CN220675847U - Food processor - Google Patents

Abstract

The utility model discloses a food processor, which belongs to the field of food processing devices and solves the problem that high-temperature liquid is discharged to the outside of a liquid receiving cup to scald a user caused by placement and displacement of the liquid receiving cup. The utility model is mainly used for making soybean milk, fruit juice and the like, and can ensure that the liquid receiving cup can be accurately and stably positioned in the accommodating cavity after being placed, thereby ensuring that the liquid discharged by the crushing assembly is accurately received.

Description

Food processor

Technical Field

The utility model relates to a food processing device, in particular to a food processor.

Background

In the prior art, for example, a food processor disclosed in the patent application with publication number CN114711647a comprises a machine body, a motor arranged in the machine body, a cup body, a pulp receiving cup for containing food and a waste water box for collecting waste water, wherein the cup body is provided with a pulp discharging rotary valve for discharging food or waste water in the cup body into the pulp receiving cup or the waste water box, the pulp discharging rotary valve comprises a pulp discharging pipe, a valve core and a driving device for driving the valve core, the valve core is provided with a through hole, the through hole is communicated with the pulp discharging pipe and the cup body, the valve core drives the pulp discharging pipe to switch between the pulp receiving cup position and the waste water box position, the pulp discharging pipe reciprocates in a range limited between the pulp receiving cup position and the waste water box position to switch pulp discharging and waste water, the machine body comprises a machine base and a base, and the base is connected to the bottom of the machine base.

In the prior art, the motor can vibrate in the operation process of the food processor, so that the pulp receiving cup or the waste water box is shifted, and the pulp or the waste water cannot accurately enter the corresponding pulp receiving cup or the waste water box. In addition, the risks of fixed looseness of the machine base and the base caused by carrying and falling on the ground in the whole machine transportation process can also cause the placement and displacement of the slurry receiving cup or the waste water box. If the slurry or the wastewater can not be accurately discharged into the corresponding slurry receiving cup or the wastewater box, a large amount of cleaning workload of users is increased, trouble is brought to the users, and particularly unsafe risks such as scalding of the users by the high-temperature slurry can occur when the high-temperature slurry can not be discharged into the slurry receiving cup and is discharged to the outside.

Disclosure of Invention

The utility model aims to provide a food processor, which solves the problem that high-temperature liquid is discharged to the outside of a liquid receiving cup to scald a user due to the placement and displacement of the liquid receiving cup, and ensures that the liquid receiving cup can be accurately and stably limited in a containing cavity after being placed, thereby ensuring that the liquid discharged by a crushing assembly is accurately received.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the utility model provides a food processing machine, includes the organism and locates the crushing subassembly, flowing back subassembly, the liquid cup that connect of organism, crushing subassembly passes through flowing back subassembly to liquid cup flowing back that connects, and the flowing back subassembly includes the liquid mouth, and the organism includes frame and base, and the frame is equipped with the chamber of holding that holds that connects the liquid cup, holds the front side of chamber and open, and the base is connected in the bottom of frame, the base is equipped with spacing protruding muscle, and spacing protruding muscle passes the frame and the protrusion is in the bottom surface that holds the chamber, and spacing protruding muscle offsets with liquid cup that connects, will connect the liquid cup spacing in holding the chamber and be located liquid mouth below.

After the technical scheme is adopted, the utility model has the following advantages: the spacing protruding muscle offsets with the liquid receiving cup, can be with the accurate position of liquid receiving cup spacing in holding the intracavity, also can be in the use, effectively prevent to connect the liquid cup because the condition such as motor operation vibrations leads to liquid receiving cup vibrations to shift, ensure that liquid receiving cup is located the below of liquid outlet, let crushing assembly's liquid can accurately be discharged into liquid receiving cup, can avoid liquid to discharge to connect the outside clean work load that leads to the user to increase of liquid receiving cup, also can effectively avoid appearing high temperature liquid and discharge the problem that liquid receiving cup leads to the user to scald, improve the safety in utilization, simultaneously also can ensure to connect the liquid cup can be detected by normal, avoid unusual warning and cause the confusion that the user used. The base is provided with the limiting convex ribs which penetrate through the base and protrude out of the bottom surface of the accommodating cavity, so that the auxiliary positioning relation between the base and the base can be increased, the stability of the whole machine is enhanced, the risk of mutual loosening and shifting of the base and the base in the transportation process is reduced, and the situations of placing and shifting of the liquid receiving cup caused by loosening and shifting of the base are reduced.

