CN216876083U - Arrange thick liquid valve gear, processing cup subassembly and food processor - Google Patents

Abstract

The utility model discloses a slurry discharge valve device, a processing cup assembly and a food processor, wherein the food processor is provided with a discharge port, and the slurry discharge valve device comprises: the valve seat is used for installing the pulp discharge valve device on the food processor; the discharge pipe assembly comprises a discharge pipe which is in butt joint with the discharge port, and the discharge pipe assembly is movably connected with the valve seat and can be pulled away from the valve seat; the extrusion mechanism is arranged on the valve seat and comprises a driving component and an extrusion piece, wherein the driving component drives the extrusion piece to perform linear motion so as to be close to and act on the outer part of the discharge pipe, so that the discharge pipe is closed or far away from the discharge pipe, and the discharge pipe is conducted. The slurry discharge valve device of the utility model ensures that the food processor is convenient to clean in the using process, and improves the food safety.

Description

Arrange thick liquid valve gear, processing cup subassembly and food processor

Technical Field

The utility model relates to the technical field of household electrical appliances, in particular to a slurry discharge valve device, a processing cup assembly applying the slurry discharge valve device and a food processor applying the processing cup assembly.

Background

Along with the improvement of quality of life, food processors such as broken wall machine, soybean milk machine are more and more popularized in people's life, and food processor can not only beat nut class edible material and be exquisite edible material, also can stir and can do different fruit and vegetable juice, can also boil out, multiple functions such as boiling tea, brings the facility for people's life.

Food processor can set up thick liquid valve gear usually and make this food processor possess arrange thick liquid function so that people's use, however among the correlation technique, food processor's row thick liquid valve gear is the case that the design stretched into in arranging the thick liquid pipeline usually, the break-make of arranging the thick liquid pipeline is controlled through the motion of case in arranging the thick liquid pipeline, such design, in long-term use, the pipeline of play thick liquid is because long-term through eating material liquid, lead to eating material to be detained in case department easily, the edible material of detaining goes mildy and rotten easily along with the lapse of time, thereby cause food safety risk to the food preparation of next time.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to provide a slurry discharge valve device, aiming at improving the safety performance of a food processor in the food manufacturing process.

In order to achieve the above object, the present invention provides a slurry discharge valve device for a food processor, the food processor having a discharge port, the slurry discharge valve device comprising:

the valve seat is used for installing the slurry discharge valve device on the food processor;

the discharge pipe assembly comprises a discharge pipe which is in butt joint with the discharge port, and the discharge pipe assembly is movably connected with the valve seat and can be drawn away from the valve seat; and

the extrusion mechanism is arranged on the valve seat and comprises a driving component and an extrusion piece, wherein the driving component drives the extrusion piece to perform linear motion so as to be close to and act on the outer part of the discharge pipe, so that the discharge pipe is closed or far away from the discharge pipe, and the discharge pipe is conducted.

According to the technical scheme, the extrusion mechanism is arranged in the slurry discharge valve device, the driving assembly in the extrusion mechanism drives the extrusion piece to directly act on the outer part of the discharge pipe in a linear motion mode, and the extrusion piece moves towards the discharge pipe under the action of the driving assembly to close the discharge pipe.

Optionally, the driving assembly includes a driving motor and a driving screw, the driving motor is fixedly connected to the valve seat, and the driving screw is fixedly connected to a motor shaft of the driving motor;

the extruded piece is formed with the thread groove, drive screw stretches into thread groove and screw-thread fit, the valve seat is formed with and extends to the guiding hole of discharge tube subassembly, under drive screw's drive, the extruded piece along the guiding hole linear sliding.

Optionally, a limiting member is further fixed to a motor shaft of the driving motor, a blocking portion is formed on the valve seat, when the extruding member moves to a position of closing the discharge pipe, the limiting member is blocked by one side of the blocking portion, and when the extruding member moves to a position of enabling the discharge pipe to be conducted, the limiting member is blocked by the other side of the blocking portion.

Optionally, arrange the material pipe subassembly and include the mount pad, arrange the material pipe install in the mount pad, the mount pad is seted up and is corresponded the clearance groove of extruded article, the extruded article with the cell wall cooperation centre gripping in clearance groove arrange the material pipe.

Optionally, the valve seat is formed with a mounting groove, and the mounting seat is slidably inserted into the mounting groove.

Optionally, a guide structure is formed between a groove wall of the mounting groove and an outer wall of the mounting seat.

Optionally, the guide structure includes a guide rail and a guide groove formed between a groove wall of the mounting groove and an outer wall of the mounting seat, the guide rail being inserted into the guide groove.

Optionally, a locking structure is further disposed between the valve seat and the mounting seat.

Optionally, the locking structure includes a locking assembly mounted on the mounting seat and a catching groove disposed on the valve seat, and the locking assembly and the catching groove are separately disposed.

