CN216020653U - Food processing machine with optimized slurry discharging structure - Google Patents

Abstract

The utility model relates to the field of food processing machines, and discloses a food processing machine with an optimized slurry discharging structure, which comprises a main machine and a processing cup assembly fixed on the main machine, wherein the main machine is provided with a slurry discharging valve and a slurry outlet nozzle, the processing cup assembly is provided with a slurry outlet, the slurry discharging valve comprises a valve plate for closing or opening the slurry outlet, and the valve plate and the slurry outlet nozzle are integrally manufactured. According to the food processor, no gap is reserved between the valve plate and the slurry outlet nozzle, so that a sealing structure between the slurry outlet nozzle and the valve plate can be omitted, the structure is simplified, the size of the slurry discharge valve is reduced, and the cost is saved.

Description

Food processing machine with optimized slurry discharging structure

Technical Field

The utility model relates to the field of food processing machines, in particular to a food processing machine with an optimized slurry discharging structure.

Background

The slurry discharge valve of the existing food processor is of an independent structure and is fixed in the machine body through an upper valve cover and a lower valve cover. This mounting firstly results in an increased space occupation and secondly there is a risk of slag build-up. In the prior art, a sheet valve is directly arranged on a host machine so as to reduce the risk of slag hiding. However, under the condition that the structure of the pulp outlet nozzle is separated from the structure of the valve plate, when the pulp discharging position is opened and closed and the residual water box is opened and closed, the pulp outlet nozzle and the valve plate move relatively, and when pulp enters the pulp outlet nozzle from the pulp discharging valve, a great risk of slag hiding exists in a gap between the valve plate and the pulp outlet nozzle and a gap between the valve plate and the lower cover of the valve. Under the condition of long-time use, the accumulated dregs are smelly and generate peculiar smell, bacteria are bred, and the use of a user is influenced.

Disclosure of Invention

In order to solve one or more technical problems in the prior art or at least provide a beneficial choice, the utility model provides a food processor with an optimized slurry discharge structure, a residue accumulation gap does not exist between a valve plate and a slurry outlet nozzle, the structure is simplified, the volume of a slurry discharge valve is reduced, and the cost is saved.

The utility model provides a food processor with an optimized slurry discharge structure, which comprises a host machine and a processing cup assembly fixed on the host machine, wherein the host machine is provided with a slurry discharge valve and a slurry outlet nozzle, the processing cup assembly is provided with a slurry outlet, the slurry discharge valve comprises a valve plate for closing or opening the slurry outlet, and the valve plate and the slurry outlet nozzle are integrally manufactured.

According to the food processor, due to the structure that the slurry outlet nozzle and the valve plate are integrally manufactured, the internal flow channel of the valve can be simplified, and during liquid drainage, slurry quickly passes through the slurry drainage valve and directly enters the slurry outlet nozzle. The slurry outlet nozzle moves along with the movement of the valve block, relative displacement does not exist between the slurry outlet nozzle and the slurry discharge valve structure in the opening and closing process, no gap is reserved for slag, a sealing structure between the slurry outlet nozzle and the valve block can be omitted, the structure is simplified, the size of the valve block is reduced, and the cost is saved. And difficult long-pending sediment between play thick liquid mouth and valve block, clean health can promote user's use and experience.

In an optimized implementation mode of food processing machine of a pulp discharging structure, a processing cup assembly is fixed with a sealing gasket, the sealing gasket is provided with a through hole corresponding to a liquid outlet, a valve block is provided with a pulp inlet and a waste inlet, a pulp discharging valve comprises a driving device, the driving device can drive the valve block to move on the surface of the sealing gasket so as to switch between a pulp discharging position, a waste discharging position and a sealing position, the pulp inlet is communicated with the liquid outlet through the through hole at the pulp discharging position, the waste inlet is communicated with the liquid outlet through the through hole at the waste discharging position, and the pulp inlet and the waste inlet are respectively communicated with an outlet of a pulp outlet.

The installation gap slag accumulation between the valve plate and the processing cup assembly can be avoided by arranging the sealing gasket. The valve block moves along the surface of the sealing gasket under the driving of the driving device, and the sealing gasket can seal a gap between the valve block and the liquid outlet, so that slurry is prevented from flowing along the surface of the valve block. Especially, the slurry residue can not be left below the liquid outlet when the slurry is about to enter the slurry discharging state. The cup only sets up a liquid outlet, is used for going out thick liquid and going out useless simultaneously, sets up the liquid outlet in the lower of processing cup subassembly, can guarantee thoroughly to arrange thick liquid, waste discharge. Meanwhile, different working states can be adjusted only through the pulp inlet and the waste inlet of the pulp discharge valve, and the structure is simplified.