Further, the spacing protruding muscle is including being close to the open first protruding muscle in chamber that holds, and the bottom front side of connecing the liquid cup supports in first protruding muscle spacing. The first protruding muscle is close to and holds the chamber and open, and the user will connect the liquid cup to place in holding the intracavity after, connects the bottom front side of liquid cup to support first protruding muscle, when connecing the liquid cup to have the trend of forward movement, first protruding muscle is to connecing the liquid cup and is exerted the reaction force, will connect the liquid cup spacing and can not shift forward in holding the intracavity.

Further, the rear side of connecing the liquid cup supports in the rear side wall that holds the chamber, when connecing the liquid cup to have the trend of backward movement, holds the rear side wall in chamber and applys the reaction force to connecing the liquid cup, provides stable support for connecing the liquid cup, will connecing the liquid cup spacing and can not shift backward in holding the intracavity, can cooperate with first protruding muscle simultaneously, makes connecing the liquid cup stable limit to be located and holds the intracavity, avoids motor operation vibrations etc. to lead to connecing the liquid cup to shift in holding the intracavity.

Or, spacing protruding muscle includes the protruding muscle of second, and the protruding muscle of second compares first protruding muscle and keeps away from the uncovered that holds the chamber, connects the bottom rear side of liquid cup to support in the protruding muscle of second. When the liquid receiving cup has a backward movement trend, the second convex rib applies a reaction force to the liquid receiving cup, so that the liquid receiving cup is limited in the accommodating cavity and cannot be shifted backward, and meanwhile, the liquid receiving cup is matched with the first convex rib, so that the liquid receiving cup is stably limited in the accommodating cavity.

Further, the height H1 of the bottom surface of the first protruding rib protruding accommodating cavity is not more than the distance H2 from the top end of the liquid receiving cup to the top surface of the accommodating cavity, and when the liquid receiving cup is taken out by a user, the bottom of the liquid receiving cup can be prevented from colliding or being blocked with the top end of the first protruding rib and the top end of the liquid receiving cup to the top surface of the accommodating cavity, so that the liquid receiving cup can be taken out conveniently.

Further, H1 is more than or equal to 1mm and less than or equal to 3mm. When H1 satisfies that H1 is less than or equal to 1mm and less than or equal to 3mm, the first convex rib can limit the liquid receiving cup in the accommodating cavity without shifting, and the liquid receiving cup is not prevented from being taken or placed, so that the liquid receiving cup is convenient for a user to use. If H1 is less than 1mm, the height of the first convex rib protruding out of the bottom surface of the accommodating cavity is small, and enough reaction force cannot be applied to the liquid receiving cup to prevent the liquid receiving cup from moving forwards, so that the situation that the liquid receiving cup slides over the first convex rib to be far away from the accommodating cavity may occur; if H1 > 3mm, when the user takes out and connects the liquid cup, need the user to lift up higher height with connecing the liquid cup, the operation is more laborious, connects liquid cup and first protruding muscle also to collide easily and lead to connecing the liquid cup to take off the hand, influences user's normal use experience.

Further, the bottom of connecing the liquid cup is equipped with downward convex brace table, and the front side of brace table supports spacing in spacing protruding muscle will connecing the liquid cup, and distance L between the front side of brace table to the front side of connecing the liquid cup is greater than spacing protruding muscle's width W, connects the liquid cup to cover spacing protruding muscle. The front side of the supporting table is propped against the limiting convex rib, the liquid receiving cup is accurately limited in the accommodating cavity, the liquid receiving cup is prevented from shifting, and the distance L between the front side of the supporting table and the front side of the liquid receiving cup is designed to be larger than the width W of the limiting convex rib, so that the liquid receiving cup covers the limiting convex rib, and the liquid receiving cup is more attractive.