Optionally, a position detecting structure is further disposed between the valve seat and the mounting seat.

Optionally, the discharge pipe and the mounting seat are detachably connected.

The utility model also provides a processing cup assembly comprising:

a cup body with a discharge port; and

the slurry discharge valve device is connected with the cup body, and the discharge pipe is communicated with the discharge port in a butt joint mode.

Optionally, the outer wall of the cup body is further connected with a mouth-piece communicated with the discharge port, and the discharge pipe is communicated with the mouth-piece in a sleeved mode.

The utility model also provides a food processor, which comprises a host machine and the processing cup assembly arranged on the host machine, wherein the processing cup assembly is the processing cup assembly, the host machine is provided with a driving piece, and the driving piece is in transmission connection with the processing executing piece.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a schematic cross-sectional view of a food processor according to an embodiment of the present invention;

FIG. 2 is an exploded schematic view of the structure of FIG. 1;

FIG. 3 is a schematic view of a portion of the structure of FIG. 1;

FIG. 4 is an exploded view of a portion of the structure of FIG. 1;

FIG. 5 is a schematic view of the discharge valve assembly of the food processor of FIG. 1;

FIG. 6 is an exploded view of the slurry discharge valve assembly of FIG. 5;

FIG. 7 is a schematic cross-sectional view of the slurry discharge valve assembly of FIG. 5 with the discharge conduit in a conducting state;

FIG. 8 is a schematic cross-sectional view of the slurry discharge valve assembly of FIG. 5 with the discharge conduit in a closed position;

FIG. 9 is a schematic view of the slurry discharge valve assembly of FIG. 7 with the discharge tube assembly removed;

FIG. 10 is a schematic top view of the structure of FIG. 9 with the drive motor removed and with the discharge conduit in a closed position;

FIG. 11 is a schematic top view of the structure of FIG. 9 with the drive motor removed and with the discharge conduit in a conducting state;

FIG. 12 is a schematic view, partly in section and in structural section, of the slurry discharge valve device of FIG. 7;

fig. 13 is a side view of the slurry discharge valve device of fig. 5.

The reference numbers illustrate:

reference numerals	Name (R)	Reference numerals	Name (R)
				9	Food processor	32	Inserting groove
8	Main unit	33	Sealing projection
				801	Control panel	40	Mounting seat
7	Driving member	41	Guide rail
				6	Water tank	42	Compressing member
5	Water pump assembly	421	Pressing inclined plane
				4	Processing cup assembly	43	Keep away empty groove
3	Cup body	50	Extrusion mechanism
				301	Discharge outlet	50a	Drive assembly
302	Interface tube	51	Driving motor
				2	Processing execution piece	52	Extrusion part
1	Slurry discharge valve device	521	Abutting part
				10	Valve seat	53	Drive screw
11	Mounting groove	54	Position limiting piece
				12	Guide groove	60	Locking structure
13	Mounting hole	61	Lock catch assembly
				14	Stop part	62	Push button
15	Guide hole	621	Driving ramp
				10a	First seat body	63	Bolt
10b	Second seat body	631	Guide slope
				20	Discharge tube assembly	64	Reset piece
30	Discharge pipe	C	Catching groove
				31	Joint part	70	Position detection structure
311	Base pipe	71	Detecting piece
				312	Sleeve pipe	72	Induction part

The implementation, functional features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

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

It should be noted that all directional indicators (such as upper, lower, left, right, front and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the movement situation, etc. in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in the present invention are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, "and/or" in the whole text includes three schemes, taking a and/or B as an example, including a technical scheme, and a technical scheme that a and B meet simultaneously; in addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

The utility model provides a food processor 9.

The food processor 9 can perform operations such as whipping, grinding, stirring and mixing, boiling and the like on food materials. In the actual use process, the food processor 9 can be, for example, a fruit juice extractor, a juicer, etc. on the market, which can be used for squeezing fruits and vegetables to obtain fruit and vegetable food material juice, or, for example, a wall breaking machine, a soymilk grinder, which can stir and grind food materials at high speed, and can further cook the crushed food materials to obtain cooked food and drink. That is, the food processor 9 of the present invention may or may not have a heating function.