In a preferred implementation mode of the food processor for optimizing the pulp discharging structure, the valve plate is a reciprocating translation plate, and the reciprocating direction of the valve plate is parallel to the connecting line direction of the pulp inlet and the waste inlet.

Compared with a rotating structure, the translation sheet structure has the advantages of low failure rate, high reliability, easiness in implementation and capability of being used for a long time. The translation piece reciprocates along the connecting line direction of the pulp inlet and the waste inlet, so that the moving stroke of the valve plate can be shortened, and the switching time of opening and closing the pulp discharge valve is shorter.

In a preferred implementation mode of the food processor with the optimized pulp discharging structure, the processing cup assembly comprises a cup body and a heating disc arranged below the cup body, and a liquid outlet is formed in the heating disc.

Set up the liquid outlet in the dish that generates heat, be favorable to discharging smoothly of thick liquid, avoid the thick liquid remaining in the processing intracavity. Because the lower part of the heating disc is relatively flat, the liquid outlet is arranged on the heating disc, so that the valve plate can be conveniently translated, and meanwhile, the valve plate can be conveniently installed.

In a preferred implementation mode of the food processor with the optimized pulp discharging structure, a flow guide cavity communicated with each other is arranged between the pulp inlet and the waste inlet of the valve plate.

Through setting up the water conservancy diversion chamber, switch on advancing the thick liquid mouth of valve block and advancing between the useless mouth to make thick liquid or waste water flow out from an export through the guide of water conservancy diversion chamber, liquid gets into when water conservancy diversion chamber and collides with cavity inner wall, and the velocity of flow slows down, can avoid liquid outflow process to splash, pollutes table surface.

In a preferred implementation mode of the food processor with the optimized pulp discharging structure, the waste inlet is communicated to the pulp inlet through the flow guide cavity, and the inlet of the pulp outlet nozzle is aligned to the pulp inlet.

In the discharging process of the cleaning water, the liquid inside the valve block flows in the same direction from the waste discharge port to the slurry discharge port, then enters the slurry outlet nozzle through the slurry outlet port, and finally is discharged into the residual water box, the cleaning water can completely clean the slurry discharge pipeline, so that the cleaning dead angle is prevented, particularly the slag accumulation at the slurry inlet port is prevented, and the slurry cannot be polluted in the slurry discharge process.

In a preferred implementation mode of the food processor with the optimized pulp discharging structure, the flow guide cavity is formed by surrounding the valve plate and a pipe wall below the valve plate, the bottom of the vertical section of the flow guide cavity and the plane of the valve plate form an included angle D1, and the included angle is more than 0 degrees and less than D1 and less than 90 degrees.

The slurry inlet is communicated with the waste inlet through the flow guide cavity, and the flow guide cavity is formed by the valve plate and the pipe wall below the valve plate in a surrounding manner under the condition that an included angle formed by the inner space of the flow guide cavity and the plane of the valve plate is smaller than 90 degrees, so that slurry discharge is facilitated; or when the inlet of the slurry outlet nozzle is aligned to the slurry inlet, the inner space of the flow guide cavity is smaller, and the included angle formed between the flow guide cavity and the plane where the valve plate is located is smaller, so that the whole flow guide cavity can be filled with cleaning water, the slurry inlet is flushed, and the sanitation of the slurry inlet is ensured.

In a preferred embodiment of the food processor with an optimized discharge structure, the aperture of the feed opening and/or the waste opening is H1, the aperture of the outlet of the guide chamber is H2, and H2 < H1.

Because the included angle formed by the diversion cavity and the plane of the valve plate is smaller, the inside of the pipeline can be filled with cleaning liquid when the pipeline is flushed by waste, so that the flushing effect is further improved.

In a preferred implementation mode of the food processor with the optimized pulp discharging structure, the food processor further comprises a residual water box and a pulp receiving cup, the pulp outlet nozzle is obliquely arranged along the vertical direction, and the oblique direction faces the pointing direction of the residual water box to the pulp receiving cup.