Further, the bottom surface of the liquid receiving cup is provided with a limiting groove matched with the limiting convex rib. Through spacing protruding muscle and spacing recess cooperation, can realize more accurate spacing, will connect the liquid cup spacing in holding the intracavity, effectively avoid connecing the liquid cup not hard up or shift.

Further, the limiting convex ribs are in a straight shape, and the limiting convex ribs are transversely arranged relative to the accommodating cavity. The limiting convex ribs are designed into a straight shape and are transversely arranged relative to the accommodating cavity, so that the stress area of the limiting convex ribs is increased, the pressure intensity of the liquid receiving cup to the limiting convex ribs is reduced, and particularly, when the liquid receiving cup collides with the limiting convex ribs, the structural stability and the service life of the limiting convex ribs are improved, and the liquid receiving cup can be stably limited in the accommodating cavity for a long time.

Further, the base is provided with a fixing boss, and the limiting convex rib is arranged on the fixing boss and is provided with a reinforcing rib with the fixing boss. The fixed boss can provide firm stable basis, makes spacing protruding muscle connect more firm, and more stable spacing connects the liquid cup, and the strengthening rib has played the effect of supporting between spacing protruding muscle and fixed boss, increases spacing protruding muscle's intensity effectively, is favorable to improving spacing protruding muscle structural stability and life.

Further, the liquid receiving cup is a residual water box or a slurry receiving cup. When the liquid receiving cup is a residual water box, the residual water box is stably limited in the accommodating cavity and does not shake and shift, so that the residual water box can be effectively ensured to be correctly detected and identified, and resonance of the slurry receiving cup, liquid sprinkling or incapability of liquid entering the residual water box or the slurry receiving cup and the like caused by shaking of the residual water box can be avoided; when the liquid receiving cup is a pulp receiving cup, the pulp receiving cup can be limited in the containing cavity and positioned below the liquid outlet nozzle, so that liquid can be accurately connected into the pulp receiving cup without spilling the pulp receiving cup.

Drawings

The utility model is further described below with reference to the accompanying drawings:

FIG. 1 is a schematic view of a food processor in accordance with the present utility model;

FIG. 2 is a front view of a food processor in accordance with the present utility model;

FIG. 3 is a cross-sectional view of a food processor in accordance with the present utility model;

fig. 4 is an enlarged view of P in fig. 3;

FIG. 5 is an enlarged view of FIG. 3 at A;

FIG. 6 is a structural exploded view of a food processor of the present utility model;

FIG. 7 is a schematic view of a frame;

FIG. 8 is a front view of the housing;

FIG. 9 is a bottom view of the housing;

FIG. 10 is a schematic view of the structure of the base;

FIG. 11 is a schematic top view of the base;

FIG. 12 is a side view schematic of a base;

fig. 13 is an enlarged view at B in fig. 10.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments.

The terms "first," "second," and the like in the description and in the claims, if any, are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order, and do not necessarily indicate a "first" even if a "second" is used before a certain feature. It should be understood that in the present utility model, "including" and "having" and any variations thereof are intended to cover non-exclusive inclusion. It should be understood that in the present utility model, "plurality" means two or more. "and/or" is merely an association relationship describing an association object, meaning that three relationships may exist, for example, X and/or Y may represent: x alone, X and Y together, and Y alone. The character "/" generally indicates that the context-dependent object is an "or" relationship. "comprising X, Y and Z", "comprising X, Y, Z" means that all three of X, Y, Z comprise, "comprising X, Y or Z" means that one of the three comprises X, Y, Z, and "comprising X, Y and/or Z" means that any one or any two or three of the three comprise X, Y, Z.