Referring to fig. 1 to 4, in the embodiment of the present invention, the food processor 9 includes a main body 8, a processing cup assembly 4, and a water tank 6, in some scenarios, the food processor 9 is further configured with a slurry receiving cup, wherein, the main machine 8 comprises a machine shell and a driving part 7 arranged in the machine shell, the driving part 7 is a rotating motor, the water tank 6 is arranged in the machine shell, a water pump assembly 5 is further disposed in the housing of the main unit 8, and in an embodiment, the water tank 6 may be detachably connected to the housing in a manner such as but not limited to clipping, plugging and the like, in the solution shown in fig. 1 and 2, the food processor 9 is provided with a placing table on the machine shell, the water tank 6 is placed on the placing table, and a hook and slot structure is arranged between the machine shell and the water tank 6, after the water tank 6 is placed on the placing table, the hook is snapped into the card slot to achieve relative fixation of the water tank 6 and the host computer 8. And the water pump assembly 5 comprises a water pump, a water inlet pipe and a water outlet pipe, wherein the water inlet pipe and the water outlet pipe are connected with the water pump, the water inlet pipe is provided with a joint, the joint is fixed on the placing table, the water tank 6 is provided with a connector, and the joint is communicated with the connector in a butt joint mode after the water tank 6 is placed on the placing table. The processing cup assembly 4 comprises a cup body 3, a processing executive component 2 and a slurry discharge valve device 1, the end part of the water outlet pipe is connected with a nozzle, and the nozzle is used for spraying liquid required in the food processing or automatic cleaning process into the cup body 3. Wherein, processing cup subassembly 4 can be dismantled by host computer 8, perhaps processing cup subassembly 4 can be fixed in on the host computer 8, in a setting form, processing cup subassembly 4 can be set up on 8 upper portions of host computer, and processing executive 2 installs in the bottom of cup 3, and the rotating electrical machines in the host computer 8 carries out the transmission coupling in the below of processing cup subassembly 4 and the rotation axis of processing executive 2, and then drives processing executive 2 and eat the material in order to process at 3 internal rotations of cup. In other arrangement forms, the rotating motor of the main machine 8 is in transmission coupling with the rotating shaft of the processing executing part 2 at the upper part of the cup body 3, and then the processing executing part 2 extends into the cup body 3 from the upper part of the cup body 3 to drive the processing executing part 2 to rotate so as to process the food material. Wherein, processing executive component 2 can be the stirring sword, food processor 9 then can be broken wall machine or soybean milk machine, eat material in to cup 3 through the stirring sword and carry out abundant whipping in order to obtain exquisite edible material, processing executive component 2 also can be the puddler, it mixes to realize beating edible material and liquid in the cup 3 through the puddler, thereby obtain the fluid edible material, or carry out the function of kneading dough for example, processing executive component 2 can also be the mill, can grind the smashing and then obtain the thick liquid to eating the material in the cup 3 through the mill. Further, when the food processor 9 also has a heating function, the heating element may be mounted at the bottom of the cup body 3, or may be mounted at the side of the cup body 3, and the heating element may be, but is not limited to, a heating tube, a heating wire, a heating film, or an electromagnetic coil.

According to the food processor 9, the slurry discharging valve device 1 is arranged on the processing cup assembly 4, so that after the fluid food is manufactured, the fluid food can be conveniently discharged out of the cup body 3 through the slurry discharging valve device 1, and the fluid food can be discharged into a slurry receiving cup matched with the food processor 9 or a receiving container placed below the slurry discharging valve device 1 by a user. That is, the food processor 9 of this application can realize when making the drink through above structural design, has degree of automation higher, uses more convenient advantage.

In general, after the food processor 9 is used for a long time, the fluid food material is likely to be more and more retained in the slurry discharge valve device 1 due to incomplete cleaning, and the fluid food material retained in the slurry discharge valve device 1 is likely to deteriorate and mildew with the passage of time, and further the food safety risk is brought by the spoiled and mildewed dirt in the following food preparation process. Certainly, at this in-process, the user also can try to wash row thick liquid valve device 1, nevertheless its structural design of current row thick liquid valve device 1 has the defect, also leads to unable thorough cleaning, for this reason, this application has still provided a new row thick liquid valve device 1 for food processor 9 still has the washing convenience, uses the advantage that is difficult for hiding dirty and holding the dirt for a long time.

Referring to fig. 1 to 4 in combination, the food processor 9 has a discharge opening 301 on the cup body 3, and the cup body 3 is further connected with a mouthpiece 302 communicated with the discharge opening 301, wherein the mouthpiece 302 may be an integral structure with the cup body 3, for example, formed by integral casting, or the mouthpiece 302 and the cup body 3 may also be a separate structure, for example, the mouthpiece 302 and the cup body 3 are fixedly connected to the cup body 3 by welding or other fastening, screwing, or the like. The present application is a slurry discharge valve device 1 mounted on a cup body 3, in one embodiment, the slurry discharge valve device 1 includes a valve seat 10, a discharge pipe assembly 20 and a pressing mechanism 50, wherein the valve seat 10 is used for mounting the slurry discharge valve device 1 on the cup body 3, the discharge pipe assembly 20 includes a mounting seat 40 and a discharge pipe 30 mounted on the mounting seat 40, in one embodiment, the discharge pipe assembly 20 is movably connected with the valve seat 10 through the mounting seat 40 and can be drawn out from the valve seat 10, the pressing mechanism 50 is disposed on the valve seat 10, the pressing mechanism 50 acts on the outside of the discharge pipe 30 to switch the discharge pipe 30 between a natural conduction state or a forced closing state, of course, the discharge pipe assembly 20 and the valve seat 10 can also be fixedly connected without being disassembled under the cleaning of the non-destructive material, and the valve seat 10 and the cup body 3 are detachable manner, so that the whole slurry discharge valve device 1 can be disassembled for cleaning, to enhance the ease of cleaning, the discharge tube assembly 20 is preferably detachable from the valve seat 10, as will be described in further detail below.

