CN207412000U - Cup body component and food processor - Google Patents

Abstract

The utility model provides a kind of cup body component and food processor, and cup body component includes：It squeezes the juice cup body；It squeezes the juice cup lid, can releasably cover mounted in squeezing the juice on cup body, be provided with feed inlet；Feed intake cup, and the first feeding port is provided in the first end for the cup that feeds intake, and the cup that feeds intake can be rotatably mounted in feed inlet, so that the cup that feeds intake can rotate in feed inlet；It squeezes the juice screw rod, screw rod of squeezing the juice is mounted in squeezing cup body；Wherein, a diameter of D1 of feed inlet, the radius of gyration of the cup in feed inlet that feed intake are R, R >=D1/2.The program is by rationally setting the total height of cup in the axial direction that feeds intake, so that the actual rotation radius for the cup that feeds intake is more than or equal to the radius of feed inlet, so as to which the purpose for reducing the maximal clearance to feed intake between cup and the inner wall of feed inlet just can be played, so as to really reduce the actual aperture size of feed inlet, so as to improve the safety coefficient of product, security risk is reduced.

Description

Cup body component and food processor

Technical field

The utility model is related to kitchen utensils field, in particular to a kind of cup body component and food processor.

Background technology

Heavy caliber Normal juice machine on the market at present since its charging bore is larger, thus is not required to when squeezing food juice Want user that food materials are cut into fine grained chippings, it is not required that user is pushed food materials into squeezing cup using stick pusher, thus its by To the favor of more and more users, but this kind of heavy caliber Normal juice machine, since its feed inlet is bigger, in Normal juice machine Hand is extend into Normal juice machine by children easily at feed inlet during work, so as to easily threaten the safety of children, thus is reduced User experience.Meanwhile relevant industries also provide, the opening of the feed inlet of Normal juice machine should be less than being equal to 45mm, so that should Kind Normal juice machine cannot meet the requirement of relevant industries.

Therefore, a kind of opening for the feed inlet that can reduce heavy caliber Normal juice machine how is designed, so that product can expire The heavy caliber Normal juice machine of the requirement of sufficient relevant industries and the security risk of reduction product becomes current urgent problem to be solved.

Utility model content

The utility model is intended at least solve one of technical problem present in the prior art or correlation technique.

Therefore, one of the utility model has been designed to provide a kind of cup body component.

Another of the utility model has been designed to provide a kind of food processor for including above-mentioned cup body component.

In view of this, the embodiment of the utility model first aspect provides a kind of cup body component, for food processor, The cup body component includes：It squeezes the juice cup body；It squeezes the juice cup lid, can releasably cover and squeeze the juice mounted in described on cup body, the squeezing cup It covers and is provided with feed inlet；Feed intake cup, and the first feeding port is provided in the first end of the cup that feeds intake, and the cup that feeds intake can turn It is mounted on dynamicly in the feed inlet, so that the cup that feeds intake can rotate in the feed inlet；It squeezes the juice screw rod, it is described to squeeze the juice Screw rod is mounted in the squeezing cup body；Wherein, a diameter of D1 of the feed inlet, the cup that feeds intake is in the feed inlet The radius of gyration is R, the R >=D1/2.

According to the cup body component that the embodiment of the utility model first aspect provides, available for foods such as heavy caliber Normal juice machines In processor, specifically, cup body component includes squeezing the juice cup body and lid cup lid and is rotationally installed mounted in squeezing the juice on cup body of squeezing the juice Feed intake cup and the screw rod of squeezing the juice for being crushed to food materials in the feed inlet for squeezing the juice cup lid, wherein, the cup that feeds intake is used In feeding intake, i.e., the food materials such as fruit can first be placed on and feed intake in cup by user, then can be by rotating the cup that feed intake by foods such as fruit Material is put into along cup lid of squeezing the juice in squeezing cup body.Meanwhile can by rationally setting the total height of cup in the axial direction that feeds intake so that The actual rotation radius of cup of feeding intake is more than or equal to the radius of feed inlet, i.e., so that R >=D1/2, feeds intake cup so as to play reduction The purpose of maximal clearance between the inner wall of feed inlet, so as to really reduce the actual aperture size of feed inlet, so as to Reach the safety coefficient for improving product, reduce the purpose of the security risk of product.

Wherein it is preferred to the cross-sectional area of the screw rod of squeezing the juice reduces from top to bottom, the inner cavity of the cup body of squeezing the juice is from upper To lower increase.Wherein, by the inner cavity for cup body of squeezing the juice is reduced from top to bottom and by the cross-sectional area for screw rod of squeezing the juice from top to bottom Increase, the up big and down small and screw rod that will squeeze the juice that the cup body that will squeeze the juice is set set up-small and down-big so that cup body of squeezing the juice is with squeezing the juice Gap between screw rod can reduce from top to bottom, it is thus possible to the more crush the more broken in squeezing cup body by food materials, it is thus possible to Treatment effect of the cup body to food materials of squeezing the juice is improved, and then the crushing juice rate of product can be improved.