The utility model provides a food processing machine, which comprises a machine body 1, a crushing assembly, a liquid discharging assembly and a liquid receiving cup, wherein the crushing assembly is arranged on the machine body 1, liquid is discharged to the liquid receiving cup through the liquid discharging assembly, the liquid discharging assembly comprises a liquid outlet nozzle 31, the machine body 1 comprises a machine seat 11 and a base 12, the machine seat is provided with a containing cavity 100 for containing the liquid receiving cup, the front side of the containing cavity is open, the base is connected to the bottom of the machine seat, the base is provided with a limiting convex rib 121, the limiting convex rib 121 penetrates through the machine seat and protrudes out of the bottom surface of the containing cavity, the limiting convex rib 121 abuts against the liquid receiving cup, and the liquid receiving cup is limited in the containing cavity and is positioned below the liquid outlet nozzle 31. The spacing protruding muscle 121 offsets with the liquid receiving cup, can be with the liquid receiving cup spacing in the exact position that holds the intracavity, also can be in the use, effectively prevent to connect the liquid cup because smashing the condition such as motor 21 operation vibrations and lead to liquid receiving cup vibrations aversion, ensure that liquid receiving cup is located the below of liquid outlet 31, let smashing the liquid of subassembly and can accurately discharge into liquid receiving cup, can avoid liquid discharge to the liquid receiving cup outside to lead to the user to increase extra clean work load, also can effectively avoid appearing high temperature liquid and discharge to connect the liquid cup and lead to the problem that the user scalds, improve the safety in utilization, also can ensure simultaneously that liquid receiving cup can be detected by normal, avoid unusual warning and lead to the confusion that the user used. The base is provided with the limiting convex rib 121 which penetrates through the base and protrudes out of the bottom surface of the accommodating cavity, so that the auxiliary positioning relation between the base and the base can be increased, the stability of the whole machine can be enhanced, the risk of mutual loosening and shifting of the base and the base in the transportation process can be reduced, and the situations of placing and shifting of the liquid receiving cup caused by loosening and shifting of the base can be reduced.

In particular to different models, the liquid receiving cup can be a residual water box or a slurry receiving cup, and the technical scheme of the utility model is described in detail by specific embodiments. The following specific embodiments may be combined with or replaced with each other according to actual situations, and the same or similar concepts or processes may not be described in detail in some embodiments.

Embodiment one:

in this embodiment, the receiving cup is a residual water box 41. As shown in fig. 1 to 3, a food processor comprises a machine body 1, a crushing assembly, a liquid discharging assembly, a residual water box 41 and a pulp receiving cup 42, wherein the crushing assembly comprises a crushing cup 2 and a crushing motor 21, a crushing cavity 200 is arranged in the crushing cup 2, a crushing cutter 22 is arranged in the crushing cavity 200, an output shaft of the crushing motor 21 stretches into the crushing cavity 200 to be connected with the crushing cutter 22, the pulp receiving cup 42 is placed on the front side of the residual water box 41, the liquid discharging assembly comprises a liquid discharging valve 3 and a liquid outlet nozzle 31, the liquid discharging valve 3 is fixed at the bottom of the crushing cup 2, the liquid outlet nozzle 31 can rotate and switch positions above the residual water box 41 and the pulp receiving cup 42, and the manufactured pulp is discharged into the pulp receiving cup 42, or the residual water for cleaning the crushing cavity 200 is discharged into the residual water box 41.

The machine body 1 comprises a machine seat 11 and a base 12, wherein the machine seat 11 is provided with a containing cavity 100 for containing the residual water box 41, the front side of the containing cavity 100 is open, the base 12 is connected to the bottom of the machine seat 11, the base 12 is provided with a limiting convex rib 121, the limiting convex rib 121 penetrates through the machine seat 11 and protrudes out of the bottom surface of the containing cavity 100, the limiting convex rib 121 abuts against the residual water box 41, and the residual water box 41 is limited in the containing cavity 100 and is located below the liquid outlet nozzle 31.

In this embodiment, spacing protruding muscle 121 offsets with surplus water box 41, can be with surplus water box 41 spacing in the accurate position that holds the intracavity 100, also can be in the use, effectively prevent surplus water box 41 because the circumstances such as smashing motor 21 operation vibrations lead to surplus water box 41 vibrations aversion, ensure surplus water box 41 to be located the below of liquid outlet 31, let smashing the liquid of subassembly can accurately be discharged into surplus water box 41, also can ensure simultaneously that surplus water box 41 can be detected by normal, avoid unusual warning and cause the confusion that the user used. Through being equipped with spacing protruding muscle 121 on the base 12 and passing frame 11 and protruding in the bottom surface that holds chamber 100, specifically, the position that frame 11 corresponds spacing protruding muscle 121 is equipped with the through-hole 111 that matches with spacing protruding muscle 121, and spacing protruding muscle 121 passes through-hole 111 can increase the auxiliary positioning relation of base 12 and frame 11 fixed connection, is favorable to strengthening the stability of complete machine, reduces the risk of base 12 and frame 11 mutual loose skew in the transportation, reduces the circumstances such as the surplus water box 41 that arouses because of frame 11 is loose and places the aversion.