On the basis that the discharge pipe assembly 20 can be detached from the valve seat 10, the technical scheme of the utility model is further designed into a mode that the discharge pipe 30 is in sleeved communication with the mouthpiece 302 in a butt joint mode, so that the mouthpiece 302 is formed at the discharge port 301 of the cup body 3 in the processing cup assembly 4, and the discharge pipe 30 in the slurry discharge valve device 1 is in sleeved fit with the mouthpiece 302 to realize the butt joint communication of two pipelines, therefore, effective radial sealing can be formed between the mouthpiece 302 and the discharge pipe 30, the sealing structure is firm, the leakage of fluid and food materials from the butt joint can be effectively avoided in the using process, the sealing performance is good, and as the slurry discharge valve device 1 and the cup body 3 are in butt-insert connection through the two pipelines, in the using process, the axes of the two pipelines are basically overlapped in the structural design process, the opposite insertion operation also has the advantage of convenient operation compared with the traditional formation of directly butting the nozzle of the discharge pipe 30 with the discharge opening 301.

In addition, according to the technical scheme, on one hand, the discharge pipe assembly 20 is movably connected with the valve seat 10 in the slurry discharge valve device 1, and the discharge pipe assembly 20 can be pulled away from the valve seat 10, so that when fluid food materials are attached to a flow channel of the slurry discharge valve device 1 in the long-term use process of the food processor 9, the discharge pipe assembly 20 can be independently cleaned by detaching the discharge pipe assembly 20, the cleaning is convenient, the risk of mildew and pathogenic bacteria caused by the food materials staying for a long time is avoided, and the food safety performance is improved. And on the other hand, the utility model discloses an extrusion mechanism 50 is used in arranging the break-make of expecting that pipe 30 is outside in order to control row to expect pipe 30, and can not stretch into through the case and arrange the control that switches on and close in expecting pipe 30 like traditional valve structure, has consequently avoided eating the condition that the material residue is detained on the case, only need arrange in the cleaning process arrange that pipe 30 wash can, it is comparatively convenient to wash, has also further promoted the sanitary safety nature in the food processor 9 use.

Referring to fig. 6 to 8, in an embodiment, the mounting seat 40 is formed with a pressing member 42 having a cylindrical structure, the discharge tube 30 includes a joint portion 31 in sleeve fit with the interface tube 302, the joint portion 31 is nested on the pressing member 42, when the discharge tube 30 and the interface tube 302 are in butt joint communication, and when the joint portion 31 is sleeved on the interface tube 302, the pressing member 42 radially cooperates with the interface tube 302 to clamp at least a portion of the joint portion 31. The pressing piece 42 of the present embodiment abuts against the outer wall surface of the joint portion 31, and realizes radial clamping on the outer wall and the inner wall of the joint portion 31 respectively in cooperation with the mouthpiece 302, thereby forming radial sealing, and the sealing structure is more reliable.

Further, a slot 32 is formed outside the joint part 31, and an end of the pressing piece 42 is caught in the slot 32. Specifically, the connector 31 of the present embodiment includes a base tube 311 and a sleeve 312 connected to the outside of the base tube 311, the sleeve 312 is L-shaped, and since the base tube 311 and the sleeve 312 cooperate to form the slot 32, the end of the pressing member 42 is directly snapped into the slot 32. So that the installation of the pressing member 42 is facilitated.

In order to further improve the sealing property after the interface tube 302 and the discharge tube 30 are butted, a sealing convex portion 33 is formed on the inner wall surface of the joint portion 31 contacting the interface tube 302. Wherein the sealing convex part 33 is formed into a sealing ring structure surrounding the inner wall surface of the joint part 31, and the sealing rings are arranged in plurality at intervals in the axial direction of the joint part 31, after the joint part 31 is butted to the mouthpiece 302, the annular sealing convex part 33 is elastically deformed to realize effective sealing extrusion, and further leakage at the position is effectively avoided. In the present embodiment, in the axial direction of the joint portion 31, the length of the overlapping region between the pressing member 42 and the sealing protrusion 33 is not less than 0.5 mm, and referring to fig. 12, the overlapping region between the pressing member 42 and the sealing protrusion 33 is defined as L, and then the length of L is not less than 0.5 mm.