In addition, the cup body component in above-described embodiment provided by the utility model can also have following supplementary technology spy Sign：

In the above-mentioned technical solutions, it is preferable that be provided with flange on the end face of the first end of the cup that feeds intake and (be arranged on Feed intake cup the first feeding port edge on protrusion), the flange feed intake described in cup axial direction to away from the throwing The direction of the second end of material cup extends, and corresponding to the flange on the side wall of the feed inlet is provided with escape groove, the escape groove Stretched from the madial wall of the feed inlet to the cup lid extension of squeezing the juice, and it is described feed intake cup rotate when, the escape groove can be kept away Get out of the way the flange.

In the technical scheme, when the cup that feeds intake is located at vertical position, the cup that feeds intake almost is close to the inner wall of feed inlet, therefore, The gap to feed intake between cup and feed inlet is very small, but when the existing cup that feeds intake turns to laterally disposed in feed inlet, throws It is present with larger gap between the inner wall of the end face of the first end of material cup, i.e. upper surface and feed inlet, so as on the one hand cause The hand of children can be extend into squeezing cup body by the gap, so as to increase the security risk of product, while but also production Product can not meet the regulation of relevant industries, and the application is on first end, that is, upper end of feeding port by setting flange, thus work as It, just can be using flange come shield portions feed inlet, so as to relatively reduced when the cup that feeds intake turns to horizontal in feed inlet The maximal clearance to feed intake between the outer wall of cup and the inner wall of feed inlet, can relatively reduced feed inlet actual aperture size, So that children can not protrude into hand in squeezing cup, thus the safety coefficient of product just can be improved, the safety for reducing product is hidden Suffer from.It meanwhile can also be by rationally setting the size of flange, so that between the maximum between the outer wall for the cup that feeds intake and the inner wall of feed inlet Gap can be less than or equal to 60mm, so that product disclosure satisfy that the requirement of relevant industries.

Wherein, specifically, can conjunction thus can be passed through by the radius of gyration R for setting flange to increase when the cup that feeds intake rotates Reason sets flange along the height in the axial direction for the cup that feeds intake, so that the actual rotation radius for the cup that feeds intake is more than the radius of feed inlet, i.e., D1/2, i.e., so that feeding intake cup when rotating, flange is merely able to realize flange by the escape groove for covering setting in squeezing cup It rotates, so as to the purpose for reducing the maximal clearance to feed intake between cup and the inner wall of feed inlet really be played, so as to very The positive actual aperture size for reducing feed inlet so as to reach the safety coefficient for improving product, reduces the mesh of the security risk of product 's.

Wherein, by arc knot between the radial direction of flange along the cup that feeds intake is set both sides and the end face of the first end for the cup that feeds intake Structure connects, this kind is set so that the structure of feeding port is more rationally beautiful.

Wherein it is preferred to the axial direction of flange and feeding port is mutually parallel, i.e. the vertical setting straight up of flange.

In the above-mentioned technical solutions, it is preferable that the angle that the cup that feeds intake can rotate in the feed inlet is α, In, 0 °≤α≤180 °.

In the technical scheme, the angle that the cup that feeds intake can rotate in the feed inlet is α, wherein, 0 °≤α≤ 180 °, this kind set so that feed intake cup maximum be merely able to rotate 180 °, can just turn upside down, so as to by first throw Food materials in material mouth are put into squeezing cup body, this kind is set, since the cup maximum that feeds intake is merely able to turn to 180 °, throw Material cup can be automatically stopped rotation after turning to 180 °, the cup that feeds intake be thus prevented to rotate excessive, and cannot throw food materials completely Enter to squeezing cup is in vivo and happen.

In the above-mentioned technical solutions, it is preferable that a diameter of D1 of the feed inlet, wherein 45mm≤D1≤100mm.

In the technical scheme, the diameter of feed inlet is less than or equal to more than or equal to 45mm in the range of 100mm so that into The opening of material mouth is larger, it is thus possible to and the food materials such as fruit are directly thrown into and are fed intake in cup, thus in actual juice-extracting process, just User is not required to pre-process fruit etc., for example user is not required to be first cut into fine grained chippings by apple etc. is pre-, thus just can The workload of user is reduced, so as to which user experience just can be improved.

In the above-mentioned technical solutions, it is preferable that it is provided with the second feeding port in the second end of the cup that feeds intake, described second A diameter of D2 of feeding port, wherein, 0mm ＜ D2≤45mm.