To prevent the residual water box 41 from being moved forward loose, in one embodiment, the limiting ribs include a first rib adjacent to the opening of the accommodating cavity 100, and the front side of the bottom end of the residual water box 41 abuts against the first rib to limit. The first protruding rib is close to the opening of the accommodating cavity 100, after the user places the residual water box 41 in the accommodating cavity 100, the front side of the bottom end of the residual water box 41 props against the first protruding rib, when the residual water box 41 has a forward moving trend, the first protruding rib applies a reaction force to the residual water box 41, and the residual water box 41 is limited in the accommodating cavity 100 and cannot be moved forward.

In order to prevent the residual water box 41 from loosening and shifting backward, in one embodiment, the rear side of the residual water box 41 abuts against the rear side wall of the accommodating cavity 100, when the residual water box 41 has a tendency to move backward, the rear side wall of the accommodating cavity 100 applies a reaction force to the residual water box 41, so as to provide stable support for the residual water box 41, limit the residual water box 41 in the accommodating cavity 100 and prevent the residual water box 41 from shifting backward, and meanwhile, the residual water box 41 can be matched with the first convex rib, so that the residual water box 41 is stably limited in the accommodating cavity 100, and the residual water box 41 is prevented from shifting in the accommodating cavity 100 due to the conditions of running vibration of the crushing motor 21 and the like. In addition to utilizing the rear sidewall of the receiving chamber 100, in another embodiment, the spacing rib 121 includes a second rib that is spaced apart from the opening of the receiving chamber 100 as compared to the first rib, and the bottom end rear side of the water box 41 abuts against the second rib. When the residual water box 41 has a backward movement trend, the second convex rib applies a reaction force to the residual water box 41, so that the residual water box 41 is limited in the containing cavity 100 and cannot be shifted backward, and meanwhile, the residual water box 41 is matched with the first convex rib, so that the residual water box 41 is stably limited in the containing cavity 100.

In order to facilitate the removal of the waste water tank 41, as shown in fig. 4 to 5, in one embodiment, the height H1 of the first protruding rib protruding from the bottom surface of the accommodating cavity 100 does not exceed the distance H2 from the top end of the waste water tank 41 to the top surface of the accommodating cavity 100, and when the user removes the waste water tank 41, the bottom of the waste water tank 41 may be prevented from colliding with the top end of the first protruding rib, and the top end of the waste water tank 41 may be prevented from being caught with the top surface of the accommodating cavity 100, so that the waste water tank 41 may be removed.

Specifically, H1 is more than or equal to 1mm and less than or equal to 3mm. When H1 satisfies that H1 is less than or equal to 1mm and less than or equal to 3mm, such as 1mm, 2mm or 3mm, the first ribs can limit the residual water box 41 in the accommodating cavity 100 without displacement and prevent the residual water box 41 from being taken and placed, so that the use of a user is facilitated. If H1 is less than 1mm, the height of the first ribs protruding out of the bottom surface of the accommodating cavity 100 is small, and enough reaction force cannot be applied to the residual water box 41 to block the residual water box 41 from moving forward, so that the residual water box 41 may slide over the first ribs and be far away from the accommodating cavity 100; if H1 > 3mm, when the user takes out the residual water box 41, the user is required to lift the residual water box 41 to a higher height, the operation is laborious, the residual water box 41 and the first ribs are easy to collide, so that the residual water box 41 is out of hand, and the normal use experience of the user is affected.