It is understood that, in the embodiments provided above, the pressing member 42 is an integral structure with the mounting seat 40, and in other embodiments, the pressing member 42 and the mounting seat 40 may also be separate structures, that is, the pressing member 42 is a separate part, and the pressing member 42 is sleeved on the outside of the discharge tube 30 to radially press the discharge tube 30 against the mouthpiece 302. In the case that the pressing member 42 is separately provided, the installation manner of the above embodiment can be also adopted, and the same beneficial effects can also be produced, and the details are not described herein.

In an embodiment, please refer to fig. 5 and fig. 6 in combination, the valve seat 10 includes a first seat 10a and a second seat 10b, wherein the first seat 10a and the second seat 10b may be an integral structure, the first seat 10a and the second seat 10b may be formed by plastic injection molding or by integral casting using an alloy material, the first seat 10a is used for mounting and fixing the slurry discharge valve device 1 to the cup body 3, the second seat 10b is used for mounting the slurry discharge pipe assembly 20, specifically, mounting holes 13 may be provided on two opposite sides of the first seat 10a, and a connecting column is provided outside the cup body 3, and a connecting member such as a screw or a bolt of the first seat 10a passes through the mounting holes 13 to integrally lock the valve seat 10 to the outside of the cup body 3. It can be understood that, as for the connection mode of the valve seat 10 and the cup body 3, besides the screw connection mode exemplified above, the connection mode may also be a detachable connection mode without destroying a structure, such as a snap connection, an insertion connection, and the like, and may also be a connection mode, such as a welding mode, a riveting mode, and the like, which can be detached only by destroying a structure, and the application does not limit this.

The extruding mechanism 50 of the present invention is installed on the first seat 10a, in an embodiment, the extruding mechanism 50 may act on the outside of the discharging pipe 30 in a clamping manner to deform the discharging pipe 30 under pressure, so as to close the inner channel of the discharging pipe 30, and the discharging pipe 30 may be made of elastic material with deformation capability such as silica gel, rubber, etc., and when the clamping force of the extruding mechanism 50 is removed, the discharging pipe 30 may recover again according to its elastic deformation recovery capability, so as to conduct the inner channel thereof.

Specifically, the pressing mechanism 50 may include a driving assembly 50a mounted on the first base 10a and a pressing member 52 driven by the driving assembly 50a, and in one embodiment, the driving assembly 50a includes a driving source 51, wherein the driving source 51 may be a motor, an electromagnet, an air cylinder, or the like. The extrusion piece 52 is abutted against the outside of the discharge pipe 30 to extrude the discharge pipe 30 under the driving of the driving source 51, so as to realize the on-off operation of the discharge pipe 30, wherein the extrusion piece 52 is driven by the driving source 51 to do linear motion to be close to and act on the outside of the discharge pipe 30, so that the discharge pipe 30 is closed or far away from the discharge pipe 30, so that the discharge pipe 30 is conducted. In this embodiment, the driving assembly 50a includes a driving motor 51 and a driving screw 53, that is, the driving source 51 is a motor, the driving motor 51 is fixedly connected to the valve seat 10, and the driving screw 53 is fixedly connected to a motor shaft of the driving motor 51; the pressing member 52 is formed with a screw groove into which the driving screw 53 is inserted and screw-engaged, and the valve seat 10 is formed with a guide hole 15 extending to the discharge tube assembly 20, and the pressing member 52 is linearly slid along the guide hole 15 by the driving of the driving screw 53.

In order to realize that the pressing member 52 linearly moves to press the discharge pipe 30 to a proper position, the present invention further improves, specifically, referring to fig. 7 to 11, a limiting member 54 is further fixed on a motor shaft of the driving motor 51, a stopper 14 is formed on the valve seat 10, specifically on the first seat 10a, when the pressing member 52 moves to a position for closing the discharge pipe 30, the limiting member 54 is blocked by one side of the stopper 14, and when the pressing member 52 moves to a position for conducting the discharge pipe 30, the limiting member 54 is blocked by the other side of the stopper 14. Through the above arrangement, the stroke control of the extrusion piece 52 is more reliable and accurate, and intersects with the existing mode of arranging the position detection switch, and the scheme of the application is obviously lower in cost.

Further, in the case where the drive source 51 drives the pressing member 52 to make a linear movement, the present invention further forms the pressing slope 421 at the joint portion 31, and when the pressing member 52 presses the discharge tube 30 to close the discharge tube 30, the pressing member 52 contacts the pressing slope 421 and drives the joint portion 31 to move toward the mouthpiece 302, by the above arrangement, even in the case where the butt joint of the discharge tube 30 and the mouthpiece 302 is not particularly tight during use, the present invention can further move and press the discharge tube 30 against the mouthpiece 302 by the drive of the pressing member 52, so that the sealing performance is further improved.