The slurry receiving cup and the residual water box are arranged to align the slurry inlet and the waste inlet respectively, so that the slurry receiving and the washing wastewater receiving are achieved respectively. The slurry outlet nozzle is obliquely arranged along the vertical direction, so that drainage is conveniently carried out in the direction of the slurry receiving cup and the residual water box, and the slurry is prevented from splashing.

In an optimized implementation mode of the food processor with the pulp discharging structure, the residual water box is arranged between the pulp receiving cup and the host, and the host is provided with an avoiding position for avoiding the pulp outlet so as to align the outlet of the pulp outlet with the residual water box.

The residual water box is arranged outside the host, so that the miniaturization of the host is realized, and the occupation of the radial position can be reduced. And the avoidance position for avoiding the slurry outlet nozzle is arranged, so that the interference between the slurry outlet nozzle and the host machine in the motion process is avoided.

Drawings

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

FIG. 1 is a schematic diagram of a food processor according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a heating plate and a slurry discharge valve in an embodiment of the utility model.

FIG. 3 is a first cross-sectional view of a food processor in accordance with an embodiment of the present invention.

FIG. 4 is an enlarged view of the portion A in FIG. 3

FIG. 5 is a second cross-sectional view of the food processor in accordance with an embodiment of the present invention.

FIG. 6 is an enlarged view of the portion B in FIG. 4

FIG. 7 is a third cross-sectional view of the food processor in accordance with an embodiment of the present invention.

Fig. 8 is an enlarged view at C in fig. 7.

Fig. 9 is a schematic structural diagram of a heating plate according to an embodiment of the utility model.

Fig. 10 is a schematic structural view of a gasket according to an embodiment of the present invention.

Description of reference numerals:

1. a host; 11. a valve lower cover; 111. an avoidance groove; 112. a first limiting part; 113. a second limiting part; 114. a valve spool; 115. a gear groove;

2. a cup body;

3. a heating plate; 31. a liquid outlet; 32. positioning ribs; 321. horizontal ribs; 322. erecting ribs; 323. an arc-shaped rib; 324. looping ribs;

4. a slurry discharge valve; 41. a drive device; 411. a motor; 412. a drive gear; 42. a valve plate; 421. a tooth socket; 422. a liquid inlet; 4221. a pulp inlet; 4222. a waste inlet; 423. a rib is protruded; 424. a flow guide cavity; 43. a gasket; 431. a through hole; 432. positioning a groove; 4321. a horizontal groove; 4322. a vertical slot; 4323. an arc-shaped slot; 4324. a ring groove; 433. sealing the ribs; 44. an in-place detection member; 45. a trigger;

5. a pulp outlet;

6. a pulp receiving cup;

7. a residual water box;

8. a water tank.

Detailed Description

In order to more clearly explain the overall concept of the present invention, the following detailed description is given by way of example in conjunction with the accompanying drawings.

It should be noted that in the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and thus the scope of the present invention is not limited by the specific embodiments disclosed below.

In addition, in the description of the present invention, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", etc., indicate orientations and positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; either directly or indirectly through intervening media, either internally or in any other relationship. However, the direct connection means that the two bodies are not connected through a transition structure, but connected through a connection structure to form a whole. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the present invention, unless otherwise expressly stated or limited, the first feature "on" or "under" the second feature may be directly contacting the first and second features or indirectly contacting the first and second features through an intermediate. In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The specific scheme is as follows:

the utility model provides a food processor with an optimized slurry discharge structure, as shown in fig. 1-4, in one embodiment, the food processor comprises a main machine 1, a processing cup assembly fixed on the main machine 1 and a water tank 8, the main machine 1 is provided with a slurry discharge valve 4 and a slurry outlet nozzle 5, the processing cup assembly is provided with a slurry outlet 31, the slurry discharge valve 4 comprises a valve plate 42 for closing or opening the slurry outlet 31, and the valve plate 42 and the slurry outlet nozzle 5 are integrally manufactured. The fixed connection mode of the slurry outlet nozzle 5 and the valve plate 42 preferably adopts an integral die-casting structure, generally aluminum die-casting is adopted, and the stability of the structure is high.

