CN110115480B - Connect material cup subassembly and food processor - Google Patents

Abstract

The invention provides a receiving cup assembly and a food processor, wherein the receiving cup assembly is used for the food processor and comprises: the material receiving cup is detachably arranged on the main machine component corresponding to the outlet of the material discharging channel; the sealing piece comprises a mounting ring and a sealing lip edge, the mounting ring is detachably sleeved and mounted on the cup mouth end of the receiving cup, one end of the sealing lip edge is connected with the inner side wall of the mounting ring, and the other end of the sealing lip edge is separated from the mounting ring and obliquely extends from the inner side of the mounting ring to the outer side of the mounting ring from the direction far away from the discharging channel to the direction close to the discharging channel; when the receiving cup is installed on the main machine assembly and the food processing cup is vacuumized, the sealing lip edge can be sealed at the outlet of the discharge channel under the action of atmospheric pressure so as to enable the receiving cup to be communicated with the discharge channel in a sealing mode, and the installation ring and the sealing lip edge are of an integrated structure. The receiving cup can be arranged on the main machine assembly, and self-forming sealing of the sealing piece can be realized by utilizing atmospheric pressure, so that the sealing effect can be ensured, and the installation convenience of the receiving cup can be improved.

Description

Connect material cup subassembly and food processor

Technical Field

The invention relates to the field of household appliances, in particular to a receiving cup assembly and a food processor.

Background

At present, a juice extractor or a low-speed juice extractor product is provided with a residue receiving cup for receiving residues or a juice receiving cup for receiving juice, but at present, the residue receiving cup or the juice receiving cup of the juice extractor is arranged independently of the product, and when the juice is received and the residues are received, the juice receiving cup and the residue receiving cup are directly placed on a table top or a table top for receiving the juice and the residues. However, for food processors such as vacuum juice extractors and vacuum juicers, the juice extracting cup needs to be sealed, and thus the sealing connection between the juice outlet and the juice receiving cup and between the residue outlet and the residue discharging cup is required to be obtained, but at present, the residue receiving cup or the juice receiving cup is arranged as an independent host component, when the food processors are installed, a user needs to hold the residue receiving cup or the juice receiving cup by hand and then install the residue receiving cup or the juice receiving cup in a sealing manner at the juice outlet or the residue discharging outlet, generally, the sealing between the residue receiving cup or the juice receiving cup and the residue outlet or the juice outlet is realized through sealing silica gel, therefore, when the food processors are installed, the sealing silica gel needs to be compressed by large installation force to realize the sealing, and when the food processors are disassembled, the large force is needed to overcome the resistance of the silica gel, and therefore, the disassembly and the assembly of the residue receiving cup or the juice receiving cup are.

Therefore, how to design a new slag receiving cup or juice receiving cup which can be conveniently and laborsavingly installed and a food processor thereof becomes a problem to be solved at present.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art.

To this end, it is an object of the present invention to provide a receiving cup assembly.

Another object of the invention is to provide a food processor comprising the receiving cup assembly.

In order to achieve the above object, an embodiment of a first aspect of the present invention provides a material receiving cup assembly for a food processor, where the food processor includes a host assembly and a food processing cup capable of being mounted on the host assembly, the food processing cup is provided with a discharging channel, and the material receiving cup assembly includes: the receiving cup is detachably arranged on the host machine component corresponding to the outlet of the discharging channel; the sealing element comprises a mounting ring and a sealing lip, the mounting ring is detachably sleeved and mounted on the cup opening end of the receiving cup, one end of the sealing lip is connected with the inner side wall of the mounting ring, the other end of the sealing lip is separated from the mounting ring and obliquely extends from the inner side of the mounting ring to the outer side of the mounting ring from the direction away from the discharging channel to the direction close to the discharging channel; when the receiving cup is mounted on the main machine assembly corresponding to the discharging channel and the food processing cup is vacuumized, the sealing lip edge can be sealed at the outlet of the discharging channel under the action of atmospheric pressure so as to enable the receiving cup to be in sealed communication with the discharging channel, and the mounting ring and the sealing lip edge are of an integrated structure.

The receiving cup assembly provided by the embodiment of the invention is used for a food processor, and particularly is used for being connected with a discharge channel of a food processing cup to receive food juice or food residues discharged by the discharge channel. The receiving cup assembly comprises a receiving cup and a sealing piece which can be installed on the host machine assembly, the sealing piece comprises a mounting ring and a sealing lip edge, wherein the mounting ring can be installed on the cup opening end of the receiving cup to realize the installation of the sealing piece, one end of the sealing lip edge is connected with the inner side wall of the mounting ring, the other end of the sealing lip edge is separated from the mounting ring and extends to be attached to an outlet of the discharging channel from the inner side wall of the mounting ring to the outer side wall of the mounting ring in an inclined mode towards the direction of the discharging channel, and therefore the other end of the sealing lip edge can be arranged in an upward tilting mode from inside to outside, and a gap can be reserved between the mounting ring and the sealing lip edge to accommodate atmospheric pressure. Like this, will connect the material cup to correspond the export of discharging channel and install on the host computer subassembly, and the food is handled the cup and is vacuumized the back, the pressure of sealing lip limit inboard, the pressure that just can be less than the pressure of sealing lip limit outside in the food is handled the cup, atmospheric pressure promptly, the sealing lip limit just can be compressed tightly by atmospheric pressure under the effect of inside and outside pressure differential like this to realize automatically that connect the material cup and the sealed between the discharge gate. After the pressure of the food processing cup is released, the internal pressure and the external pressure of the sealing lip are the same, so that the automatic unsealing can be realized, and the receiving cup can be taken out conveniently. This kind of setting only needs to connect the material cup to correspond to install on the host computer subassembly, then can be through the inside and outside atmospheric pressure automatic pressure sealing lip limit of product to realize the sealing connection between material cup and the discharging channel. And at this installation and the in-process of taking out, do not need the user to carry out manual seal installation, do not need to be carelessly to connect the material cup seal installation at the discharge gate department promptly, consequently, do not need the user to use great power to compress tightly the sealing washer when the installation, also need not overcome the resistance of sealing member taking out the material cup, this kind of structure promptly, only need with connect the material cup install on the host computer subassembly according to non-sealed mounting means can, therefore make the installation of material cup with take out all very convenient laborsaving. Meanwhile, in the application, the compression of the sealing lip edge is realized by utilizing the atmospheric pressure, and the compression force of the sealing lip edge can be ensured so as to ensure the sealing effect.

In addition, the discharge channel on the food processing cup can be a juice outlet channel or a slag outlet channel, when the discharge channel is the juice outlet channel, the material receiving cup is a juice receiving cup, and when the discharge channel is the slag outlet channel, the material receiving cup is a slag receiving cup. The arrangement can install the receiving cup such as the juice receiving cup or the slag receiving cup on the host machine assembly corresponding to the juice outlet channel or the slag outlet channel, so that the receiving cup can be fixedly installed on the host machine assembly, and the receiving cup such as the juice receiving cup or the slag receiving cup can be integrally installed with the host machine assembly, so that the host machine assembly can be transported and stored together with the receiving cup such as the juice receiving cup or the slag receiving cup, and the receiving cup such as the juice receiving cup or the slag receiving cup does not need to be separately stored additionally, and meanwhile, the receiving cup such as the juice receiving cup or the slag receiving cup can be fixedly installed on the host machine assembly, namely, the host machine assembly provides a placing space for the receiving cup such as the juice receiving cup or the slag receiving cup, and the like, therefore, a user can think of directly returning the receiving cup such as the juice receiving cup or the slag receiving cup, and the like after using up, namely, the arrangement can play a role of reminding the user of automatically returning the receiving cup after using up, therefore, the receiving cups such as the juice receiving cup or the residue receiving cup can be prevented from being randomly placed, and the possibility of losing the receiving cups such as the juice receiving cup or the residue receiving cup can be reduced to a certain degree. In addition, this kind of setting, when juicing, owing to connect the juice cup or connect material cup such as sediment cup itself just to correspond the passageway of slagging tap or go out the juice passageway and correspond and install, therefore when juicing, just do not need the user additionally to go to connect the material cup or connect the sediment cup to correspond the passageway of slagging tap or place, therefore can reduce user's work load to a certain extent, improve user experience. Furthermore, for food processors such as vacuum juicers or vacuum juice extractors, the residue receiving cup or the juice receiving cup needs to be hermetically connected with the food processing cup, and the position of the residue receiving cup or the juice receiving cup can be accurately limited by directly installing the residue receiving cup or the juice receiving cup on the main machine component, so that on one hand, the sealed installation between the residue receiving cup or the juice receiving cup and the food processing cup is more convenient, and the installation convenience of the residue receiving cup or the juice receiving cup can be improved.

Wherein, the material receiving cup can be detachably installed on the host computer assembly corresponding to the outlet of the discharging channel, so that the material receiving cup can be taken down from the host computer assembly to conduct slag guiding or cleaning and the like. And the collar can be dismantled to the ground cover and establish and install on the rim of a cup end of connecing the material cup for the sealing member can be followed and connect the material cup and dismantle, thereby be convenient for the washing and the change of sealing member. The mounting ring and the sealing lip are preferably of an integrated structure, and the mechanical property of the integrated structure is good, so that the connection strength between the mounting ring and the sealing lip can be ensured, and in addition, the mounting ring and the sealing lip can be integrally manufactured and produced in batch, so that the production efficiency of products is improved, and the production and processing cost of the products is reduced. Of course, the mounting ring and the sealing lip edge can also be of a split structure, i.e., a detachable structure.