In the technical scheme, by setting the second feeding port in the lower end of the second end of cup that feeds intake, that is, the cup that feeds intake, so as to Also can be fed intake using the second feeding port, specifically, can by the smaller of the diameter design of the second feeding port, so as to The smaller food materials of particle are put by smaller second feeding port in cup body of squeezing the juice, so as to feed intake, cup just can be to a variety of The food materials of granular size are launched, so that user can select different feeding ports according to the specific granular size of food materials The dispensing of food materials is carried out, even food materials particle is larger, then by rotating the cup that feeds intake, to carry out food materials using the second feeding port It launches, if food materials particle is smaller, the cup that feeds intake need not be rotated, and food materials is made directly to be put by the second feeding port of lower end In squeezing cup body, just do not have to rotate the dispensing that food materials can be completed in the cup that feeds intake hence for the smaller food materials of particle, so that The operation of user is simpler, conveniently.Wherein it is preferred to a diameter of D2 of the second feeding port is preferably less than or equal to more than 0mm In the range of 45mm, specifically, such as D2 more than 10mm be less than or equal to 45mm in the range of, further, it is preferable that D2 is equal to 20mm or D2 is equal to 30mm or D2 and is equal to 45mm.

In above-mentioned multiple technical solutions, it is preferable that the quantity of the flange is two, and two flanges are in the throwing It is symmetrical arranged in material cup.

In the technical scheme, can be in the first end of cup that feeds intake, that is, the upper end for the cup that feeds intake is symmetrical arranged two flanges, so as to The purpose for the openings of sizes for reducing feed inlet can be realized using two symmetrically arranged flanges simultaneously.

In above-mentioned multiple technical solutions, it is preferable that the flange is an integral structure with the cup that feeds intake.

In those technical solutions, flange is preferably an integral structure with the cup that feeds intake, because of the mechanical property being an integral structure It can be good, it is thus possible to the bonding strength for improving flange between the cup that feeds intake, meanwhile, flange and the cup that feeds intake can be made into integration, batch Production is measured into, to improve the production and processing efficiency of product, reduces the production and processing cost of product, in addition, flange and the cup one that feeds intake The seamless connection, it can be achieved that between flange and the cup that feeds intake, thus the more conducively cleaning of product is made.

In above-mentioned multiple technical solutions, it is preferable that the rotary centerline of the flange and the cup that feeds intake is mutually perpendicular to.

In the technical scheme, the feed intake both sides of cup are rotatably mounted on the madial wall of feed inlet, and flange is with feeding intake The rotary centerline of cup is mutually perpendicular to, i.e., is mutually set between flange and the position that cup and feed inlet are rotatablely connected that feeds intake in 90 °, And flange can be only in this way arranged on the rotary centerline for the cup that feeds intake, therefore can be fed intake using flange to increase The radius of gyration of cup, so that the radius of gyration for the cup that feeds intake is more than the radius of feed inlet.

In above-mentioned multiple technical solutions, it is preferable that be respectively arranged on the both sides of the cup that feeds intake the first rotation axis and Second rotation axis is provided with the first mounting hole and the second mounting hole on the inner wall of the feed inlet, and first rotation axis is located at In first mounting hole, second rotation axis is located in second mounting hole, so that the cup that feeds intake rotationally is installed In the feed inlet, first rotation axis and second rotation axis are conllinear；Wherein, it is provided in first mounting hole Spring, the spring are set in first rotation axis, and the spring is used to make described feed intake after the cup that feeds intake rotates Cup resets.

In those technical solutions, a rotation axis is set respectively on the both sides that can be oppositely arranged in the cup that feeds intake, and into Corresponding mounting hole is set on the madial wall of material mouth, so as to correspond to rotation axis, i.e. the first rotation axis and the second rotation axis Ground is installed in the first mounting hole and the second mounting hole, so that the cup that feeds intake can be rotatably mounted in feed inlet.And by Spring is set in the first mounting hole, specifically, such as torsional spring, so as to feed intake, cup will make spring that elastic become occur when rotating Shape, and then after external force disappearance, the cup that feeds intake just can drive the cup reset that feeds intake under the action of the inertia force of spring, so as to just can It is enough to realize cup the automatically reseting after rotation that feed intake.Meanwhile by setting spring, certain preload can be also played to the cup that feeds intake Effect thus prevents what the cup that feeds intake rocked back and forth to happen.

In above-mentioned multiple technical solutions, it is preferable that cup body component further includes：Knob, the knob are mounted on the squeezing On juice cup lid, and it is connected with the cup that feeds intake；Wherein, the cup rotation that feeds intake can be driven by rotating the knob.

In those technical solutions, a knob can be set on scum juice cup lid, so as to be driven by turning knob The cup that feeds intake rotates, and so as to just not have to user to pushing directly on the cup that feeds intake with hand in the prior art, and pushes directly on throwing with hand Material cup, unusual unhealthy health, thus by setting knob, the clean hygiene of product can be improved.

In above-mentioned multiple technical solutions, it is preferable that second rotation axis is polygon shaft, is set on the knob more Side shape hole, one end of the polygon shaft is inserted into the polygonal hole, so that knob is connected with the cup that feeds intake.