Of course, it will be understood by those skilled in the art that the valve plate 42 is generally made of metal or plastic POM, and the slurry outlet 5 is made of silicone, and it is preferable to fix the valve plate after the valve plate is separately produced. Can be through two shot forming or gluing structure as an organic whole, the stability of structure is higher. Or can be assembled together after being respectively molded, and is of a detachable structure. The mode of separately producing can simplify the production grinding apparatus, reduces the production degree of difficulty, improves manufacturability. Furthermore, in order to prevent the slurry or the cleaning wastewater from adhering to the slurry outlet 5 and thus contaminating the slurry outlet 5, non-stick coatings are sprayed on the surfaces of the slurry outlet 5 and the valve plate 42, which are in contact with the slurry, so that the slurry does not adhere to the surfaces of the slurry outlet 5 and the valve plate 42 during the flowing process.

Due to the structure that the slurry outlet nozzle 5 and the valve plate 42 are integrally made, the internal flow channel of the valve can be simplified, and during liquid drainage, slurry quickly passes through the slurry drainage valve 4 and directly enters the slurry outlet nozzle 5. Go out thick liquid mouth 5 and move along with the motion of valve block 42, do not have relative displacement between the in-process that opens and shuts play thick liquid mouth 5 and the commentaries on classics valve structure, do not have the gap and hide the sediment, can omit the seal structure between play thick liquid mouth 5 and the valve block 42, not only simplify the structure, reduce the volume of valve block 42, save the cost, clean health moreover can promote user's use and experience.

As shown in fig. 1-4, in one embodiment, the processing cup assembly is fixed with a gasket 43, and the gasket 43 is provided with a through hole 431 corresponding to the liquid outlet 31. The installation gap between the valve plate 42 and the processing cup assembly can be prevented from accumulating slag by arranging the sealing gasket 43. The valve plate 42 moves along the surface of the sealing gasket 43 under the driving of the driving device 41, and the sealing gasket 43 can seal the gap between the valve plate 42 and the liquid outlet 31 to prevent the slurry from flowing along the surface of the valve plate 42. Especially, the slurry residue is not remained below the liquid outlet 31 in the state of being discharged.

The sealing gasket 43 may be disposed on the processing cup assembly in an embedded manner, as shown in fig. 9-10, preferably, the heating plate 3 is provided with a mounting groove, the sealing gasket 43 is disposed in the mounting groove of the heating plate 3, and the valve plate 42 and the sealing gasket 43 are in an interference fit manner, so as to ensure the effectiveness of sealing. The positioning groove 432 and the positioning rib 32 are provided between the processing cup assembly and the sealing gasket 43.

The positioning structure formed by the positioning groove 432 and the positioning rib 32 can reliably fix the sealing gasket 43, and the sealing gasket 43 is prevented from moving. When the valve plate 43 moves relative to the gasket 43, the gasket 43 is subjected to a tangential force which tends to twist the gasket 43, causing the gasket 43 to distort and the seal to fail. The outer wall of the cup assembly can be firmly locked and processed with the sealing gasket 43 by arranging the positioning groove 432 and the positioning rib 32, so that the sealing gasket 43 always keeps a sealing state.

In one embodiment, as shown in fig. 10, the packing 43 includes a positioning groove 432, and the positioning groove 432 includes a horizontal groove 4321 along the moving direction of the valve sheet 43 and a vertical groove 4322 perpendicular to the moving direction of the valve sheet 43 on one side of the through-hole 431, and an arc-shaped groove 4323 surrounding the through-hole 431 on the other side of the through-hole 431.

The positioning groove 432 further includes a ring groove 4324 surrounding the through hole 431, which effectively ensures the sealing reliability at the position of the through hole 431 and prevents the slurry from spreading around along the through hole 431.

Accordingly, as shown in fig. 9, the positioning ribs 32 of the processing cup assembly include horizontal ribs 321, vertical ribs 322, arc-shaped ribs 323, and annular ribs 324.

Meanwhile, as shown in fig. 4, in order to ensure reliable sealing between the gasket 43 and the valve plate 42, a sealing rib 433 is provided on a surface of the sealing member contacting the valve plate 42, and the sealing rib 433 may be provided in plural numbers as a ring rib surrounding the through hole 431.