In addition, the receiving cup assembly provided according to the above embodiment of the present invention has the following additional technical features:

in the above technical solution, preferably, the thickness of the sealing lip in the axial direction of the receiving cup is T, wherein T is greater than or equal to 0.5mm and less than or equal to 2 mm.

In the technical scheme, the sealing lip edge can realize self sealing under the action of atmospheric pressure, the sealing part and the discharge channel are not required to be mounted in a sealing manner during mounting, so that the discharge channel and the sealing part have good sealing performance, and the thickness T of the sealing lip edge in the axial direction of the material receiving cup is preferably greater than or equal to 0.5mm and less than or equal to 2mm, so that the thickness of the sealing lip edge is moderate. Specifically, if the thickness of the sealing lip in the axial direction of the receiving cup is smaller than the value range, the sealing lip is too thin, so that the strength of the sealing lip is reduced, the service life of the sealing lip is also reduced, and the sealing performance between the sealing member and the discharge channel is not good enough. If the thickness of the sealing lip edge in the axial direction of the material receiving cup is larger than the value range, the thickness of the sealing lip edge is too thick, the compression effect is poor, materials are wasted, and the sealing effect is poor.

In any of the above solutions, preferably, the angle between the face of the sealing lip near the mounting ring and the axis of the mounting ring is α, wherein α is 5 ° or more and less than 90 °, or α is 45 ° or more and less than 90 °, or α is 60 ° or more and less than 85 °, or α is 75 ° or more and less than 80 °.

In these solutions, in order to ensure the sealing effect of the sealing lip, the included angle α between the sealing lip and the axis of the mounting ring should not be too large or too small, preferably, the included angle α between the sealing lip and the axis of the mounting ring may be greater than or equal to 5 ° and less than 90 °, further preferably, α may be greater than or equal to 45 ° and less than 90 °, or α may be greater than or equal to 60 ° and less than 85 °, further preferably, α is preferably greater than or equal to 60 ° and less than or equal to 85 °.

In any one of the above technical solutions, preferably, the cup rim of the receiving cup is provided with an outward bent flange, the inner side wall of the mounting ring is provided with an annular groove, and the mounting ring can be mounted on the flange in a covering manner through the annular groove.

In these technical schemes, through setting up the turn-ups of outwards buckling in the rim of a cup department that connects the material cup, set up the ring channel on the inside wall of collar, the collar can be installed on the turn-ups through the ring channel, and the mounting groove just agrees with the turn-ups, has increased and has connected reliability and leakproofness between material cup and the sealing member.

In any of the above technical solutions, preferably, one or more ribs spaced apart from each other are disposed on a side wall surface of the annular groove away from the sealing lip.

In these technical scheme, through on the side wall face of the sealing lip limit is kept away from to the principle on the ring channel, set up the protruding muscle on the lower surface of ring channel promptly for when installing the sealing member on the material receiving cup, can form the extrusion between material receiving cup and the protruding muscle, thereby make the turn-ups's of material receiving cup lower surface hug closely on the lower wall of ring channel, thereby can increase the installation reliability and the leakproofness between material receiving cup and the sealing member.

In any one of the above technical solutions, preferably, the rib is an annular rib disposed along a circumferential direction of the mounting ring.

In these technical scheme, set up protruding muscle into annular protruding muscle, when the sealing member of installation on the cup that connects, the a week that connects the cup can both take place extrusion deformation with protruding muscle to can follow installation reliability and leakproofness between each angle assurance connect the cup and the sealing member.

In any of the above technical solutions, preferably, the number of the ribs is 1 to 3.

In these technical scheme, can set up the quantity of protruding muscle to one to 3, both guaranteed the leakproofness between sealing member and the material cup like this, can prevent again that protruding muscle quantity is too much, and lead to the condition that the sealing member installation is difficult, the structure of sealing member is complicated and do not process well.

In any one of the above technical solutions, preferably, a side wall surface of the annular groove close to the sealing lip is disposed to be inclined to a side away from the sealing lip from an outer side of the mounting ring to an inner side of the mounting ring.

In the technical schemes, one side wall surface of the annular groove, which is close to the sealing lip edge, is inclined to one side far away from the sealing lip edge from the outer side of the mounting ring to the inner side of the mounting ring, namely the upper side wall surface of the annular groove is inclined downwards from the outside to the inside, so that the opening of the annular groove is smaller, the mounting ring and the flanging are in interference fit, and the mounting reliability and the sealing property between the mounting ring and the receiving cup are ensured by borrowing the opening.

In any of the above technical solutions, preferably, an included angle between a side wall surface of the annular groove close to the sealing lip and an axis of the mounting ring is β, where β is greater than or equal to 70 ° and less than or equal to 90 °.

In these solutions, the included angle β between one side wall surface of the sealing lip and the axis of the mounting ring should not be too large or too small, and preferably, the included angle β is greater than or equal to 70 ° and less than or equal to 90 °, such as 80 °. Specifically, if the value of the included angle β is smaller than the value range, the receiving cup and the sealing element are difficult to mount, and if the included angle β is larger than the value range, the upper side wall surface of the mounting ring cannot be tightly matched with the upper end surface of the flange.

In any of the above technical solutions, preferably, an inner end of a side wall surface of the annular groove close to the sealing lip is an arc-shaped surface extending from an outer side of the mounting ring to an inner side of the mounting ring to a side away from the sealing lip in an inclined manner.

In these technical scheme, when the sealing member is installed on the material receiving cup, the arc-shaped surface can further enable the upper side wall surface of the annular groove to be tightly matched with the upper surface of the flanging of the material receiving cup, so that the sealing performance between the upper side wall surface and the upper surface can be further improved.

In any of the above solutions, preferably, a groove is provided on a surface of the mounting ring close to the sealing lip.

Among these technical scheme, when connecting the discharge gate and connecing the material cup, the discharge gate can be to the orientation extrusion of the axis of sealing lip limit to connecing the material cup, leads to the collar to be close to the one side of sealing lip limit and can take place to pull the deformation, through setting up the recess, increases the area that the collar is close to the one side of sealing lip limit, increases the deformation scope of this one side, prevents this one side because pull the emergence fracture, increases the life of sealing member.

In any of the above technical solutions, preferably, the discharge channel includes a juice outlet channel, and the material receiving cup includes a juice receiving cup; and/or the discharge channel comprises a slag discharge channel, and the receiving cup comprises a receiving cup.

In these technical scheme, can will connect the juice cup to install on the host computer subassembly to the realization connects the juice also can will connect the sediment cup to install on the host computer subassembly, in order to realize connecing the sediment, of course, also can will connect the material cup and connect the sediment cup to all install on the host computer subassembly simultaneously.

An embodiment of a second aspect of the invention provides a food processor comprising: the host machine component is internally provided with a driving device; the food processing cup can be arranged on the main machine component, and a discharge channel is arranged on the food processing cup; the working screw is arranged in the food processing cup and can be in driving connection with the main machine component; any embodiment of the first aspect provides a receiving cup assembly, which is mounted to the host assembly corresponding to the discharge channel.

The food processor provided by the embodiment of the invention comprises a main machine assembly provided with a driving device, a food processing cup which is arranged on the main machine assembly and is provided with a discharge channel, and a working screw rod which is arranged in the food processing cup and can be in driving connection with the main machine assembly, and the material receiving cup assembly provided by any one embodiment of the first aspect. The driving device is used for being connected with the working screw to drive the working screw to rotate, and the working screw can crush food materials placed into the food processing cup together with the food processing cup during rotation, such as extrusion, cutting and the like, and can separate juice and residue of the crushed food materials. The food juice after juice and residue separation can be discharged from the juice outlet, and the food residue after juice and residue separation can be discharged from the residue outlet. The material receiving cup is used for collecting food juice or food slag, wherein a discharge hole on the food processing cup can be a juice outlet or a slag outlet, when the discharge hole is the juice outlet, the material receiving cup is a juice receiving cup or a material receiving box, and when the discharge hole is the slag outlet, the material receiving cup is a slag receiving cup or a slag receiving box. In addition, the food processor provided in the embodiment of the second aspect of the present invention has the receiving cup assembly provided in any one of the embodiments of the first aspect, and therefore, the food processor provided in the embodiment of the present invention has all the beneficial effects of the receiving cup assembly provided in any one of the embodiments of the first aspect, which are not listed here.

In any one of the above technical solutions, preferably, the food processing cup is a sealable food processing cup, and the food processor further includes: an air extraction device; one end of the air exhaust channel is communicated with the interior of the food processing cup, and the other end of the air exhaust channel is connected with the air exhaust device; wherein the air exhaust device can exhaust air in the food processing cup through the air exhaust channel.

In the technical schemes, the food processing cup is a food processing cup capable of being sealed, so that the food processing cup can be prevented from being ventilated with the outside. And can take out the gas in the food processing cup through air exhaust device and bleed passage, for food material processing of food processor provides a vacuum environment, can realize the processing of eating the material like this under vacuum environment, therefore can effectively alleviate the food juice oxidation of juicing in-process, prevent the nutrition loss of food, ensure the colour and the taste of food juice.