Further, referring to fig. 7 and 8 in combination, in the present application, a top abutting portion 521 is further formed at an end portion of the extrusion member 52, the top abutting portion 521 has a circular arc extrusion surface, and a clearance groove 43 is further formed on the mounting seat 40, and in a use process, as shown in fig. 8, when the extrusion member 52 moves towards the discharge pipe 30 under the driving of the driving source 51, the top abutting portion 521 will finally insert a part of a pipe wall of the discharge pipe 30 into the clearance groove 43, so that the discharge pipe 30 is formed with a V-shape at a position corresponding to the clearance groove 43, thereby achieving effective clamping and closing of the discharge pipe 30 through cooperation between the groove wall of the clearance groove 43 and the top abutting portion 521, and ensuring that no leakage occurs in a closed state.

Specifically, for the specific implementation form that the discharge pipe assembly 20 can be drawn away from the valve seat 10, please refer to fig. 2, fig. 6 and fig. 13 in combination, in an embodiment, the valve seat 10 is formed with a mounting groove 11 on the second seat body 10b, and the mounting seat 40 is slidably inserted into the mounting groove 11. In the embodiment, the mounting seat 40 is a frame structure, and the shape of the cross-sectional opening of the mounting groove 11 is adapted to the shape of the outer contour of the mounting seat 40. That is, this embodiment realizes accomodating mount pad 40 with spacing through forming mounting groove 11 for mount pad 40 realizes the pull business turn over valve seat 10 through the mode slip along mounting groove 11, when dismantling the washing, and the operation is convenient. In this embodiment, the mounting groove 11 has an escape opening formed at the bottom of the second seat 10b and an insertion opening opened at the side of the second seat 10b, the mounting seat 40 is inserted into the mounting groove 11 from one side of the second seat 10b through the insertion opening, and the discharge pipe 30 partially protrudes downward from the escape opening. In the embodiment, the mounting groove 11 has three side openings, wherein the insertion openings located at two opposite sides of the second seat body 10b are in butt joint with the discharge opening 301, and then the mounting seat 40 can be directly in butt joint communication with the discharge opening 301 after being inserted from the insertion opening at the other side, and because the discharge pipe 30 can extend out from the avoiding opening, so that in the drawing process of the discharge pipe assembly 20, no interference phenomenon is generated on the discharge pipe 30, and the discharge pipe 30 can be designed to be arranged in a downward inclination manner, so that the discharge process is more convenient. Further, the food processor 9 of the present invention further includes a control panel 801, the control panel 801 is installed outside the cup body 3, in this embodiment, the slurry discharging valve device 1 is installed between the cup body 3 and the control panel 801, so that the whole structure is more compact and beautiful.

In other embodiments, the sliding connection between the mounting seat 40 and the valve seat 10 may be, besides the scheme of sliding the mounting seat 40 along the mounting groove 11, a matching manner of providing a guide rod and a sleeve between the mounting seat 40 and the valve seat 10, that is, providing a sleeve on the mounting seat 40, and providing a guide rod extending towards the discharge opening 301 on the valve seat 10, and sliding the sleeve along the guide rod to enable the discharge pipe assembly 20 to move towards the cup body 3 and enable the discharge pipe 30 to be butted with the discharge opening 301. Or a roller and rail structure may be further disposed between the mounting seat 40 and the valve seat 10, wherein the rail may be disposed on the valve seat 10, the roller is disposed on the mounting seat 40, the rail extends toward the discharge opening 301, and the roller slides along the rail to also achieve the above-mentioned butt joint process of the discharge pipe 30 and the discharge opening 301.

In view of the stability of the connection structure and the manufacturing cost, the present application preferably provides the mounting groove 11 on the valve seat 10, and the mounting seat 40 is inserted into the mounting groove 11 and slides along the mounting groove 11 to abut against the discharge opening 301, and on this basis, in order to further improve the accuracy of the abutment of the discharge pipe 30 and the discharge opening 301, in one embodiment, a guide structure is formed between the groove wall of the mounting groove 11 and the outer wall of the mounting seat 40. In practical applications, since the mounting seat 40 drives the entire discharge tube assembly 20 to be inserted into the valve seat 10 from the mounting groove 11, the notch of the mounting groove 11 is generally slightly larger than the outer contour of the entire discharge tube assembly 20 for convenience of operation. Therefore, this embodiment, through guide structure's setting, can further carry out attitude control to mount pad 40 when sliding along mounting groove 11, and then guarantee that row material pipe 30 is accurate when material outlet 301 docks, be difficult for appearing because the butt joint is inaccurate and appear leaking the phenomenon at row thick liquid in-process.