As shown in fig. 2-4, in one embodiment, the valve sheet 42 is provided with a liquid inlet 422, the liquid inlet 422 comprises a pulp inlet 4221 and a waste inlet 4222, the pulp discharge valve 4 comprises a driving device 41, the driving device 41 comprises a motor 411 and a driving gear 412 in transmission connection with the motor 411, the valve sheet 42 is provided with a matching surface matched with the driving gear 412, and the matching surface of the valve sheet 42 is provided with a tooth slot 421 connected with the driving gear 412, so as to form a gear rack structure for transmission. The driving device 41 can drive the valve plate 42 to move on the surface of the sealing gasket 43 in a rotating or translational mode so as to switch between a pulp discharging position, a waste discharging position and a sealing position, wherein the pulp inlet 4221 is communicated with the liquid outlet 31 through the through hole 431 at the pulp discharging position, the waste inlet 4222 is communicated with the liquid outlet 31 through the through hole 431 at the waste discharging position, and the pulp inlet 4221 and the waste inlet 4222 are respectively communicated with the outlet of the pulp outlet 5.

Cup 2 only sets up a liquid outlet 31, is used for going out thick liquid and going out useless simultaneously, sets up liquid outlet 31 in the lowest of processing cup subassembly, when guaranteeing to arrange thick liquid, the exhaust is thorough, advances starch mouthful 4221 and the useless mouthful 4222 adjustment different operating condition of advancing through arranging thick liquid valve 4 to discharge through play thick liquid mouth 5, simplify the structure.

As shown in fig. 2-4, in one embodiment, the valve plate 42 is a reciprocating translation plate, and the reciprocating direction of the valve plate 42 is parallel to the connecting line direction of the pulp inlet 4221 and the waste inlet 4222. The valve plate 42 is provided with a flat surface matched with the driving gear 412, the tooth grooves 421 are arranged on the flat surface so that the driving gear 412 can drive the valve plate 42 to move, and the reciprocating movement direction of the driving device 41 driving the valve plate 42 is parallel to the connecting line direction of the pulp inlet 4221 and the waste inlet 4222. As shown in the figure, the valve plate 42 is a square valve plate 42, and a pulp inlet 4221 and a waste inlet 4222 are respectively arranged along the length direction of the valve plate 42.

Compared with a rotating structure, the translation sheet structure has the advantages of low failure rate, high reliability, easiness in implementation and capability of being used for a long time. The translation piece reciprocates along the connecting line direction of the pulp inlet 4221 and the waste inlet 4222, so that the moving stroke of the valve plate 42 can be shortened, and the switching time of opening and closing the pulp discharge valve 4 is short. Meanwhile, the length of the valve plate 42 can be shortened, and the size of the slurry discharge valve 4 is further reduced.

As shown in fig. 1, in one embodiment, the processing cup assembly includes a cup body 2 and a heating plate 3 installed below the cup body 2, and the cup body 2 and the heating plate 3 surround to form a processing cavity. The liquid outlet 31 is arranged on the bottom wall of the heating plate 3. Set up liquid outlet 31 in heating plate 3, be favorable to the smooth discharge of thick liquid, avoid the thick liquid to remain in the processing intracavity. Because the lower part of the heating disc 3 is relatively flat, the liquid outlet 31 is arranged on the heating disc 3, so that the valve plate 42 can be conveniently translated, and meanwhile, the valve plate 42 can be conveniently installed.

As shown in fig. 2 to 8, in one embodiment, a diversion cavity 424 is provided between the pulp inlet 4221 and the waste inlet 4222 of the valve plate 42, which are communicated with each other.

Through setting up the water conservancy diversion chamber 424, lead to between the thick liquid mouth 4221 of valve block 42 and advancing useless mouthful 4222 to make thick liquid or waste water flow out from same export through the guide chamber 424 guide, the liquid velocity of flow is relatively slow in the water conservancy diversion chamber 424, avoids liquid outflow process to splash, pollutes table surface.

As shown in fig. 2-8, in one embodiment, the waste inlet 4222 is connected to the slurry inlet 4221 through the diversion chamber 424, and the inlet of the slurry outlet 5 is aligned with the slurry inlet 4221.

In the discharging process of the cleaning water, the liquid inside the valve plate 42 flows in the same direction from the waste discharge port to the slurry discharge port, then enters the slurry outlet nozzle 5 through the slurry outlet port, and finally is discharged into the residual water box 7, the cleaning water can completely clean the slurry discharge pipeline, so that the cleaning dead angle is prevented, particularly the residue accumulation at the slurry inlet 4221 is avoided, and the slurry cannot be polluted in the slurry discharge process.