In any one of the above technical solutions, preferably, a carrying platform is arranged on the host computer assembly, and the carrying platform is used for carrying the receiving cup of the receiving cup assembly; an avoidance notch is formed in the host machine component corresponding to the material receiving cup, and the bearing platform is located at one end, far away from the discharging channel, of the avoidance notch; when the receiving cup is placed on the bearing table, the receiving cup is located in the avoiding notch.

In these technical scheme, can set up the plummer on the lateral part of host computer subassembly, correspond the material receiving cup on the host computer subassembly and be provided with and dodge the breach, can directly place the material receiving cup like this in dodging the breach to hold the material receiving cup from the bottom of material receiving cup through the plummer, with the installation of realization material receiving cup on the host computer subassembly. This kind of setting sets up the plummer only need will connect the material cup place on the plummer can, and need not connect and carry out any between material cup and the host computer subassembly and hang and lean on the installation to just need not carry out any institutional advancement to the material cup, and then alright reduce cost. And set up and dodge the breach and just can install the embedding of material receiving cup in dodging the breach when the material receiving cup is placed and is installed on the plummer, just so can make material receiving cup and host computer subassembly form an organic whole to can prevent that material receiving cup from setting up outside the host computer subassembly suddenly. Simultaneously, the space that this kind of setting can also the rational utilization host computer subassembly to realize holding of connecing the material cup, consequently, can also improve the space utilization of product, reduce the whole volume of product.

In any one of the above technical solutions, a limiting plate is arranged on one side of the bottom wall of the carrying platform, which is far away from the avoiding notch, and one end of the limiting plate, which is close to the avoiding notch, protrudes out of the carrying platform.

In these technical scheme, can set up the limiting plate that a exceeds the plummer in the outside of plummer to it is spacing to utilize the limiting plate to come the outside of butt joint material cup, can realize the spacing installation of the bottom of butt joint material cup through the spacing groove like this.

In any one of the above technical solutions, the receiving cup is cylindrical, and the avoiding notch is an arc-shaped notch matched with the cylindrical shape; the opening width of the avoiding gap is smaller than the diameter of the receiving cup, and the depth of the avoiding gap is larger than or equal to the radius of the receiving cup and smaller than or equal to the diameter of the receiving cup.

Among these technical scheme, the cup that connects is cylindrical, for example for cylindrical cup, makes the length and width unanimity of cup that connects like this, therefore can follow arbitrary angle and install its embedding in dodging the breach, therefore need not carry out the counterpoint operation when the cup that connects is installed, therefore can improve the installation convenience of cup that connects. The opening width of the avoiding notch is smaller than the diameter of the material receiving cup, the material receiving cup can be limited by the opening of the avoiding notch, and the material receiving cup is prevented from falling out of the avoiding notch under the action of external force. The depth of the avoiding gap is more than or equal to the radius of the receiving cup and less than or equal to the diameter of the receiving cup. Can install the cup that connects more than half side in dodging the breach like this, therefore can carry out the cladding installation of big half a circle through dodging the breach to the cup that connects, therefore can ensure the installation stability of cup that connects on the host computer subassembly.

In any of the above technical solutions, preferably, a sealing portion is disposed on an end surface of an outlet of the discharge channel of the food processing cup, and the sealing portion can be matched with a sealing lip of the receiving cup assembly to enable the receiving cup to be in sealed communication with the discharge channel.

In these technical scheme, can set up can with connect the sealing portion that material cup subassembly's sealing lip matched with, and through the cooperation of sealing portion and sealing lip limit, can increase discharge channel and connect the leakproofness between the material cup, and then can improve the whole sealing performance of product.

In any one of the above technical solutions, preferably, the discharging channel is a slag discharging channel, the material receiving cup is a slag receiving cup, and the slag discharging channel includes: the slag inlet is arranged on the food processing cup; the inlet of the slag discharging channel is communicated with the slag inlet; the food processing cup is characterized in that the food processing cup is provided with a food processing channel, a food processing cup is arranged in the food processing cup, and the food processing cup is provided with a food processing hole and a food processing groove.

In these technical schemes, can preferably set up discharging channel as the passageway of slagging tap, and at this moment, the cup that connects is the cup that connects the sediment. Meanwhile, the slag channel can be arranged into a structure comprising a slag inlet and a slag discharge channel, wherein the slag inlet is arranged on the food processing cup and used for discharging food slag in the food processing cup, and the slag discharge channel can guide the food slag discharged from the slag inlet for a certain distance and then discharge the food slag from an outlet of the slag discharge channel. And can realize the guide of food sediment through setting up the slag discharging passage to can change the orientation of slagging tap and the position of slagging tap, so that can lead the food sediment to the position and the orientation of comparatively good connecing the sediment and connect the sediment. And the slag inlet and the slag discharge channel are arranged along the axial direction of the food processing cup, namely the slag inlet and the slag discharge channel are vertically arranged, so that slag discharge is smoother. And the central line of advancing the slag notch staggers the setting each other with the central line of slag runner, advances promptly and to be out of plumb between slag notch and the slag runner and switch on, just so can form the passageway of slagging tap of certain camber to realize arranging the sediment, thereby can prolong the length of the passageway of slagging tap promptly, can make the food sediment stop for a longer time in the passageway of slagging tap again, therefore just can carry out further extrusion to the food sediment, so that can make more thoroughly of juice sediment separation, therefore can improve the juice yield.

In any of the above technical solutions, preferably, a linear distance between an edge of the slag inlet on a side close to the slag discharge channel and an edge of the slag discharge channel on a side close to the slag inlet is L, where L is greater than 0mm and less than or equal to 40 mm.

In these technical scheme, the slag inlet is close to the edge of one side of slag discharging channel, namely the edge on the right side of the slag inlet, and the edge on one side of the slag discharging channel close to the slag inlet, namely the linear distance L between the left side edges of the slag discharging channel is not too large or too small, preferably in the range of 0mm-40mm, so that the distance between the slag inlet and the slag discharging channel is moderate, and therefore, a user can conveniently stretch fingers into the slag inlet to clean the slag inlet, and the cleaning convenience of a product can be improved. Certainly, when the slag inlet is blocked, a user can conveniently stretch fingers into the slag inlet to clean food slag at the slag inlet so as to solve the problem of blockage of the slag inlet.

In any one of the above technical schemes, preferably, the food processing cup consists of a cup body and a cup cover, the discharging channel is arranged on the cup body, and the cup cover can be hermetically covered on the cup body.

In any of the above technical solutions, preferably, a filter screen is disposed between the food processing cup and the working screw.

In these technical scheme, when the food processor is the food processor of single cup and single screw rod, can set up a filter screen between food processing cup and work screw rod to can utilize the filter screen after the edible material is smashed, realize the juice sediment separation of edible material.

Wherein, preferably, the filter screen is a ring filter screen. Therefore, the working screw rod and the side wall of the food processing cup can be completely separated by the filter screen, so that the juice and the dregs of the food can be separated.

In any one of the above technical solutions, preferably, the food processor further includes: and the feeding device is arranged on the food processing cup and used for feeding.

In the technical schemes, the crushing of the food materials and the separation of juice and residue of the food materials can be realized through the food processing cup, and meanwhile, the food materials can be added into the food processing cup through the feeding device.

Wherein, preferably, the food processor still includes: and the auxiliary feeding device is arranged in the feeding device or the food processing cup.

In these technical schemes, the auxiliary feeding of food material can be carried out through the auxiliary feeding device. And supplementary feed arrangement can install in feed arrangement for the feeding of edible material can divide two cups with the processing like this and go on, thereby can reduce the height of each cup, so that the better processing of product and washing. Of course, in another technical scheme, the feeding device can be omitted, the food processing cup can be directly arranged into a large cup body, and the auxiliary feeding device can be directly arranged in the food processing cup.

In any of the above technical solutions, preferably, the food processing cup includes a grinding cup and a squeezing cup, a communication port is provided on one end of the grinding cup away from the cup opening of the grinding cup, and the squeezing cup is communicated with the grinding cup through the communication port; the working screw comprises a crushing screw arranged in the crushing cup and an extrusion screw arranged in the extrusion cup; the host computer subassembly includes first drive shaft and second drive shaft, first drive shaft with smash the screw drive and connect, be used for the drive smash the screw rod and smash edible material, the second drive shaft with the extrusion screw drive is connected, is used for the drive extrusion screw extrudes edible material so that eat material juice sediment separation.

In the technical schemes, after the food materials enter the crushing cup, the crushing screw rod is matched with the side wall of the crushing cup under the driving of the first driving shaft so as to crush the food materials, the crushed food materials enter the extrusion cup under the action of the crushing screw rod, and the extrusion screw rod extrudes the food materials under the driving of the second driving shaft so as to separate juice and dregs of the food materials. This technical scheme is separately gone on with the crushing process and the crowded juice slag extractor process of eating the material, and at crushing in-process, because do not need the crowded juice to arrange the sediment, therefore, parts such as filter screen and rotatory brush need not be set up in the crushing cup, thereby make the edible material in the crushing cup can be smashed under the combined action of crushing cup and crushing screw, simultaneously can set up the roughly level of extrusion screw at crowded juice slag extractor in-process, can set the crowded juice slag extractor system into horizontal, thereby can be very convenient for separate the juice sediment of food, this kind of setting can ensure the juice rate of food processor on the one hand, on the other hand can avoid using the filter screen, spare part such as rotatory brush, thereby make the simple structure and the easy installation of food processing cup, simultaneously because cancelled the filter screen, therefore can reduce user's washing difficulty, and then can promote user experience.