In one embodiment, the guide structure includes a guide rail 41 and a guide groove 12 formed between a groove wall of the mounting groove 11 and an outer wall of the mounting seat 40, and the guide rail 41 is inserted into the guide groove 12. The guide grooves 12 are formed on two opposite groove walls of the mounting groove 11, the convexly-arranged guide rails 41 are formed on two opposite outer side walls of the mounting seat 40, and the guide grooves 12 extend towards the material outlet 301, wherein the cross-sectional profile shapes of the guide rails 41 and the guide grooves 12 can be square, semicircular or dovetail-shaped, so that the guide rails 41 and the guide grooves 12 further limit the posture of the mounting seat 40 during the sliding process of the mounting seat 40 along the mounting groove 11, and the phenomenon that the mounting seat 40 is assembled with the mounting groove 11 to cause deviation when the material discharging pipe 30 is abutted to the material outlet 301 and cause leakage during material discharging can be avoided. It will be appreciated that in other embodiments, the guiding structure may also be a matching structure of the roller and the guiding groove 12, or a matching structure of the positioning pin and the guiding groove 12, which is not limited by the present application.

In order to facilitate cleaning, the utility model is designed in a mode that the discharge pipe assembly 20 can be integrally pulled away from the valve seat 10, after the discharge pipe assembly 20 is integrally pulled away from the valve seat 10, the discharge pipe 30 is further designed to be detachably connected with the mounting seat 40, specifically, in combination with the above contents, the connection between the discharge pipe 30 and the mounting seat 40 is a hollow structure with a plurality of opening structures, so that the discharge pipe 30 can be designed in a detachable connection mode of being fixedly clamped with the mounting seat 40, and in such a design, after the discharge pipe assembly 20 is pulled out, the discharge pipe 30 can be integrally pulled away from the opening for independent cleaning, and the cleaning is more thorough and cleaner.

Further, referring to fig. 3, 4 and 7, in order to ensure that the discharge pipe assembly 20 is in the abutting position with the discharge opening 301 during the process of reloading the discharge pipe assembly 20 into the valve seat 10 after the discharge pipe assembly 20 is cleaned, a position detecting structure 70 is further disposed between the discharge pipe assembly 20 and the valve seat 10. In some arrangements, the position detecting structure 70 includes a detecting member 71 and a sensing member 72, wherein the detecting member 71 is mounted on the valve seat 10, and the sensing member 72 is mounted on the mounting seat 40, the structure formed by the detecting member 71 and the sensing member 72 can be a hall switch, a photoelectric switch, or a micro switch, for example, in the hall switch, the detecting member 71 is a hall element disposed on the valve seat 10, and the sensing member 72 is a magnetic trigger element disposed on the mounting seat 40 and cooperating with the hall element, and the hall switch is disposed at a position where the discharge pipe 30 can just abut against the discharge opening 301 after the discharge pipe assembly 20 is pushed into the valve seat 10, and the slurry discharging operation can be performed after the discharge pipe assembly 20 is pushed into the valve seat 10 so that the discharge pipe assembly 20 abuts against the discharge opening 301, and the food processor 9 can vibrate during operation, in order to avoid the discharge pipe assembly 20 from slipping out of the valve seat 10 or loosening from the discharge port 301 due to the vibration of the food processor 9, so as to cause the leakage of the fluid food material, a locking structure 60 is further arranged between the valve seat 10 and the mounting seat 40. In one embodiment, the locking structure 60 includes a locking assembly 61 mounted on the mounting seat 40 and a catching groove C provided on the valve seat 10, and the locking assembly 61 is provided separately from the catching groove C. In the use, the position of setting for in pushing into mounting groove 11 with row material pipe subassembly 20, when making position detection structure 70 produce the detected signal, row material pipe 30 and bin outlet 301 butt joint are accomplished, hasp subassembly 61 card is gone into in catching groove C simultaneously, make row material pipe 30 and bin outlet 301 be difficult for appearing the pine phenomenon because the vibration takes off at food cooking machine 9 operation in-process, and simultaneously, the user can make its and catching groove C separation through operation hasp subassembly 61, can take out row material pipe subassembly 20 from disk seat 10 promptly, so use comparatively conveniently.