In order to improve the aesthetic appearance, as shown in fig. 4, the spacing rib 121 is covered, in one embodiment, a supporting table 411 protruding downwards is provided at the bottom of the residual water box 41, the front side of the supporting table 411 abuts against the spacing rib 121 to limit the residual water box 41, the distance L between the front side of the supporting table 411 and the front side of the residual water box 41 is greater than the width W of the spacing rib 121, and the residual water box 41 covers the spacing rib 121. The front side of the supporting table 411 is propped against the limiting convex rib 121, so that the residual water box 41 is accurately limited in the accommodating cavity 100, the residual water box 41 is prevented from being shifted, and the distance L between the front side of the supporting table 411 and the front side surface of the residual water box 41 is designed to be larger than the width W of the limiting convex rib 121, so that the residual water box 41 covers the limiting convex rib 121, and the residual water box is more attractive.

In order to make the limiting effect of the limiting bead 121 better, in one embodiment, the limiting bead 121 is in a shape of a straight line, and the limiting bead 121 is disposed transversely to the accommodating cavity 100. The limiting convex ribs 121 are designed into a straight shape and are transversely arranged relative to the accommodating cavity 100, the stress area of the limiting convex ribs 121 is increased, the pressure intensity of the residual water box 41 to the limiting convex ribs 121 is reduced, and particularly when the residual water box 41 impacts the limiting convex ribs 121, the structural stability and the service life of the limiting convex ribs 121 are improved, so that the residual water box 41 can be stably limited in the accommodating cavity 100 for a long time.

In order to make the connection between the limiting bead 121 and the base 12 stronger, as shown in fig. 6 to 13, in one embodiment, the base 12 is provided with a fixing boss 122, and the limiting bead 121 is disposed on the fixing boss 122 and a reinforcing bead 123 is disposed between the limiting bead 121 and the fixing boss 122. The fixed boss 122 can provide firm stable basis, makes spacing protruding muscle 121 connect more firm, more stabilizes spacing surplus water box 41, and strengthening rib 123 has played the effect of supporting between spacing protruding muscle 121 and fixed boss 122, increases spacing protruding muscle 121's intensity effectively, is favorable to improving spacing protruding muscle 121 structural stability and life.

In order to fix the crushing assembly on the stand 11, as shown in fig. 7 to 8, in one embodiment, at least 4 bearing connection columns 112, for example, 4, 5 or 6 bearing connection columns 112, etc. may be disposed on the top of the stand 11, and the crushing assembly is fixedly mounted on the stand 11 by matching the screw with the bearing connection columns 112. However, the connection between the pulverizing assembly and the housing 11 is not limited thereto, and other connection methods may be adopted.

As shown in fig. 10, the crushing assembly is fixedly connected with the base 12 after being fixed on the base 11, and is arranged in the shell, and the shell is also locked and fixed with the base 12 to form the whole machine. In order to make the connection between the stand 11 and the base 12 more firm, in one embodiment, at least 4 positioning columns 113 may be disposed at the bottom of the stand 11, the base 12 is provided with an annular groove 124 matched with the positioning columns 113, the inner wall of the annular groove 124 is provided with a plurality of clamping positioning tables 1241, and the bottom ends of the positioning columns 113 are inserted into the annular groove 124 and abutted against the clamping positioning tables 1241.

In one embodiment, to detect whether the cartridge 41 is properly installed, the base 11 may be provided with a detecting device 114, and correspondingly, the cartridge 41 may be provided with a triggering member 412, and the triggering member 412 may trigger the detecting device 114 only after the cartridge 41 is placed in the accommodating cavity 100 to an accurate position. The detection device 114 may be a conventional hall element, a reed switch, or the like, and the triggering element 412 is a magnet.

Embodiment two:

in this embodiment, the bottom surface of the residual water box 41 may be designed as a plane, and the bottom surface of the residual water box 41 is provided with a limiting groove matched with the limiting rib 121. The bottom surface design of surplus water box 41 is the plane, and surplus water box 41 can laminate and place on base 12, through spacing protruding muscle 121 and spacing recess cooperation, can realize more accurate spacing, with surplus water box 41 spacing in holding chamber 100, effectively avoid surplus water box 41 not hard up or shift.