In any of the above technical solutions, preferably, an included angle between the axis of the squeezing cup and the axis of the pulverizing cup is greater than or equal to 75 ° and less than or equal to 180 °, or an included angle between the axis of the squeezing cup and the axis of the pulverizing cup is greater than or equal to 90 ° and less than or equal to 135 °.

In the technical scheme, an included angle can be arranged between the extruding cup and the crushing cup as long as the food materials can enter the crushing cup from the extruding cup, wherein preferably, an included angle which is more than or equal to 90 degrees and less than or equal to 135 degrees is formed between the axis of the extruding cup and the axis of the crushing cup, namely, the extruding cup is horizontally or obliquely arranged downwards, so that the food materials can flow into the extruding cup or flow to a slag outlet in the extruding cup without overcoming the gravity of the food materials at least, and further the flow of the food materials is smoother, further, an included angle which is more than 90 degrees and less than or equal to 135 degrees is formed between the axis of the extruding cup and the axis of the crushing cup, the food materials can flow out by the extrusion force of the extruding screw, and can flow out by the gravity of the food materials, so that the flow rate of the food materials can be accelerated to improve the juice outlet speed, and the food materials can be fully extruded, in order to improve juice rate, simultaneously, this kind of setting combines vertical machine and horizontal machine, therefore can make the product both have the effectual advantage of vertical machine crushing, has the abundant advantage of horizontal machine extrusion again, and then can make promptly to eat the material by abundant crushing, can be fully extruded again, and then can improve juice rate.

Wherein, preferably, the axis of the extruding cup and the axis of the crushing cup form an included angle of 90 degrees.

Preferably, an included angle between the axis of the extrusion screw and the axis of the crushing screw is greater than or equal to 75 degrees and less than or equal to 180 degrees, or an included angle between the axis of the extrusion screw and the axis of the crushing screw is greater than or equal to 90 degrees and less than or equal to 135 degrees. This kind of setting can make extrusion cup level or slope set up downwards to eat the material and enter into in the extrusion cup or need not overcome the gravity of eating the material at least when flowing to the slag notch in the extrusion cup, and then make the flow of eating the material more smooth and easy.

Wherein, preferably, the axis of the extrusion screw and the axis of the crushing screw form an included angle of 90 degrees.

In any of the above technical solutions, preferably, the air extracting device includes an air extracting pump.

In the technical schemes, air can be pumped out by using one air pump, and the air pump has stronger vacuum pumping capacity, so that the air pumping capacity of the air pumping device can be improved. Of course, the air extracting device can also realize air extraction by other air extracting structures.

In any of the above technical solutions, preferably, the air exhaust device further includes: the exhaust channel is connected with an outlet of the air pump and used for exhausting air; and the noise reduction device is arranged on the exhaust pipe.

In these solutions, the exhaust may be performed by providing an exhaust channel, wherein the exhaust channel is preferably an exhaust pipe. And the noise reduction device can reduce the noise of the air exhaust device and improve the user experience.

In any of the above technical solutions, preferably, the suction pump is disposed on the main machine assembly and/or the food processing cup, or the suction pump is disposed independently from the main machine assembly and/or the food processing cup.

In these technical solutions, the air pump may be disposed at any position, specifically, for example, on the main unit assembly and the food processing cup, and of course, the air pump may also be disposed independently from the main unit assembly and the food processing cup, that is, the air pump may also be disposed outside the main unit assembly and the food processing cup.

Wherein, preferably, the suction pump is disposed within the host assembly. Can hide the aspiration pump and install in the host computer subassembly like this to can make the inner structure of product reasonable compacter.

In any of the above technical solutions, preferably, the air exhaust channel is an air exhaust pipe.

In these technical schemes, the air exhaust channel is preferably an air exhaust pipe, such as a rubber pipe, and of course, the air exhaust channel can also be other channel structures arranged on the shell of the food processor.

In any of the above technical solutions, preferably, the air pump is an electric pump, a manual pump or a foot pump.

In these technical solutions, the air pump is preferably an electric pump, and thus can be used for air extraction with an electric drive air pump, so that manual air extraction is not required, and of course, the air pump can also be a manual pump or a foot pump.

In any of the above technical solutions, preferably, the air pump is a vacuum pump.

In these technical schemes, the air pump is preferably the vacuum pump, because the vacuum pump is more common, therefore easily purchase, and the ability of vacuum pump evacuation is stronger in addition, therefore can take out a large amount of air in the inside of food processor to when guaranteeing to handle the edible material, the vacuum effect in the food processing cup.

Wherein, preferably, drive arrangement is the motor preferably, and the motor is installed in the host computer subassembly, is provided with the motor packing ring between motor and the host computer subassembly.

In any one of the above technical solutions, preferably, the food processor is a juice extractor or a juicer, and of course, the food processor may also be other structures except for the juice extractor and the juicer, such as a juicer, a wall breaking machine, and the like.

Additional aspects and advantages in accordance with the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

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

fig. 2 is another schematic structural diagram of a food processor according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a food processor according to an embodiment of the present invention;

fig. 4 is a schematic view of another structure of the food processor according to the embodiment of the invention;

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

FIG. 6 is an exploded view of the food processor provided in accordance with the present invention, without the host assembly;

fig. 7 is a schematic view of an installation structure of a slag cup and a sealing member of the food processor provided according to the embodiment of the invention;

fig. 8 is a schematic view of another mounting structure of the residue receiving cup and the sealing member of the food processor provided according to the embodiment of the invention;

fig. 9 is a schematic structural diagram of a sealing member of the food processor provided according to the embodiment of the invention;

fig. 10 is another schematic structural diagram of a sealing member of the food processor provided according to the embodiment of the invention;

fig. 11 is an assembly structure diagram of a main unit assembly and a slag receiving cup of the food processor according to the embodiment of the invention;

fig. 12 is a schematic structural diagram of a main body component of the food processor according to the embodiment of the present invention;

fig. 13 is another schematic structural diagram of a main unit assembly of the food processor according to the embodiment of the present invention;

fig. 14 is a schematic structural diagram of a main body component of the food processor according to the embodiment of the present invention;

fig. 15 is a schematic structural diagram of a main body assembly of the food processor according to the embodiment of the invention;

fig. 16 is a schematic structural diagram of a food processing cup of the food processor provided according to the embodiment of the invention;

fig. 17 is a schematic structural diagram of a food processing cup of the food processor according to the embodiment of the invention.

Wherein, the correspondence between the reference numbers and the part names in fig. 1 to 17 is:

1, 12 flanging, 2 sealing parts, 22 mounting rings, 222 annular grooves, 224 ribs, 226 grooves, 228 arc surfaces, 24 sealing lip edges, 3 host machine components, 32 driving devices, 34 bearing tables, 36 avoiding gaps, 38 limiting plates, 4 food processing cups, 42 slag discharging channels, 422 slag inlet ports, 424 slag discharging channels, 44 sealing parts, 5 working screws, 6 air exhaust devices, 7 air exhaust channels, 8 filter screens and 9 auxiliary feeding devices.

Detailed Description

In order that the above objects, features and advantages of the present invention can be more clearly understood, a more particular description of the invention will be rendered by reference to the appended drawings. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

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 otherwise than as specifically described herein, and thus the scope of the present invention is not limited by the specific embodiments disclosed below.

The following describes a receiving cup assembly and a food processor provided according to an embodiment of the invention with reference to fig. 1 to 17.

As shown in fig. 1 to 17, a receiving cup assembly according to a first aspect of the present invention is provided for a food processor, where the food processor includes a host assembly 3 and a food processing cup 4 capable of being mounted on the host assembly 3, a discharge channel, such as a slag discharge channel 42, is disposed on the food processing cup 4, the receiving cup assembly includes a receiving cup and a sealing member 2, the receiving cup can be a slag receiving cup 1 or a juice receiving cup, and an outlet of the receiving cup corresponding to the discharge channel (such as the slag receiving channel 42) can be detachably mounted on the host assembly 3; the sealing element 2 comprises a mounting ring 22 and a sealing lip 24, the mounting ring 22 can be detachably sleeved on the cup mouth end of the receiving cup, one end of the sealing lip 24 is connected with the inner side wall of the mounting ring 22, the other end of the sealing lip 24 is separated from the mounting ring 22, and the sealing lip extends from the inner side of the mounting ring 22 to the outer side of the mounting ring 22 in an inclined mode from the direction far away from the discharging channel to the direction close to the discharging channel; wherein, when the receiving cup (such as the slag receiving cup 4) is installed on the main machine component 3 corresponding to the discharging channel (such as the slag receiving channel 42) and the food processing cup 4 is vacuumized, the sealing lip 24 can be sealed at the outlet of the discharging channel under the action of atmospheric pressure, so that the receiving cup is in sealed conduction with the discharging channel, and the installation ring 22 and the sealing lip 24 are of an integrated structure.