In those technical solutions, the second rotation axis is polygon shaft, such as regular hexagon axis, octagon axis etc., together When, a corresponding polygonal hole can be set on knob, so as to which knob just can be by between polygon shaft and polygonal hole Cooperation, realize the drive connection between knob and the cup that feeds intake.And by setting the second rotation axis in polygon shaft, Neng Gouzeng Cooperation area greatly between knob and the second rotation axis, it is thus possible to the which more rotation for the cup that feeds intake is realized in labour-saving.

In above-mentioned multiple technical solutions, it is preferable that knob is circular knob, knob it is a diameter ofWherein,

In the technical scheme, knob can be arranged to circle, thus beneficial to user's operation, meanwhile, preferably by knob DiameterIt is disposed greater than being equal to 25mm less than or equal in the range of 45mm, this kind of size is especially advantageous for user and is grasped manually Make, it is thus possible to improve user experience.

In above-mentioned multiple technical solutions, it is preferable that stop configurations are provided on the flange, the stop configurations are used for Madial wall when the cup that feeds intake is rotated with the feed inlet coordinates, the angle that can be rotated with the cup that feeds intake described in restriction.

In the technical scheme, a stop configurations, such as protrusion can be set in the outside wall surface of flange, so as to sharp /V is carried out to the rotational angle for the cup that feeds intake with the stop configurations, feeds intake what cup can rotate so as to be accurately defined out Maximum angle.

In the above-mentioned technical solutions, it is preferable that between the outside wall surface of the cup that feeds intake and the internal face of the feed inlet Gap is more than 0mm and is less than or equal to 60mm；Or the gap between the outside wall surface of the cup that feeds intake and the internal face of the feed inlet is big It is less than or equal to 45mm in 0mm；Or the gap between the outside wall surface of the cup that feeds intake and the internal face of the feed inlet is small more than 0mm In equal to 30mm.

In the technical scheme, feed intake cup flange it is horizontal when and the inner wall of feed inlet between gap it is maximum, therefore, can In the range of maximal clearance L is arranged on 30mm-60mm, it is further preferred that can maximal clearance L be arranged to 30mm- 45mm。

The embodiment of the utility model second aspect proposes a kind of food processor, including：Host component；And first party The cup body component that face any embodiment provides, the cup body component can be mounted in the host component.

The food processor of embodiment according to the present utility model, the cup body provided including any one of first aspect embodiment Component, so as to which the food processor that the embodiment of the utility model second aspect provides has the cup of any of the above-described embodiment offer Whole advantageous effects of body component, details are not described herein.

In the above-mentioned technical solutions, it is preferable that the food processor include Normal juice machine and juice extractor, Normal juice machine and it is specific Can be heavy caliber Normal juice machine, certainly, food processor also can be with the other products outside Normal juice machine and juice extractor.

The additional aspect and advantage of the utility model will become apparent or new by this practicality in following description section The practice of type is recognized.

Description of the drawings

The above-mentioned and/or additional aspect and advantage of the utility model will in the description from combination accompanying drawings below to embodiment Become apparent and be readily appreciated that, wherein：

Fig. 1 is the part-structure schematic diagram of cup body component described in one embodiment of the utility model；

Fig. 2 is another part structure diagram of cup body component described in one embodiment of the utility model；

Fig. 3 is another part-structure schematic diagram of cup body component described in one embodiment of the utility model；

Fig. 4 is the enlarged structure schematic diagram at the A in Fig. 1；

Fig. 5 is the another part-structure schematic diagram of cup body component described in one embodiment of the utility model；

Fig. 6 is the structure diagram of the cup that feeds intake of cup body component described in one embodiment of the utility model.

Wherein, the correspondence between the reference numeral in Fig. 1 to Fig. 6 and component names is：

1 squeezes the juice cup lid, 12 feed inlets, 122 escape groove, and 2 feed intake cup, 22 flanges, 222 stop configurations, 24 first feeding ports, 26 second feeding ports, 282 first rotation axis, 284 second rotation axis, 3 knobs, 32 polygonal holes, 4 springs.

Specific embodiment

In order to be more clearly understood that the above-mentioned purpose of the utility model, feature and advantage, below in conjunction with the accompanying drawings and have The utility model is further described in detail in body embodiment.It should be noted that in the case where there is no conflict, this Shen The feature in embodiment and embodiment please can be mutually combined.

Many details are elaborated in the following description in order to fully understand the utility model, still, this practicality New to be implemented using other different from other modes described here, therefore, the scope of protection of the utility model is simultaneously From the limitation of following public specific embodiment.

Referring to Fig. 1 to Fig. 6 descriptions according to the cup body component and food preparation of the utility model some embodiments offer Machine.