As shown in fig. 2-8, in one embodiment, the diversion cavity 424 is formed by enclosing a valve plate 42 and a pipe wall below the valve plate 42, the pipe wall extends downward below the valve plate 42 to communicate with the slurry outlet 5, the lower end surface of the pipe wall is an inclined end surface along the horizontal direction, and an included angle D1 is formed between the bottom of the inclined end surface and the plane of the valve plate 42, that is, an included angle D1 is formed between the bottom of the vertical section of the diversion cavity 424 and the plane of the valve plate 42, and D1 is greater than 0 ° and less than 90 °.

Because the pulp inlet 4221 is communicated with the waste inlet 4222 through the diversion cavity 424, the diversion cavity 424 is formed by the valve plate 42 and the pipe wall below the valve plate 42 in a surrounding manner under the condition that the included angle formed by the inner space of the diversion cavity 424 and the plane of the valve plate 42 is less than 90 degrees, which is beneficial to pulp discharge; or when the inlet of the grout outlet 5 is aligned with the grout inlet 4221, the inner space of the flow guide cavity 424 is smaller, and the included angle formed between the flow guide cavity 424 and the plane of the valve plate 42 is smaller, so that the whole flow guide cavity 424 can be filled with cleaning water, the grout inlet 4221 is flushed, and the sanitation of the grout inlet 4221 is ensured.

As shown in fig. 8, in one embodiment, the caliber of the pulp inlet 4221 and/or the waste inlet 4222 is H1, the caliber of the outlet of the diversion cavity 424 is H2, and H2 < H1. Under the condition that the inlet of the pulp outlet nozzle 5 is aligned with the pulp inlet 4221, the caliber of the waste inlet 4222 is set to be H1, so that the caliber of the outlet of the diversion cavity 424 is smaller than the caliber of the waste inlet 4222, the inner space of the diversion cavity 424 is smaller, and an included angle formed between the diversion cavity 424 and the plane of the valve plate 42 is smaller. Therefore, the cleaning liquid is fully filled in the waste discharge flushing pipeline, the washing of the pulp inlet 4221 is formed, and the washing effect is further improved.

As shown in fig. 3-8, in one embodiment, the device further comprises a residual water box 7 and a slurry receiving cup 6, wherein the slurry outlet nozzle 5 is obliquely arranged along the vertical direction, and the oblique direction faces the pointing direction of the residual water box 7 to the slurry receiving cup 6.

The pulp receiving cup 6 and the residual water box 7 are respectively aligned with the pulp inlet 4221 and the waste inlet 4222, so that the pulp receiving and the washing waste water receiving are respectively received. The slurry outlet nozzle 5 is obliquely arranged along the vertical direction, so that drainage is conveniently carried out in the direction of the slurry receiving cup 6 and the residual water box 7, and the slurry is prevented from splashing.

As shown in fig. 2 to 8, in one embodiment, the residual water tank 7 is disposed between the slurry receiving cup 6 and the main body 1. The residual water tank 7 is arranged outside the main unit 1, so that the main unit 1 is miniaturized, and the radial position occupation can be reduced. And moreover, interference between the pulp outlet nozzle 5 and the host 1 in the motion process is avoided by arranging an avoiding position for avoiding the pulp outlet nozzle 5. The main machine 1 is provided with an avoiding position for avoiding the slurry outlet nozzle 5, wherein the main machine 1 is provided with a lower valve cover 11, and the heating plate 3 and the lower valve cover 11 are used for clamping the fixed valve plate 42. The valve lower cover 11 is provided with a valve slot 114 and a gear slot 115 for installing the fixed valve plate 42 and the driving gear 412 respectively, so as to prevent the fixed valve plate 42 and the driving gear 412 from moving in the using process. The lower end surface and the side surface of the valve plate 43 are in contact fit with the valve groove 114. The convex rib 423 is arranged on the matching end face of the valve plate 423, which is in contact with the valve groove 114, so that the linear contact matching is realized, and the friction force between the valve plate 42 and the valve lower cover 11 is reduced, so that the load of the motor 411 in the motion process is reduced, the power loss can be reduced, and the transmission efficiency is improved.