The receiving cup assembly provided by the embodiment of the invention is used for a food processor, and particularly is used for being connected with a discharge channel of a food processing cup 4, such as a residue receiving channel 42 or a juice receiving channel, so as to receive food juice or food residue discharged by the discharge channel. The receiving cup assembly comprises a receiving cup and a sealing part 2 which can be installed on the host machine assembly 3, the sealing part 2 comprises a mounting ring 22 and a sealing lip 24, wherein the mounting ring 22 can be installed on the cup mouth end of the receiving cup to realize the installation of the sealing part 2, one end of the sealing lip 24 is connected with the inner side wall of the mounting ring 22, the other end of the sealing lip 24 is separated from the mounting ring 22 and obliquely extends to the direction of the discharging channel from the inner side wall of the mounting ring 22 to the outer side wall of the mounting ring 22 to be attached to the outlet of the discharging channel, so that the other end of the sealing lip 24 can be tilted upwards from inside to outside, and a gap can be reserved between the mounting ring 22 and the sealing lip 24 to accommodate the atmospheric pressure. Thus, the outlet of the receiving cup corresponding to the discharging channel is arranged on the main machine component 3, and after the food processing cup 4 is vacuumized, the pressure inside the sealing lip edge 24, namely the pressure inside the food processing cup 4, is smaller than the pressure outside the sealing lip edge 24, namely the atmospheric pressure, so that the sealing lip edge 24 can be compressed by the atmospheric pressure under the action of the difference between the internal pressure and the external pressure, and the sealing between the receiving cup and the discharging port is automatically realized. After the pressure of the food processing cup 4 is released, the pressure inside and outside the sealing lip edge 24 is the same, so that the self-unsealing can be realized, and the receiving cup can be taken out conveniently. This kind of setting only needs to connect the material cup to correspond and installs on host computer subassembly 3, then can compress tightly sealing lip limit 24 through the inside and outside atmospheric pressure of product automatically to realize the sealing connection between material cup and the discharging channel. And at this installation and the in-process of taking out, do not need the user to carry out manual seal installation, do not need to be carelessly to connect the material cup seal installation at the discharge gate department promptly, consequently, do not need the user to use great power to compress tightly the sealing washer when the installation, also need not overcome the resistance of sealing member 2 taking out the material cup, this kind of structure promptly, only need connect the material cup to install on host computer subassembly 3 according to non-sealed mounting means can, therefore make the installation of material cup and take out all very convenient laborsaving. Meanwhile, in the present application, the pressing force of the sealing lip 24 can be ensured by using the atmospheric pressure to realize the pressing of the sealing lip 24, so as to ensure the sealing effect.

In addition, the discharge channel of the food processing cup 4 can be either a juice discharge channel or a residue discharge channel 42 as shown in fig. 6 and 17, and when the discharge channel is the juice discharge channel, the material receiving cup is a juice receiving cup, and when the discharge channel is the residue discharge channel 42, the material receiving cup is the residue receiving cup 1. The arrangement can install the receiving cup such as the juice receiving cup or the slag receiving cup 1 and the like on the host machine component 3 corresponding to the juice outlet channel or the slag outlet channel 42, so that the receiving cup can be fixedly installed on the host machine component 3, and the receiving cup such as the juice receiving cup or the slag receiving cup 1 and the like can be installed with the host machine component 3 into a whole, so that the host machine component 3, the receiving cup such as the juice receiving cup and the slag receiving cup 1 and the like can be transported and stored together, and therefore, the receiving cup such as the juice receiving cup or the slag receiving cup 1 and the like does not need to be separately stored additionally, and meanwhile, the receiving cup such as the juice receiving cup or the slag receiving cup 1 and the like can be fixedly installed on the host machine component 3, namely, the host machine component 3 provides a placing space for the receiving cup such as the juice receiving cup or the slag receiving cup 1 and the like, and therefore, after being used, a user can think of directly returning the receiving cup such as to the juice receiving cup or the slag receiving cup and the like, namely, the arrangement can play a role of reminding the user of automatically, therefore, the receiving cups such as the juice receiving cup or the slag receiving cup 1 can be prevented from being placed randomly, and the possibility of losing the receiving cups such as the juice receiving cup or the slag receiving cup 1 can be reduced to a certain degree. In addition, this kind of setting, when juicing, owing to connect the juice cup or connect material cup such as sediment cup 1 itself just to correspond the passageway 42 of slagging tap or go out the juice passageway and correspond and install, therefore when juicing, just need not the user additionally to go to connect the material cup or connect sediment cup 1 to correspond the passageway of slagging tap or the passageway 42 of slagging tap and place, therefore can reduce user's work load to a certain extent, improve user experience. Furthermore, in the case of a food processor such as a vacuum juicer or a vacuum juicer, the residue receiving cup 1 or the juice receiving cup needs to be hermetically connected to the food processing cup 4, and the position of the residue receiving cup 1 or the juice receiving cup can be accurately defined by directly mounting the residue receiving cup 1 or the juice receiving cup on the main unit assembly 3, so that the hermetic mounting between the residue receiving cup 1 or the juice receiving cup and the food processing cup 4 is facilitated, and the convenience in mounting the residue receiving cup 1 or the juice receiving cup can be improved.

Wherein, the material receiving cup can be detachably installed on the host computer component 3 corresponding to the outlet of the discharging channel, so that the material receiving cup can be taken down from the host computer component 3 to conduct slag guiding or cleaning and the like. The mounting ring 22 is detachably mounted on the rim end of the receiving cup, so that the sealing element 2 can be detached from the receiving cup, thereby facilitating cleaning and replacement of the sealing element 2. The mounting ring 22 and the sealing lip 24 are preferably of an integrated structure, and the mechanical property of the integrated structure is good, so that the connection strength between the mounting ring 22 and the sealing lip 24 can be ensured, and in addition, the mounting ring 22 and the sealing lip 24 can be integrally manufactured and produced in batch, so that the production efficiency of products is improved, and the production and processing cost of the products is reduced. Of course, the mounting ring 22 and sealing lip 24 may also be of a split, i.e., removable, construction.

In the above-described embodiment, preferably, the sealing lip 24 has a thickness T in the axial direction of the receiving cup, as shown in FIG. 9, wherein T is 0.5 mm. ltoreq.T.ltoreq.2 mm.

In this embodiment, the sealing lip 24 can realize self-sealing under the action of atmospheric pressure, when the sealing lip is installed, the sealing lip 2 and the discharge channel do not need to be installed in a sealing manner, so that the discharge channel and the sealing lip 2 have good sealing performance, and the thickness T of the sealing lip 24 in the axial direction of the material receiving cup preferably ranges from 0.5mm to 2mm, so that the thickness of the sealing lip 24 is moderate. Specifically, if the thickness of the sealing lip 24 in the axial direction of the receiving cup is smaller than the value range, the sealing lip 24 is too thin, so that the strength of the sealing lip 24 is reduced, the service life is also reduced, and the sealing performance between the sealing member 2 and the discharge passage is not good enough. If the thickness of the sealing lip edge 24 in the axial direction of the receiving cup is larger than the value range, the thickness of the sealing lip edge 24 is too thick, the compression effect is poor, the material is wasted, and the sealing effect is poor.

In any of the above embodiments, preferably, as shown in FIG. 9, the face of the sealing lip 24 adjacent the mounting ring 22 is at an angle α to the axis of the mounting ring 22, wherein 5 ≦ α <90, or 45 ≦ α <90, or 60 ≦ α ≦ 85, or 75 ≦ α ≦ 80.

In these embodiments, in order to ensure the sealing effect of the sealing lip 24, the included angle between the sealing lip 24 and the axis of the mounting ring 22 should not be too large or too small, preferably, the included angle α between the sealing lip 24 and the axis of the mounting ring 22 may be greater than or equal to 5 ° and less than 90 °, further preferably, α may be greater than or equal to 45 ° and less than 90 °, or α may be greater than or equal to 60 ° and less than 85 °, and further still, α is preferably greater than or equal to 60 ° and less than or equal to 85 °.

In any of the above embodiments, preferably, as shown in fig. 8, the cup mouth of the receiving cup is provided with a flange 12 bending outwards, as shown in fig. 9, the inner side wall of the mounting ring 22 is provided with an annular groove 222, and the mounting ring 22 can be mounted on the flange 12 in a wrapping manner through the annular groove 222.

In the embodiments, the flanging 12 which is bent outwards is arranged at the cup opening of the receiving cup, the annular groove 222 is arranged on the inner side wall of the mounting ring 22, the mounting ring 22 can be mounted on the flanging 12 through the annular groove 222, and the mounting groove is just matched with the flanging 12, so that the connection reliability and the sealing property between the receiving cup and the sealing element 2 are improved.

In any of the above embodiments, preferably, as shown in fig. 9, one or more ribs 224 are provided on a side wall of the annular groove 222 away from the sealing lip 24 and spaced apart from each other.

In these embodiments, the rib 224 is provided on the side wall surface of the annular groove 222 which is away from the sealing lip 24 in principle, that is, on the lower surface of the annular groove 222, so that when the sealing member 2 is mounted on the receiving cup, the receiving cup and the rib 224 can be squeezed together, and the lower surface of the flange 12 of the receiving cup can be tightly attached to the lower wall surface of the annular groove 222, thereby increasing the mounting reliability and the sealing property between the receiving cup and the sealing member 2.

In any of the above embodiments, preferably, as shown in fig. 9, the rib 224 is an annular rib provided in the circumferential direction of the mount ring 22.