As shown in Figures 1 to 6, the embodiment of the utility model first aspect provides a kind of cup body component, for food Processor, cup body component include：It squeezes the juice cup body；It squeezes the juice cup lid 1, can releasably cover mounted in squeezing the juice on cup body, squeeze the juice on cup lid 1 It is provided with feed inlet 12；Feed intake cup 2, the first feeding port 24 is provided in the first end for the cup 2 that feeds intake, feeding intake cup 2 can be rotationally In feed inlet 12, so that the cup 2 that feeds intake can rotate in feed inlet 12；It squeezes the juice screw rod, screw rod of squeezing the juice is mounted on and squeezes the juice In cup body；Wherein, a diameter of D1 of feed inlet 12, the radius of gyration of the cup 2 in the feed inlet 12 that feed intake be R, the R >= D1/2。

According to the cup body component that the embodiment of the utility model first aspect provides, available for foods such as heavy caliber Normal juice machines In processor, specifically, cup body component includes squeezing the juice cup body and lid cup lid 1 and is rotationally installed mounted in squeezing the juice on cup body of squeezing the juice Feed intake cup 2 and the screw rod of squeezing the juice for being crushed to food materials in the feed inlet 12 for squeezing the juice cup lid 1, wherein, the cup 2 that feeds intake is used In feeding intake, i.e., the food materials such as fruit can first be placed on and feed intake in cup 2 by user, then can be by rotating the cup 2 that feed intake by fruit etc. Food materials are put into along cup lid 1 of squeezing the juice in squeezing cup body.Meanwhile the total height of cup 2 in the axial direction that can be fed intake by setting, so that Feed intake cup 2 actual rotation radius be more than feed inlet 12 radius, i.e. D1/2, so as to play reduction feed intake cup 2 with feed The purpose of maximal clearance between the inner wall of mouth 12, so as to reduce the actual aperture size of feed inlet 12, carries so as to reach The safety coefficient of high product reduces the purpose of the security risk of product.

Wherein it is preferred to which the inner cavity for cup body of squeezing the juice reduces from top to bottom, the cross-sectional area for screw rod of squeezing the juice increases from top to bottom Greatly.Wherein, by reducing the inner cavity for cup body of squeezing the juice from top to bottom and increasing the cross-sectional area for screw rod of squeezing the juice from top to bottom, i.e., Up big and down small and the up-small and down-big of screw rod setting that will squeeze the juice that the cup body that will squeeze the juice is set so that squeeze the juice between cup body and screw rod of squeezing the juice Gap can reduce from top to bottom, it is thus possible to food materials the more are crushed the more broken in squeezing cup body, it is thus possible to raising squeeze the juice Cup body can improve the crushing juice rate of product to the treatment effects of food materials.

In the above-described embodiments, feed intake cup 2 first end end face on be provided with flange 22, flange 22 is along the cup 2 that feeds intake Axial direction extends to the direction of the second end away from the cup 2 that feeds intake, and corresponding flange 22 is provided with avoidance on the side wall of feed inlet 12 Slot 122, escape groove 122 extend from the madial wall of feed inlet 12 to outside cup lid 1 of squeezing the juice, and feed intake cup 2 rotate when, escape groove 122 Flange 22 can be avoided open.

In this embodiment, when the cup 2 that feeds intake is located at vertical position, the cup 2 that feeds intake almost is close to the inner wall of feed inlet 12, because This, the gap to feed intake between cup 2 and feed inlet 12 is very small, but the cup 2 that existing ought feed intake turns to transverse direction in feed inlet 12 During placement, it is present with larger gap between the end face of the first end for the cup 2 that feeds intake, the i.e. inner wall of upper surface and feed inlet 12, from And on the one hand the hand of children is extend by the gap in squeezing cup body, so as to increase the security risk of product, Simultaneously but also product can not meet the regulation of relevant industries, and the application on first end, that is, upper end of feeding port by setting Flange 22, thus when the cup 2 that feeds intake turns to horizontal in feed inlet 12, it just can be using flange 22 come shield portions feed inlet 12, it, can be relatively reduced so as to the maximal clearance between the outer wall of the relatively reduced cup 2 that feeds intake and the inner wall of feed inlet 12 The actual aperture size of feed inlet 12, so that children can not protrude into hand in squeezing cup, thus just can improve the peace of product Overall coefficient reduces the security risk of product.It meanwhile can also be by rationally setting the size of flange 22, so that the outer wall for the cup 2 that feeds intake Maximal clearance between the inner wall of feed inlet 12 can be less than or equal to 60mm, so that product disclosure satisfy that wanting for relevant industries It asks.

Wherein, specifically, thus can be passed through by the radius of gyration R for setting flange 22 to increase when the cup 2 that feeds intake rotates Flange 22 is rationally set along the height in the axial direction for feeding intake cup 2, so that the actual rotation radius for the cup 2 that feeds intake is more than feed inlet 12 Radius, i.e. D1/2, i.e., so that feeding intake cup 2 when rotating, flange 22 is merely able to by the escape groove that is set on cup lid 1 of squeezing the juice 122 realize the rotation of flange 22, so as to really play the maximal clearance for reducing and feeding intake between cup 2 and the inner wall of feed inlet 12 Purpose, so as to really reduce feed inlet 12 actual aperture size, so as to reach improve product safety coefficient, reduce The purpose of the security risk of product.