Other matters not described in this embodiment can refer to embodiment one.

Embodiment III:

in another model, the liquid receiving cup can be selected as the pulp receiving cup 42, and the pulp receiving cup 42 is limited in the containing cavity 100 and below the liquid outlet nozzle 31 by the limiting ribs 121, so that the liquid can be accurately connected into the pulp receiving cup without spilling the pulp receiving cup. The residual water box 41 can be hidden in the base 12 and positioned below the slurry receiving cup, after the slurry receiving cup 42 finishes slurry receiving, a user takes away the slurry receiving cup 42, and at the moment, the residual water can be discharged into the residual water box 41 after cleaning.

Other matters not described in this embodiment can refer to the above-described embodiments.

Embodiment four:

in another model, the receiving cup may be the residual water box 41 and the receiving cup 42, and in different time periods, for example, after the pulping is completed, the receiving cup 42 is placed in the accommodating cavity 100, the receiving cup 42 is limited in the accommodating cavity 100 by the limiting ribs 121 and is located below the liquid outlet nozzle 31, after the pulping is completed, the user takes away the receiving cup 42 and places the residual water box 41, and at this time, the residual water box 41 is limited in the accommodating cavity 100 by the limiting ribs 121 and is located below the liquid outlet nozzle 31, so as to be convenient for accurately receiving and cleaning residual water.

Other matters not described in this embodiment can refer to the above-described embodiments.

In addition to the preferred embodiments described above, other embodiments of the present utility model are also contemplated as falling within the scope of the claimed utility model, as well as all other embodiments that may be made by one of ordinary skill in the art without making any inventive effort based on the embodiments of the present utility model.

Claims (10)

1. The utility model provides a food processing machine, includes the organism and locates the crushing subassembly, flowing back subassembly, the liquid cup that connect of organism, crushing subassembly passes through flowing back subassembly and to the liquid cup flowing back that connects, and the flowing back subassembly includes the liquid mouth, and the organism includes frame and base, and the frame is equipped with the chamber of holding that holds the liquid cup that connects, holds the front side of chamber and open, and the base is connected in the bottom of frame, its characterized in that, the base is equipped with spacing protruding muscle, and spacing protruding muscle passes the frame and bulge in the bottom surface that holds the chamber, and spacing protruding muscle offsets with the liquid cup that connects will connect the liquid cup spacing in holding the chamber and be located liquid mouth below.

2. The food processor of claim 1 wherein the spacing rib comprises a first rib adjacent the open mouth of the receiving chamber, the front side of the bottom end of the liquid receiving cup being positioned against the first rib.

3. The food processor of claim 2 wherein the rear side of the liquid receiving cup abuts the rear side wall of the receiving chamber; or, spacing protruding muscle includes the protruding muscle of second, and the protruding muscle of second compares first protruding muscle and keeps away from the uncovered that holds the chamber, connects the bottom rear side of liquid cup to support in the protruding muscle of second.

4. The food processor of claim 2 wherein the height H1 of the first ridge protruding from the bottom surface of the receiving cavity does not exceed the distance H2 from the top end of the receiving cup to the top surface of the receiving cavity to facilitate removal of the receiving cup.

5. The food processor of claim 4 wherein H1 satisfies 1mm +.h1 +.3mm.

6. The food processor of claim 1, wherein the bottom of the liquid receiving cup is provided with a supporting table protruding downwards, the front side of the supporting table abuts against the limiting convex rib to limit the liquid receiving cup, the distance L between the front side of the supporting table and the front side of the liquid receiving cup is greater than the width W of the limiting convex rib, and the liquid receiving cup covers the limiting convex rib.

7. The food processor of claim 1, wherein the bottom surface of the liquid receiving cup is provided with a limit groove matched with the limit rib.

8. The food processor of claim 1, wherein the spacing ribs are in-line and are disposed transversely with respect to the receiving cavity.

9. The food processor of claim 1 or 8, wherein the base is provided with a fixing boss, and the limit ribs are arranged on the fixing boss and between the limit ribs and the fixing boss.

10. The food processor of claim 1, wherein the receiving cup is a waste water box or a receiving cup.