In these embodiments, the rib 224 is configured as an annular rib, and when the sealing member 2 is mounted on the receiving cup, a circumference of the receiving cup can be extruded and deformed with the rib 224, so that the mounting reliability and the sealing property between the receiving cup and the sealing member 2 can be ensured from various angles.

In any of the above embodiments, preferably, as shown in fig. 9, the number of the ribs 224 is 1 to 3.

In these embodiments, the number of the ribs 224 may be set to be one to 3, so that not only is the sealing performance between the sealing member 2 and the receiving cup ensured, but also the situation that the sealing member 2 is difficult to mount and the sealing member 2 is complicated in structure and not easy to process due to the excessive number of the ribs 224 can be prevented.

In any of the above embodiments, preferably, as shown in fig. 7 to 10, a side wall surface of the annular groove 222 adjacent to the sealing lip 24 is disposed to be inclined from the outer side of the mounting ring 22 to the inner side of the mounting ring 22 to a side away from the sealing lip 24.

In these embodiments, the side wall surface of the annular groove 222 close to the sealing lip 24 is arranged from the outer side of the mounting ring 22 to the inner side of the mounting ring 22 and is inclined to the side far away from the sealing lip 24, that is, the upper side wall surface of the annular groove 222 is inclined downwards from the outer side to the inner side, so that the opening of the annular groove 222 can be smaller, and thus the mounting ring 22 can be in interference fit with the flange 12, and thus the mounting reliability and the sealing performance between the mounting ring 22 and the receiving cup can be ensured.

In any of the embodiments described above, preferably, as shown in FIGS. 7-10, the angle between a side wall surface of the annular groove 222 adjacent the sealing lip 24 and the axis of the mounting ring 22 is β, wherein 70 ≦ β ≦ 90.

In such embodiments, the angle β between a side wall of the sealing lip 24 and the axis of the mounting ring 22 is preferably not too large or too small, and is preferably not less than 70 ° and not more than 90 °, such as 80 °. Specifically, if the value of the included angle β is smaller than the value range, the receiving cup and the sealing element 2 are difficult to mount, and if the included angle β is larger than the value range, the upper side wall surface of the mounting ring 22 cannot be tightly fitted with the upper end surface of the flange 12.

In any of the above embodiments, preferably, as shown in fig. 7 to 10, the inner end of one side wall surface of the annular groove 222 close to the sealing lip 24 is an arc surface 228 extending from the outer side of the mounting ring 22 to the inner side of the mounting ring 22 to a side away from the sealing lip 24 in an inclined manner.

In these embodiments, the arcuate surface 228 further provides a close fit between the upper wall surface of the annular groove 222 and the upper surface of the flange 12 of the receiving cup when the seal 2 is installed on the receiving cup, thereby further increasing the sealing capability therebetween.

In any of the above embodiments, preferably, as shown in fig. 7-10, a groove 226 is provided on a face of the mounting ring 22 adjacent the sealing lip 24.

In these embodiments, when connecting discharge gate and material receiving cup, the discharge gate can be with sealing lip edge 24 to the direction extrusion of material receiving cup's axis, leads to the mounting ring 22 to be close to one side of sealing lip edge 24 and can take place to pull the deformation, through setting up recess 226, increases the area of the one side of mounting ring 22 close to sealing lip edge 24, increases the deformation scope of this one side, prevents this one because pull the emergence fracture, increases the life of sealing member 2.

In any of the above embodiments, preferably, the outlet channel comprises a juice outlet channel, and the receiving cup comprises a juice receiving cup; and/or as shown in fig. 1-17, the tapping channel comprises a tapping channel 42 and the receiving cup comprises the receiving cup 1.

In these embodiments, the juice receiving cup can be installed on the main machine component 3 to achieve juice receiving, and the residue receiving cup 1 can also be installed on the main machine component 3 to achieve residue receiving, and of course, both the material receiving cup and the residue receiving cup 1 can also be installed on the main machine component 3 at the same time.

As shown in fig. 1 to 17, an embodiment of the second aspect of the present invention provides a food processor, including: a main machine component 3, wherein a driving device 32 is arranged in the main machine component 3; the food processing cup 4 can be arranged on the main machine component 3, and a discharge channel is arranged on the food processing cup 4; the working screw 5 is arranged in the food processing cup 4 and can be in driving connection with the main machine component 3; any one of the embodiments of the first aspect provides a receiving cup assembly, which is mounted to the host assembly 3 corresponding to the discharging channel.

According to the food processor provided by the embodiment of the invention, the food processor comprises a main machine component 3 (shown in fig. 11 to 16) provided with a driving device 32, a food processing cup 4 (shown in fig. 1, 2, 4, 6 and 17) installed on the main machine component 3 and provided with a discharging channel, a working screw 5 (shown in fig. 1 and 2) installed in the food processing cup 4 and capable of being in driving connection with the main machine component 3, and the material receiving cup component provided by any one of the embodiments of the first aspect, wherein the material receiving cup component (shown in fig. 1, 4 and 6 to 8) is preferably a slag receiving cup component. The driving device 32 is connected to the working screw 5 to drive the working screw 5 to rotate, and when the working screw 5 rotates, the food material put into the food processing cup 4 can be crushed, such as extruded and cut, together with the food processing cup 4, and the crushed food material can be separated from juice and dregs. The food juice after juice and residue separation can be discharged from the juice outlet, and the food residue after juice and residue separation can be discharged from the residue outlet. The material receiving cup is used for collecting food juice or food slag, wherein a discharge hole on the food processing cup 4 can be a juice outlet or a slag outlet, when the discharge hole is the juice outlet, the material receiving cup is a juice receiving cup or a material receiving box, and when the discharge hole is the slag outlet, the material receiving cup is a slag receiving cup 1 or a slag receiving box. In addition, the food processor provided in the embodiment of the second aspect of the present invention has the receiving cup assembly provided in any one of the embodiments of the first aspect, and therefore, the food processor provided in the embodiment of the present invention has all the beneficial effects of the receiving cup assembly provided in any one of the embodiments of the first aspect, which are not listed here.

In any of the above embodiments, preferably, as shown in fig. 1, 2 and 4, the food processing cup 4 is a sealable food processing cup, and as shown in fig. 1, 13 and 14, the food processor further includes: an air extraction device 6; one end of the air exhaust channel 7 is communicated with the interior of the food processing cup 4, and the other end of the air exhaust channel 7 is connected with the air exhaust device 6; wherein the air extraction device 6 can extract air from the food processing cup 4 through the air extraction channel 7.

In these embodiments, the food processing cup 4 is a sealable food processing cup 4, which prevents the food processing cup 4 from being vented to the environment. And can take out the gas in the food processing cup 4 through air exhaust device 6 and bleed passage 7, for the edible material processing of food processor provides a vacuum environment, can realize the processing of edible material like this under vacuum environment, therefore can effectively alleviate the food juice oxidation of juicing in-process, prevent the nutrition loss of food, ensure the colour and the taste of food juice.

In any of the above embodiments, preferably, as shown in fig. 11 and 12, the host assembly 3 is provided with a carrying platform 34, and the carrying platform 34 is used for carrying the receiving cup; an avoiding gap 36 is arranged on the host machine component 3 corresponding to the material receiving cup, and the bearing platform 34 is positioned at one end of the avoiding gap 36 far away from the material discharging channel; when the receiving cup is placed on the bearing table 34, the receiving cup is located in the avoiding gap 36.

In these embodiments, the bearing table 34 may be disposed on the side portion of the host module 3, and the host module 3 is disposed with an avoiding gap 36 corresponding to the receiving cup, so that the receiving cup can be directly placed in the avoiding gap 36, and the receiving cup is supported from the bottom of the receiving cup by the bearing table 34, so as to implement the installation of the receiving cup on the host module 3. This kind of setting sets up plummer 34 only need will connect the material cup place on plummer 34 can, and need not connect and carry out any installation of leaning on between material cup and the host computer subassembly 3 to just need not carry out any institutional advancement to the material cup, and then alright reduce cost. The avoidance gap 36 is arranged to enable the receiving cup to be embedded into the avoidance gap 36 when the receiving cup is placed on the bearing table 34, so that the receiving cup and the host component 3 can be integrated into a whole, and the receiving cup can be prevented from being arranged outside the host component 3 suddenly. Simultaneously, this kind of setting can also the rational utilization host computer subassembly 3 space to realize holding of connecing the material cup, consequently, can also improve the space utilization of product, reduce the whole volume of product.

In any of the above embodiments, as shown in fig. 11 and 12, a limit plate 38 is disposed on a side of the plummer 34 away from the bottom wall of the avoidance gap 36, and one end of the limit plate 38 near the avoidance gap 36 protrudes out of the plummer 34.

In these embodiments, a limiting plate 38 higher than the bearing platform 34 may be disposed on the outer side of the bearing platform 34, so that the limiting plate 38 is used to limit the outer side of the material cup, and thus, the limiting installation of the bottom of the material cup can be achieved through the limiting groove.

In any of the above embodiments, as shown in fig. 6 to 8, the receiving cup is cylindrical, and as shown in fig. 11 and 12, the avoiding notch 36 is a circular arc notch matched with the cylinder; the opening width of the avoiding notch 36 is smaller than the diameter of the receiving cup, and the depth of the avoiding notch 36 is larger than or equal to the radius of the receiving cup and smaller than or equal to the diameter of the receiving cup.