Wherein, arc is passed through between the radial direction of flange 22 along the cup 2 that feeds intake is set both sides and the end face of the first end for the cup 2 that feeds intake Shape structure connects, this kind is set so that the structure of feeding port is more rationally beautiful.

Wherein it is preferred to flange 22 and the axial direction of feeding port are mutually parallel, i.e. the vertical setting straight up of flange 22.

In the above embodiment, it is preferable that the angle that the cup 2 that feeds intake can rotate in feed inlet 12 is α, wherein, 0 °≤α ≤180°。

In this embodiment, the angle that the cup 2 that feeds intake can rotate in feed inlet 12 is α, wherein, it 0 °≤α≤180 °, should It kind sets so that 2 maximum of cup that feeds intake is merely able to rotate 180 °, can just turn upside down, so as to by the first feeding port 24 Interior food materials are put into squeezing cup body, this kind is set, and due to feeding intake, 2 maximum of cup is merely able to turn to 180 °, feed intake cup 2 turn to 180 ° after can be automatically stopped rotation, the cup 2 that feeds intake is thus prevented to rotate excessively, and food materials cannot be fully immersed It is happened to squeezing cup is in vivo.

In the above embodiment, it is preferable that as shown in figure 3, a diameter of D1 of feed inlet 12, wherein 45mm≤D1≤ 100mm。

In this embodiment, the diameter of feed inlet 12 is less than or equal to more than or equal to 45mm in the range of 100mm so that into The opening of material mouth 12 is larger, it is thus possible to and the food materials such as fruit are directly thrown into and are fed intake in cup 2, thus in actual juice-extracting process In, just user is not required to pre-process fruit etc., for example user is not required to be first cut into fine grained chippings by apple etc. is pre-, thus just The workload of user can be reduced, so as to which user experience just can be improved.

In the above embodiment, it is preferable that as shown in figure 3, be provided with the second feeding port 26 in the second end for the cup 2 that feeds intake, A diameter of D2 of second feeding port 26, wherein, 0mm ＜ D2≤45mm.

In this embodiment, by setting the second feeding port 26 in the lower end of the second end of cup 2 that feeds intake, that is, the cup 2 that feeds intake, from And can also be fed intake using the second feeding port 26, specifically, can by the smaller of the diameter design of the second feeding port 26, from And the smaller food materials of particle can be put by smaller second feeding port 26 in cup body of squeezing the juice, so as to feed intake cup 2 just The food materials of a variety of granular sizes can be launched, so that user can select not according to the specific granular size of food materials With feeding port carry out the dispensing of food materials, even food materials particle is larger, then by rotating the cup 2 that feeds intake, to feed intake using second Mouthfuls 26 carry out food materials dispensing, if food materials particle is smaller, need not rotate the cup 2 that feeds intake, and make food materials directly by lower end Second feeding port 26 is put into squeezing cup body, just can be completed hence for the smaller food materials of particle without rotating the cup 2 that feeds intake The dispensing of food materials, so that the operation of user is simpler, conveniently.Wherein it is preferred to a diameter of D2 of the second feeding port 26 It is preferred that in the range of 45mm is less than or equal to more than 0mm, specifically, for example D2 is being less than or equal to the scope of 45mm more than 10mm It is interior, further, it is preferable that D2 is equal to 20mm or D2 and is equal to 30mm or D2 equal to 45mm.

In above-mentioned multiple embodiments, it is preferable that as shown in fig. 6, the quantity of flange 22 is two, two flanges 22 are being thrown It is symmetrical arranged in material cup 2.

In this embodiment, two flanges 22 can be symmetrical arranged in the first end of cup 2 that feeds intake, that is, the upper end for the cup 2 that feeds intake, from And the purpose for the openings of sizes for reducing feed inlet 12 can be realized using two symmetrically arranged flanges 22 simultaneously.

In above-mentioned multiple embodiments, it is preferable that as shown in Figures 1 to 6, flange 22 is an integral structure with the cup 2 that feeds intake.

In those embodiments, flange 22 is preferably an integral structure with the cup 2 that feeds intake, because of the mechanical property being an integral structure It can be good, it is thus possible to the bonding strength for improving flange 22 between the cup 2 that feeds intake, meanwhile, it can be by flange 22 and 2 one system of cup that feeds intake Into in batches into production, to improve the production and processing efficiency of product, the production and processing cost of product being reduced, in addition, flange 22 is with feeding intake Cup 2 is made into integration the seamless connection, it can be achieved that between flange 22 and the cup 2 that feeds intake, thus the more conducively cleaning of product.

In above-mentioned multiple embodiments, it is preferable that as shown in Figure 3 and Figure 6, the rotary centerline of flange 22 and the cup 2 that feeds intake It is mutually perpendicular to.