As shown in fig. 1-2, the lower valve cover 11 is provided with an avoiding groove 111, and the slurry outlet 5 penetrates through the avoiding groove 111, so that the outlet of the slurry outlet 5 is aligned with the residual water box 7. In one embodiment, the avoidance groove 111 has a first stopper 112 and a second stopper 113 formed at both ends thereof for stopping the discharge nozzle 5, and the baffle chamber 424 abuts against the first stopper 112 at the discharge position and the discharge nozzle 5 abuts against the second stopper 113 at the discharge position. Referring to fig. 3 to 4, when the valve plate 42 is in the pulp discharge state, the first limiting portion 112 contacts with the right sidewall of the flow guide cavity 424, the motor 411 blocks rotation, and the control of the right side, i.e., the pulp discharge position of the valve, is realized through the blocked rotation current. In combination with fig. 7-8, when the valve plate 42 is in the waste discharge state, the second limiting portion 113 contacts with the left sidewall of the pulp outlet 5, the motor 411 blocks rotation, and the control of the left side, i.e., the waste discharge position of the valve, is realized by blocking rotation current. Further, by arranging the trigger 45 on the valve plate 42 and the position detector 44 on the valve lower cover 11, as shown in fig. 5-6, when the plugging portion is located between the grout inlet 4221 and the waste inlet 4222, the valve is located at the sealing position of the sealing gasket 43, so that the accurate limit of the plugging portion is performed.

The technical solutions protected by the present invention are not limited to the above embodiments, and it should be noted that the combination of the technical solution of any one embodiment and the technical solution of one or more other embodiments is within the protection scope of the present invention. Although the utility model has been described in detail above with reference to a general description and specific examples, it will be apparent to one skilled in the art that modifications or improvements may be made thereto based on the utility model. Accordingly, such modifications and improvements are intended to be within the scope of the utility model as claimed.

Claims (10)

1. The utility model provides an optimize food preparation machine of thick liquid structure, includes the host computer and is fixed in the processing cup subassembly of host computer, the host computer is equipped with thick liquid valve of arranging and goes out thick liquid mouth, a serial communication port, processing cup subassembly is equipped with the liquid outlet, arrange thick liquid valve including sealing or opening the valve block of liquid outlet, the valve block with go out thick liquid mouth integral type and make.

2. The food processor with the optimized slurry discharging structure as claimed in claim 1, wherein the processing cup assembly is fixed with a sealing pad, the sealing pad is provided with a through hole corresponding to the slurry outlet, the valve plate is provided with a slurry inlet and a waste inlet, the slurry discharging valve comprises a driving device, the driving device can drive the valve plate to move on the surface of the sealing pad so as to switch between a slurry discharging position, a waste discharging position and a sealing position, the slurry inlet is communicated with the slurry outlet through the through hole at the slurry discharging position, the waste inlet is communicated with the slurry outlet through the through hole at the waste discharging position, and the slurry inlet and the waste inlet are respectively communicated with the outlet of the slurry outlet nozzle.

3. The food processor of claim 2, wherein the valve plate is a reciprocating translation plate, and the reciprocating direction of the valve plate is parallel to the direction of the connection line of the pulp inlet and the waste inlet.

4. The food processor of claim 2 or 3, wherein the processing cup assembly comprises a cup body and a heating plate arranged below the cup body, and the liquid outlet is arranged on the heating plate.

5. The food processor of claim 1, wherein a flow guide cavity is disposed between the slurry inlet and the waste inlet of the valve plate.

6. The food processor of claim 5, wherein the waste inlet is connected to the slurry inlet through the diversion chamber, and the inlet of the slurry outlet is aligned with the slurry inlet.

7. The food processor of claim 5 or 6, wherein the flow guide cavity is formed by surrounding the valve plate and a pipe wall below the valve plate, the bottom of the vertical section of the flow guide cavity forms an included angle D1 with the plane of the valve plate, and the included angle D1 is more than 0 degrees and less than 90 degrees.

8. The food processor of claim 7, wherein the size of the slurry inlet and/or the waste inlet is H1, the size of the outlet of the diversion chamber is H2, H2 < H1.

9. The food processor of claim 1, further comprising a residual water box and a slurry receiving cup, wherein the slurry outlet nozzle is arranged obliquely along a vertical direction, and the oblique direction faces the pointing direction of the residual water box to the slurry receiving cup.

10. The food processor of claim 9, wherein the residual water box is disposed between the slurry receiving cup and the main body, and the main body is provided with an avoiding position for avoiding the slurry outlet, so that the outlet of the slurry outlet is aligned with the residual water box.

Images