In these embodiments, the receiving cup is cylindrical, for example, a cylindrical cup, so that the length and the width of the receiving cup are consistent, and therefore the receiving cup can be embedded into the avoiding notch 36 from any angle, and therefore, the alignment operation is not required to be performed when the receiving cup is installed, and therefore, the installation convenience of the receiving cup can be improved. The opening width of the avoiding notch 36 is smaller than the diameter of the receiving cup, so that the receiving cup can be limited by the opening of the avoiding notch 36, and the receiving cup is prevented from falling out of the avoiding notch 36 under the action of external force. The depth of the avoiding notch 36 is more than or equal to the radius of the receiving cup and less than or equal to the diameter of the receiving cup. Therefore, the receiving cup above the half side can be embedded and installed in the avoiding notch 36, the receiving cup can be wrapped and installed by a large half circle through the avoiding notch 36, and the installation stability of the receiving cup on the host machine assembly can be ensured.

In any of the above embodiments, preferably, as shown in fig. 17, a sealing portion 44 is provided on the end surface of the outlet of the discharge channel of the food processing cup 4, and the sealing portion 44 can be matched with the sealing lip 24 of the receiving cup assembly to make the receiving cup and the discharge channel conduct in a sealing manner.

In these embodiments, can set up can with connect the sealing portion 44 that material cup subassembly's sealing lip edge 24 cooperatees, and through the cooperation of sealing portion 44 and sealing lip edge 24, can increase the leakproofness between discharging channel and the material cup, and then can improve the whole sealing performance of product.

In any of the above embodiments, preferably, as shown in fig. 1 to 17, the discharging channel is a slag discharging channel 42, and the receiving cup is a slag receiving cup 1, and as shown in fig. 17, the discharging channel 42 includes: a slag inlet 422 arranged on the food processing cup 4; the inlet of the slag discharging channel 424 is communicated with the slag inlet 422; wherein, the slag inlet 422 and the slag discharge passage 424 are arranged along the axial direction of the food processing cup 4, and the central line of the slag inlet 422 and the central line of the slag discharge passage 424 are arranged in a staggered way.

In these embodiments, it may be preferable to provide the tapping channel as tapping channel 42, in which case the receiving cup is the receiving cup 1. Meanwhile, the slag discharging passage 42 may be configured to include a slag inlet 422 and a slag discharging passage 424, wherein the slag inlet 422 is provided on the food processing cup 4 for discharging food slag in the food processing cup 4, and the slag discharging passage 424 is capable of guiding the food slag discharged from the slag inlet 422 for a distance and then discharging the food slag from an outlet of the slag discharging passage 424. And the guiding of food slag can be realized through setting up the slag discharging channel 424 to can change the orientation of slagging tap and the position of slagging tap, so that can guide food slag to the position and the orientation of comparatively good connecing the sediment and connect the sediment. The slag inlet 422 and the slag discharge passage 424 are arranged along the axial direction of the food processing cup 4, namely, the slag inlet 422 and the slag discharge passage 424 are vertically arranged, so that slag discharge can be smoother. And the central line of advancing slag notch 422 and the setting of staggering each other of central line of row's cinder notch 424, it is not vertical to switch on promptly to advance between slag notch 422 and the row's cinder notch 424, just so can form the passageway 42 of slagging tap of certain camber, in order to realize arranging the sediment, thereby can prolong the length of the passageway 42 of slagging tap promptly, can make the food sediment stop for a longer time in the passageway 42 of slagging tap again, therefore just can carry out further extrusion to the food sediment, so that can make the more thorough of juice sediment separation, therefore can improve the juice yield.

In any of the above embodiments, preferably, as shown in fig. 17, the straight-line distance between the edge of the side of the slag outlet 422 close to the slag discharge channel 424 and the edge of the side of the slag discharge channel 424 close to the slag inlet 422 is L, wherein L is greater than 0mm and less than or equal to 40 mm.

In these embodiments, the straight-line distance L between the edge of the slag inlet 422 close to one side of the slag discharge passage 424, that is, the edge on the right side of the slag inlet 422, and the edge of the slag discharge passage 424 close to one side of the slag inlet 422, that is, the edge on the left side of the slag discharge passage 424, should not be too large or too small, preferably within the range of 0mm to 40mm, so that the distance between the slag inlet 422 and the slag discharge passage 424 can be relatively moderate, and therefore, a user can conveniently insert a finger into the slag inlet 422 to clean the slag inlet 422, and thus, the cleaning convenience of the product can be improved. Of course, when the slag inlet 422 is blocked, the user can conveniently stretch fingers into the slag inlet 422 to clean food slag at the slag inlet 422, so as to solve the problem of blockage of the slag inlet 422.

In any of the above embodiments, it is preferred that a sieve 8 is provided between the food processing cup 4 and the working screw 5, as shown in fig. 1 and 2.

In these embodiments, when the food processor is a single-cup and single-screw food processor, a filter screen 8 may be disposed between the food processing cup 4 and the working screw 5, so that the juice and residue separation of the food material can be realized after the food material is pulverized by the filter screen 8.

Wherein, the filter screen 8 is preferably a ring filter screen. Thus, the working screw 5 and the side wall of the food processing cup 4 can be completely separated by the filter screen 8, thereby separating the juice and the dregs of the food.

In any of the above embodiments, preferably, the food processor further comprises: a feeding device (not shown) is arranged on the cup 4 for feeding.

In such embodiments, the food material comminution and juice and pomace separation of the food material may be achieved by the food processing cup 4, while the food material may be added to the food processing cup 4 by the feeding device.

In any of the above embodiments, preferably, as shown in fig. 1, 2, 4 and 6, the food processing cup is composed of a cup body and a lid, the discharge passage is provided on the cup body, and the lid can be hermetically sealed on the cup body.

Wherein, preferably, as shown in fig. 1 and fig. 2, the food processor further comprises: and the auxiliary feeding device 9 is arranged in the feeding device or the food processing cup 4.

In such embodiments, the auxiliary feeding of food material may be performed by the auxiliary feeding means 9. And supplementary feed arrangement 9 mountable is in feed arrangement for the feeding of edible material can divide two cups with handling like this and go on, thereby can reduce the height of each cup, so that the better processing of product and washing. Of course, it is also possible to provide the food processing cup directly as a large cup body, as shown in fig. 1, 2, 4, 6 and 17, in which case the auxiliary feeding device 9 can be mounted directly in the food processing cup 4.

In any of the above embodiments (not shown in the figures), preferably, the food processing cup 4 comprises a grinding cup and a squeezing cup, a communication port is arranged on one end of the grinding cup away from the cup mouth of the grinding cup, and the squeezing cup is communicated with the grinding cup through the communication port; the working screw 5 comprises a crushing screw arranged in the crushing cup and an extrusion screw arranged in the extrusion cup; the main machine component 3 comprises a first driving shaft and a second driving shaft, the first driving shaft is in driving connection with the crushing screw and used for driving the crushing screw to crush food materials, and the second driving shaft is in driving connection with the extrusion screw and used for driving the extrusion screw to extrude the food materials so as to separate the food materials from juice and residues.

In these embodiments, after the food material enters the grinding cup, the grinding screw is driven by the first driving shaft to cooperate with the side wall of the grinding cup to grind the food material, the ground food material enters the extrusion cup under the action of the grinding screw, and the extrusion screw is driven by the second driving shaft to extrude the food material, so that the juice and the dregs of the food material are separated. This embodiment is separately gone on with the crushing process and the crowded juice slag removal process of edible material, and at crushing in-process, owing to need not squeeze the juice and arrange the sediment, therefore, need not set up parts such as filter screen 8 and rotatory brush in smashing the cup, thereby make the edible material in smashing the cup can be smashed under the combined action of smashing cup and crushing screw, simultaneously can be with the roughly level setting of extrusion screw at crowded juice slag removal in-process, can set the crowded juice slag removal system into horizontal, thereby can be very convenient for separate the juice sediment of food, the juice rate of food processor can be ensured on the one hand in this kind of setting, on the other hand can avoid using filter screen 8, spare part such as rotatory brush, thereby make the simple structure and the easy installation of food processing cup 4, simultaneously owing to cancelled filter screen 8, therefore can reduce user's washing difficulty, and then can promote user experience.

In any of the above embodiments, preferably, the axis of the squeeze cup and the axis of the crush cup form an angle of 75 ° or more and 180 ° or less, or the axis of the squeeze cup and the axis of the crush cup form an angle of 90 ° or more and 135 ° or less.

In this embodiment, an included angle may be formed between the extruding cup and the crushing cup as long as the food material can enter the crushing cup from the extruding cup, wherein, preferably, an included angle of 90 ° or more and 135 ° or less is formed between the axis of the extruding cup and the axis of the crushing cup, that is, the extruding cup is horizontally or obliquely arranged downwards, so that the food material does not at least overcome the gravity of the food material when entering the extruding cup or flowing to the slag outlet in the extruding cup, and further the flowing of the food material is smoother, further, an included angle of 90 ° or more and 135 ° or less is formed between the axis of the extruding cup and the axis of the crushing cup, and the food material flows out by the extruding force of the extruding screw, and can flow out by the gravity of the food material, so that on one hand, the flowing rate of the food material can be increased, so as to increase the juice speed, and on the other hand, the food material can be sufficiently, in order to improve juice rate, simultaneously, this kind of setting combines vertical machine and horizontal machine, therefore can make the product both have the effectual advantage of vertical machine crushing, has the abundant advantage of horizontal machine extrusion again, and then can make promptly to eat the material by abundant crushing, can be fully extruded again, and then can improve juice rate.