In this embodiment, the feed intake both sides of cup 2 are rotatably mounted on the madial wall of feed inlet 12, and flange 22 is with throwing The rotary centerline of material cup 2 is mutually perpendicular to, i.e., is mutually between flange 22 and the position that cup 2 and feed inlet 12 are rotatablely connected that feeds intake 90 ° of settings, and flange 22 can be only in this way arranged on the rotary centerline for the cup 2 that feeds intake, therefore can utilize convex Edge 22 increases the radius of gyration for the cup 2 that feeds intake, so that the radius of gyration of the cup 2 that feeds intake is more than the radius of feed inlet 12.

In above-mentioned multiple embodiments, it is preferable that as shown in Figure 1 and Figure 4, is respectively arranged on the both sides for the cup 2 that feeds intake One rotation axis 282 and the second rotation axis 284, are provided with the first mounting hole and the second mounting hole on the inner wall of feed inlet 12, and first Rotation axis 282 is located in the first mounting hole, and the second rotation axis 284 is located in the second mounting hole, so that the cup 2 that feeds intake rotationally is installed In feed inlet, the first rotation axis 282 and the second rotation axis 284 are conllinear；Wherein, spring 4, spring are provided in the first mounting hole 4 are set in the first rotation axis 282, and spring 4 resets for the cup 2 that makes to feed intake after the cup 2 that feeds intake rotates.

In those embodiments, a rotation axis is set respectively on the both sides that can be oppositely arranged in the cup 2 that feeds intake, and is being fed Corresponding mounting hole is set on the madial wall of mouth 12, thus can be by rotation axis, i.e. the first rotation axis 282 and the second rotation axis 284 are accordingly installed in the first mounting hole and the second mounting hole, so that the cup 2 that feeds intake can be rotatably mounted at feed inlet 12 It is interior.And by setting spring 4 in the first mounting hole, specifically, such as torsional spring, so as to feed intake, cup 2 will make bullet when rotating Flexible deformation occurs for spring 4, and then after external force disappearance, the cup 2 that feeds intake just can drive under the action of the inertia force of spring 4 to feed intake Cup 2 resets, so as to just realize the automatically reseting after rotation of cup 2 that feed intake.It, also can be to throwing meanwhile by setting spring 4 Material cup 2 plays the role of certain preload, thus prevents what the cup 2 that feeds intake rocked back and forth to happen.

In above-mentioned multiple embodiments, it is preferable that as shown in figure 4, cup body component further includes：Knob 3, knob 3 are mounted on It squeezes the juice on cup lid 1, and is connected with the cup 2 that feeds intake；Wherein, turning knob 3 can drive the cup 2 that feeds intake to rotate.

In those embodiments, a knob 3 can be set on scum juice cup lid, so as to be driven by turning knob 3 The cup 2 that feeds intake rotates, and so as to just not have to user to pushing directly on the cup 2 that feeds intake with hand in the prior art, and is pushed directly on hand Feed intake cup 2, unusual unhealthy health, thus by setting knob 3, can improve the clean hygiene of product.

In above-mentioned multiple embodiments, it is preferable that as shown in fig. 6, the second rotation axis 284 is polygon shaft, such as Fig. 5 institutes Show, polygonal hole 32 is set on knob 3, and one end of polygon shaft is inserted into polygonal hole 32, so that knob 3 is with feeding intake Cup 2 connects.

In those embodiments, the second rotation axis 284 is polygon shaft, such as regular hexagon axis, octagon axis etc., together When, a corresponding polygonal hole 32 can be set on knob 3, so as to which knob 3 just can pass through polygon shaft and polygonal hole The drive connection between knob 3 and the cup 2 that feeds intake is realized in cooperation between 32.And by setting the second rotation axis 284 in polygon Shape axis can increase the cooperation area between 3 and second rotation axis 284 of knob, it is thus possible to which more the cup 2 that feeds intake is realized in labour-saving Rotation.

In above-mentioned multiple embodiments, it is preferable that as shown in figure 5, knob 3 be circular knob, knob 3 it is a diameter ofIts In,

In this embodiment, knob 3 can be arranged to circle, thus beneficial to user's operation, meanwhile, preferably by knob 3 DiameterIt is disposed greater than being equal to 25mm less than or equal in the range of 45mm, this kind of size is especially advantageous for user and is grasped manually Make, it is thus possible to improve user experience.

In above-mentioned multiple embodiments, it is preferable that as shown in fig. 6, stop configurations 222 are provided on flange 22, backstop knot The madial wall that structure 222 is used for when the cup 2 that feeds intake is rotated with feed inlet 12 coordinates, to limit the angle that the cup 2 that feeds intake can rotate.

In this embodiment, a stop configurations 222, such as protrusion can be set in the outside wall surface of flange 22, so as to energy /V enough is carried out to the rotational angle for the cup 2 that feeds intake using the stop configurations 222, so as to be accurately defined out the cup 2 that feeds intake The maximum angle that can be rotated.

