connecting contact point is electrically connected with the control module of the host component 1 through a circuit.

In an embodiment, the first detecting contact 31 and the third detecting contact 33 are disposed on the residual water tank lower cover 342 in a penetrating manner, upper ends of the first detecting contact 31 and the third detecting contact 33 are directly connected and conducted on an upper end surface of the residual water tank lower cover 342, lower ends of the first detecting contact 31 and the third detecting contact 33 are exposed on a lower end surface of the residual water tank lower cover 342, when the residual water tank 34 and the limiting component 4 are matched in place, the first detecting contact 31 and the third detecting contact 33 are electrically conducted by abutting against the first connecting contact 41 and the third connecting contact 43 to form a positioning loop, and the control module further sends out an in-place installation signal according to the positioning loop signal.

Similarly, the first detection contact 31 and the third detection contact 33 may be provided on the slurry receiving cup 35, and a positioning circuit may be formed by abutting the stopper unit 4, thereby ensuring accurate mounting positions.

The liquid receiving container 3 is provided with a plurality of first detection contacts 31 and/or third detection contacts 33, at least one first detection contact 31 and/or third detection contact 33 is not conducted with the second detection contact 32, and the connecting points on the limiting component 4 correspond to the detection points one by one.

In one embodiment, the food processor can simultaneously satisfy the positioning loop and the liquid level loop, when the liquid receiving container 3 and the limiting component 4 are installed in place, the first detecting contact 31 and the third detecting contact 33 on the pulp receiving container 3 form the positioning loop by the first connecting contact 41 and the third connecting contact 43, and the position placement is confirmed to be correct; furthermore, at least one open circuit exists in which the first detection contact 31 and/or the third detection contact 33 are not in conduction with the second detection contact 32, and a liquid level loop can be formed only when the liquid level in the liquid receiving container 3 rises above the second detection contact 32 and the first detection contact 31 and/or the third detection contact 33 which are not connected with the second detection contact, so that the control module can send an anti-overflow signal.

Referring to fig. 1 to 3, a plurality of first detection contacts 31 and/or third detection contacts 33 are disposed on the liquid receiving container 3, but the first detection contacts 31 and/or the third detection contacts 33 are not in the same line with the second detection contacts 32, so that the same manner of forming a positioning loop by aligning the liquid receiving container 3 and the limiting component 4 is unique, and the situation of dislocation conduction when the liquid receiving container 3 is placed and matched is avoided.

The liquid receiving containers 3 are provided with a plurality of positioning loops which are respectively different from the limiting assemblies 4, and the control module on the main machine assembly 1 can determine that the placed pulp receiving containers 3 are specifically the residual water boxes 34 or the pulp receiving cups 35 or the like according to the formed positioning loops.

In one embodiment, the first detecting contact 31 and/or the third detecting contact 33 are irregularly distributed with the second detecting contact 32, and different first detecting contact 31 and/or third detecting contact 33 are respectively adopted to connect the residual water box 34 and the slurry receiving cup 35 to form a positioning loop which can be distinguished by the control module, so as to distinguish the types of the slurry receiving containers 3.

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

Claims (10)

1. The utility model provides a food preparation machine with level measurement structure, includes the host computer subassembly of taking control module, takes the processing subassembly of valve structure and connects the liquid container, through host computer subassembly control processing subassembly with thick liquid or waste water extremely connect the liquid container, its characterized in that, be equipped with on the host computer subassembly and connect the spacing subassembly of liquid container complex, be equipped with the first contact point and the second contact point that link to each other with control module on the spacing subassembly, connect and be equipped with first detection contact and the second detection contact that the corresponding electrical property switched on the liquid container, will through the fluid contact first detection contact and second detection contact electrical property switch on and form liquid level return circuit.

2. The food processor with a liquid level measuring structure as claimed in claim 1, wherein the first connecting contact point and the second connecting contact point are disposed at an upper end of the position limiting assembly.

3. The food processor with the liquid level measuring structure as claimed in claim 2, wherein one end of the first connecting contact and one end of the second connecting contact are exposed outside the limiting component, and the other end of the first connecting contact and the second connecting contact are electrically connected with the host component control module through a circuit.

4. The food processor with the liquid level measuring structure as claimed in claim 1, wherein the liquid receiving container comprises a residual water box and/or a slurry receiving cup, and a first detection contact and a second detection contact which respectively correspond to the first connection contact and the second connection contact are arranged on the residual water box or the slurry receiving cup.

5. The food processor with the liquid level measuring structure as claimed in claim 4, wherein the residual water box is provided with a first detection contact and a second detection contact, the residual water box comprises a residual water box upper cover and a residual water box lower cover, and the first detection contact and the second detection contact are arranged on the residual water box lower cover;

or the slurry receiving cup is provided with a first detection contact and a second detection contact, and the first detection contact and the second detection contact are arranged on the side wall of the slurry receiving cup.

6. The food processor with the liquid level measuring structure as claimed in claim 1, wherein the first detecting contact and the second detecting contact are electrically connected to the first connecting contact and the second connecting contact respectively, and when the liquid level in the liquid container simultaneously flows over the first detecting contact and the second detecting contact, the first detecting contact is electrically connected to the second detecting contact through fluid contact, so as to form a liquid level loop.

7. The food processor with the liquid level measuring structure as claimed in claim 1, wherein a third detecting contact and a third connecting contact are correspondingly disposed on the liquid receiving container and the limiting assembly, the third detecting contact is electrically connected to the first detecting contact, and when the liquid receiving container is placed in place, the third detecting contact and the first detecting contact are respectively abutted to the third connecting contact and the first connecting contact to be electrically conducted, so as to form a positioning loop.

8. A food processor with a level measuring arrangement according to claim 7, wherein a plurality of first and/or third detection contacts are provided, and at least one of the first and/or third detection contacts is not in contact with the second detection contact.

9. A food processor with a level measuring arrangement according to claim 8, wherein a plurality of the first and/or third detection contacts are all not in line with the second detection contact.

10. The food processor with the liquid level measuring structure as claimed in claim 7, wherein the liquid receiving container is provided with a plurality of liquid receiving containers, and different positioning loops are respectively formed with the limiting assemblies.

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