Wherein, preferably, the axis of the extruding cup and the axis of the crushing cup form an included angle of 90 degrees.

Preferably, an included angle between the axis of the extrusion screw and the axis of the crushing screw is 75 degrees or more and 180 degrees or less, or an included angle between the axis of the extrusion screw and the axis of the crushing screw is 90 degrees or more and 135 degrees or less. This kind of setting can make extrusion cup level or slope set up downwards to eat the material and enter into in the extrusion cup or need not overcome the gravity of eating the material at least when flowing to the slag notch in the extrusion cup, and then make the flow of eating the material more smooth and easy.

Wherein, preferably, the axis of the extrusion screw and the axis of the crushing screw form an included angle of 90 degrees.

In any of the above embodiments, preferably, the air-extracting device 6 comprises an air-extracting pump.

In these embodiments, the air can be pumped out by a suction pump, and the suction pump has a strong vacuum pumping capability, so that the air pumping capability of the air pumping device 6 can be improved. Of course, the air-extracting device 6 can also realize air extraction by other air-extracting structures.

In any of the above embodiments, preferably, the air exhaust device 6 further comprises: the exhaust channel is connected with the outlet of the air pump and used for exhausting air; and the noise reduction device is arranged on the exhaust pipe.

In these embodiments, the exhaust may be performed by providing an exhaust passage, wherein the exhaust passage is preferably an exhaust pipe. And the noise reduction device can reduce the noise of the air exhaust device 6 and improve the user experience.

In any of the above embodiments, preferably, the suction pump is provided on the main body assembly 3 and/or the food processing cup 4, or the suction pump is provided independently from the main body assembly 3 and/or the food processing cup 4.

In these embodiments, the air pump can be disposed at any position, specifically, for example, on the main body assembly 3 and the food processing cup 4, but of course, the air pump can also be disposed independently of the main body assembly 3 and the food processing cup 4, i.e., the air pump can also be disposed externally to the main body assembly 3 and the food processing cup 4.

Wherein preferably the suction pump is arranged within the main machine assembly 3. Thus, the air suction pump can be hidden and installed in the host machine component 3, so that the internal structure of the product can be more reasonable and compact.

In any of the above embodiments, preferably, the suction passage 7 is a suction pipe.

In these embodiments, the air exhaust channel 7 is preferably an air exhaust tube, such as a hose, but the air exhaust channel 7 may be other channel structures disposed on the housing of the food processor.

In any of the above embodiments, preferably, the suction pump is an electric pump or a manual pump or a foot pump.

In such embodiments, the pump is preferably an electric pump, which can be pumped with an electrically driven pump, thereby eliminating the need for manual pumping, although the pump can be a manual pump or a foot pump.

In any of the above embodiments, preferably, the suction pump is a vacuum pump.

In these embodiments, the air pump is preferably a vacuum pump, which is easy to purchase because the vacuum pump is common, and the vacuum pump has a strong vacuum pumping capability, so that a large amount of air inside the food processor can be pumped out to ensure the vacuum effect inside the food processing cup 4 when processing food materials.

Wherein, preferably, the driving device 32 is preferably a motor, the motor is installed in the main machine component 3, and a motor gasket is arranged between the motor and the main machine component 3.

In any of the above embodiments, the food processor is preferably a juice extractor or a juicer, but the food processor may also be other structures besides a juice extractor or a juicer, such as a juicer, a wall breaking machine, and the like.

In the description of the present specification, the terms "connect", "mount", "fix", and the like are to be understood in a broad sense, for example, "connect" may be a fixed connection, a detachable connection, or an integral connection; may be directly connected or indirectly connected through an intermediate. 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 description herein, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means 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 invention. In this specification, the schematic representations of the terms used above do not necessarily 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 above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (16)

1. The utility model provides a connect material cup subassembly for food processor, food processor includes the host computer subassembly and can installs food processing cup on the host computer subassembly, be provided with discharging channel on the food processing cup, its characterized in that connects the material cup subassembly to include:

the receiving cup is detachably arranged on the host machine component corresponding to the outlet of the discharging channel;

the sealing element comprises a mounting ring and a sealing lip, the mounting ring is detachably sleeved and mounted on the cup opening end of the receiving cup, one end of the sealing lip is connected with the inner side wall of the mounting ring, the other end of the sealing lip is separated from the mounting ring and obliquely extends from the inner side of the mounting ring to the outer side of the mounting ring from the direction away from the discharging channel to the direction close to the discharging channel;

when the receiving cup is mounted on the main machine assembly corresponding to the discharging channel and the food processing cup is vacuumized, the sealing lip edge can be sealed at the outlet of the discharging channel under the action of atmospheric pressure so as to enable the receiving cup to be in sealed communication with the discharging channel, and the mounting ring and the sealing lip edge are of an integrated structure.

2. The receiving cup assembly of claim 1,

the thickness of the sealing lip edge in the axial direction of the material receiving cup is T, wherein T is more than or equal to 0.5mm and less than or equal to 2 mm.

3. The receiving cup assembly of claim 1,

the included angle between one surface of the sealing lip close to the mounting ring and the axis of the mounting ring is alpha, wherein the alpha is more than or equal to 5 degrees and less than 90 degrees, or more than or equal to 45 degrees and less than or equal to 90 degrees, or more than or equal to 60 degrees and less than or equal to 85 degrees, or more than or equal to 75 degrees and less than or equal to 80 degrees.

4. The receiving cup assembly of claim 1,

the cup mouth of the receiving cup is provided with a flanging which is bent outwards, the inner side wall of the mounting ring is provided with an annular groove, and the mounting ring can be mounted on the flanging in a coating mode through the annular groove.

5. The receiving cup assembly as recited in claim 4,

one or more convex ribs which are arranged at intervals are arranged on the side wall surface of the annular groove far away from the sealing lip edge.

6. A receiving cup assembly as recited in claim 5,

the convex rib is an annular convex rib arranged along the circumferential direction of the mounting ring; and/or

The number of the convex ribs is 1 to 3.

7. The receiving cup assembly as recited in claim 4,

and one side wall surface of the annular groove close to the sealing lip is arranged from the outer side of the mounting ring to the inner side of the mounting ring in an inclined manner to one side far away from the sealing lip.

8. A receiving cup assembly as recited in claim 7,

an included angle between one side wall surface of the annular groove close to the sealing lip edge and the axis of the mounting ring is beta, wherein beta is more than or equal to 70 degrees and less than or equal to 90 degrees; and/or

The inner end of one side wall surface of the annular groove close to the sealing lip edge is an arc-shaped surface which is inclined from the outer side of the mounting ring to the inner side of the mounting ring and extends to one side far away from the sealing lip edge.

9. The receiving cup assembly according to any one of claims 1 to 8,

a groove is formed in one face, close to the sealing lip edge, of the mounting ring.

10. The receiving cup assembly according to any one of claims 1 to 8,

the discharging channel comprises a juice discharging channel, and the material receiving cup comprises a juice receiving cup; and/or

The discharging channel comprises a slag discharging channel, and the material receiving cup comprises a slag receiving cup.

11. A food processor, comprising:

the host machine component is internally provided with a driving device;

the food processing cup can be arranged on the main machine component, and a discharge channel is arranged on the food processing cup; and

the working screw is arranged in the food processing cup and can be in driving connection with the main machine component;

the receiving cup assembly as claimed in any one of claims 1 to 10, wherein the receiving cup assembly is mounted to the host assembly in correspondence with the outlet channel.

12. The food processor of claim 11, wherein the food processing cup is a sealable food processing cup, the food processor further comprising:

an air extraction device;

one end of the air exhaust channel is communicated with the interior of the food processing cup, and the other end of the air exhaust channel is connected with the air exhaust device;

wherein the air exhaust device can exhaust air in the food processing cup through the air exhaust channel.

13. The food processor of claim 11,

the host machine component is provided with a bearing table, and the bearing table is used for bearing the receiving cup of the receiving cup component;

an avoidance notch is formed in the host machine component corresponding to the material receiving cup, and the bearing platform is located at one end, far away from the discharging channel, of the avoidance notch;

when the receiving cup is placed on the bearing table, the receiving cup is located in the avoiding notch.

14. The food processor of any one of claims 11 to 13,

the end face of the outlet of the discharge channel of the food processing cup is provided with a sealing part, and the sealing part can be matched with the sealing lip edge of the receiving cup assembly so as to enable the receiving cup to be communicated with the discharge channel in a sealing mode.

15. The food processor of any one of claims 11 to 13, wherein the discharge channel is a tapping channel, the receiving cup is a receiving cup, and the tapping channel comprises:

the slag inlet is arranged on the food processing cup;

the inlet of the slag discharging channel is communicated with the slag inlet;

the food processing cup is characterized in that the food processing cup is provided with a food processing channel, a food processing cup is arranged in the food processing cup, and the food processing cup is provided with a food processing hole and a food processing groove.

16. The food processor of claim 15,

and the linear distance between the edge of one side of the slag inlet close to the slag discharge channel and the edge of one side of the slag discharge channel close to the slag inlet is L, wherein L is more than 0mm and less than or equal to 40 mm.

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