Specifically, hasp subassembly 61 includes button 62, bolt 63 and resets 64, mount pad 40 is provided with the installation cavity of uncovered setting, bolt 63 is mobile to be located the installation cavity, bolt 63 part by mount pad 40 stretch out with the cooperation of pegging graft of catching groove C, bolt 63 is located the part of installation cavity is provided with drive inclined plane 621, button 62 part stretches into in the installation cavity and with mount pad 40 swing joint, button 62 stretches into the part of installation cavity be formed with drive inclined plane 621 sliding contact's direction inclined plane 631, it provides the elastic force and orders about to reset 64 bolt 63 part stretches out mount pad 40. In this embodiment, the reset member 64 is a spring, one end of the spring abuts against the inner wall surface of the mounting cavity, the other end of the spring abuts against the pin 63, the spring naturally drives the pin 63 to partially extend out of the mounting seat 40, in the process of pushing the discharge tube assembly 20 into the mounting groove 11, the pin 63 will retract into the mounting cavity first due to being pressed by the wall surface of the mounting groove 11, and when the pin 63 reaches the position of the catching groove C, the pin 63 will move outward of the mounting seat 40 and further enter the catching groove C due to being driven by the elasticity of the spring, so that the discharge tube assembly 20 is firmly limited on the valve seat 10, and when the discharge tube assembly 20 needs to be pulled away, the user presses the button 62, so that the guiding inclined surface 631 on the button 62 presses the driving inclined surface 621 on the pin 63, the pin 63 is driven again to retract into the mounting seat 40, and further, the discharge tube assembly 20 can be pulled away from the valve seat 10 under the drawing action of the external force of the user, in this embodiment, since the restoring member 64 provides an elastic restoring force, the connection is firm during the use process, and the use is convenient.

It will be appreciated that in other embodiments of the locking structure 60, a magnetic connection may be provided between the valve seat 10 and the mounting seat 40, or the latch 63 may be directly fixed to the socket, which is not limited in this application.

The above description is only an alternative embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (14)

1. A arrange thick liquid valve gear for food processor, food processor has the bin outlet, its characterized in that arranges thick liquid valve gear and includes:

the valve seat is used for installing the slurry discharge valve device on the food processor;

the discharge pipe assembly comprises a discharge pipe which is in butt joint with the discharge port, and the discharge pipe assembly is movably connected with the valve seat and can be drawn away from the valve seat; and

the extrusion mechanism is arranged on the valve seat and comprises a driving component and an extrusion piece, wherein the driving component drives the extrusion piece to perform linear motion so as to be close to and act on the outer part of the discharge pipe, so that the discharge pipe is closed or far away from the discharge pipe, and the discharge pipe is conducted.

2. The mud valve apparatus as set forth in claim 1, wherein said drive assembly includes a drive motor and a drive screw, said drive motor being fixedly connected to said valve seat, said drive screw being fixedly connected to a motor shaft of said drive motor;

the extruded piece is formed with the thread groove, drive screw stretches into thread groove and screw-thread fit, the valve seat is formed with and extends to the guiding hole of discharge tube subassembly, under drive screw's drive, the extruded piece along the guiding hole linear sliding.

3. The slurry discharge valve device according to claim 2, wherein a stopper is further fixed to a motor shaft of said driving motor, and a stopper is formed on said valve seat, and said stopper is stopped by one side of said stopper when said pressing member moves to a position for closing said discharge pipe, and by the other side of said stopper when said pressing member moves to a position for making said discharge pipe conductive.

4. The slurry discharge valve assembly as recited in claim 1, wherein said discharge tube assembly includes a mounting base, said discharge tube being mounted to said mounting base, said mounting base defining a clearance groove corresponding to said extrusion, said extrusion and a wall of said clearance groove cooperating to retain said discharge tube.

5. The mud valve apparatus as claimed in claim 4, wherein said valve seat is formed with a mounting groove, said mounting seat being slidably inserted into said mounting groove.

6. The mud valve apparatus as claimed in claim 5, wherein a guide structure is formed between a wall of said mounting groove and an outer wall of said mounting seat.

7. The mud valve apparatus as set forth in claim 6, wherein said guide structure comprises a guide rail and a guide groove formed between a wall of said mounting groove and an outer wall of said mounting seat, said guide rail being inserted into said guide groove.

8. The mud valve apparatus as claimed in claim 4, wherein a locking structure is further provided between said valve seat and said mounting seat.

9. The mud valve apparatus as set forth in claim 8, wherein said locking structure includes a catch assembly mounted to said mounting seat and a catch groove provided on said valve seat, said catch assembly being separable from said catch groove.

10. The mud valve apparatus as set forth in claim 4, wherein a position sensing structure is further disposed between said valve seat and said mounting seat.

11. A slurry discharge valve apparatus as claimed in claim 4, wherein said discharge conduit is removably connected to said mounting block.

12. A processing cup assembly, comprising:

a cup body with a discharge port; and

a slurry discharge valve assembly as claimed in any one of claims 1 to 11, said slurry discharge valve assembly being connected to said cup body, said discharge conduit being in abutting communication with said discharge port.

13. A processing cup assembly as recited in claim 12, wherein a mouthpiece is attached to an outer wall of the cup body and is in communication with the drain port, the drain port being in sleeved communication with the mouthpiece.

14. A food processor, comprising a main machine and a processing cup assembly mounted on the main machine, wherein the processing cup assembly is the processing cup assembly according to claim 12 or 13, the processing cup assembly comprises a processing executing member, a driving member is arranged on the main machine, and the driving member is in transmission connection with the processing executing member.

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