In the above embodiment, it is preferable that as shown in Fig. 2, between the outside wall surface for the cup 2 that feeds intake and the internal face of feed inlet 12 Gap be more than 0mm be less than or equal to 60mm；Or the gap between the outside wall surface for the cup 2 that feeds intake and the internal face of feed inlet 12 is more than 0mm is less than or equal to 45mm；Or the gap between the outside wall surface for the cup 2 that feeds intake and the internal face of feed inlet 12 is less than or equal to more than 0mm 30mm。

In this embodiment, as shown in Fig. 2, when the flange 22 for the cup 2 that feeds intake is horizontal between the inner wall of feed inlet 12 between Gap is maximum, therefore, in the range of can maximal clearance L being arranged on 30mm-60mm, it is further preferred that can set the gap It is set to 30mm-45mm.

The embodiment of the utility model second aspect proposes a kind of food processor, including：Host component (is not shown in figure Go out)；The cup body component provided with first aspect any embodiment, cup body component can be mounted in host component.

As shown in Figures 1 to 6, the food processor of embodiment according to the present utility model, including any one of first aspect The cup body component that embodiment provides, so as to which the food processor that the embodiment of the utility model second aspect provides has above-mentioned The whole advantageous effects for the cup body component that one embodiment provides, details are not described herein.

In the above embodiment, it is preferable that food processor includes Normal juice machine and juice extractor, Normal juice machine and it is concretely big Bore Normal juice machine, certainly, food processor also can be with the other products outside Normal juice machine and juice extractor.

In the description of this specification, term " first ", " second " are only used for the purpose of description, and it is not intended that instruction Or imply relative importance, unless otherwise clearly defined and limited；Term " connection ", " installation ", " fixation " etc. should all be done extensively Reason and good sense solution, for example, " connection " can be fixedly connected or be detachably connected or be integrally connected；It can be direct phase Even, can also be indirectly connected by intermediary.For the ordinary skill in the art, can manage as the case may be Solve concrete meaning of the above-mentioned term in the utility model.

In the description of this specification, the description of term " one embodiment ", " some embodiments ", " specific embodiment " etc. Mean that combining the particular features, structures, materials, or characteristics that the embodiment or example describe is contained at least the one of the utility model In a embodiment or example.In the present specification, schematic expression of the above terms is not necessarily referring to identical embodiment Or example.Moreover, the particular features, structures, materials, or characteristics of description can be in any one or more embodiments or example In combine in an appropriate manner.

It these are only the preferred embodiment of the utility model, be not intended to limit the utility model, for this field Technical staff for, various modifications and changes may be made to the present invention.Within the spirit and principle of the utility model, Any modifications, equivalent replacements and improvements are made should be included within the scope of protection of this utility model.

Claims (12)

1. a kind of cup body component, for food processor, which is characterized in that the cup body component includes：

It squeezes the juice cup body；

It squeezes the juice cup lid, can releasably cover and squeeze the juice mounted in described on cup body, the squeezing cup, which covers, is provided with feed inlet；

Feed intake cup, and the first feeding port is provided in the first end of the cup that feeds intake, and the cup that feeds intake can be rotatably mounted at institute It states in feed inlet, so that the cup that feeds intake can rotate in the feed inlet；

It squeezes the juice screw rod, the screw rod of squeezing the juice is in the squeezing cup body；

Wherein, a diameter of D1 of the feed inlet, the radius of gyration of the cup in the feed inlet that feed intake for R, the R >= D1/2。

2. cup body component according to claim 1, which is characterized in that be provided on the end face of the first end of the cup that feeds intake Flange, feed intake described in the direction of from axial direction to the second end away from the cup that feeds intake of cup of the flange extend, it is described into The flange is corresponded on the side wall of material mouth and is provided with escape groove, the escape groove is squeezed the juice from the madial wall of the feed inlet to described Extend outside cup lid, and when the cup that feeds intake rotates, the escape groove can avoid open the flange.

3. cup body component according to claim 1, which is characterized in that

The angle that the cup that feeds intake can rotate in the feed inlet is α, wherein, 0 °≤α≤180 °.

4. cup body component according to claim 1, which is characterized in that

A diameter of D1 of the feed inlet, wherein 45mm≤D1≤100mm.

5. cup body component according to claim 1, which is characterized in that

It is provided with the second feeding port in the second end of the cup that feeds intake, a diameter of D2 of second feeding port, wherein, 0mm ＜ D2≤45mm。

6. cup body component according to claim 2, which is characterized in that

The quantity of the flange is two, and two flanges are symmetrical arranged on the cup that feeds intake.

7. cup body component according to claim 2, which is characterized in that

The flange is an integral structure with the cup that feeds intake.

8. cup body component according to claim 2, which is characterized in that

The rotary centerline of the flange and the cup that feeds intake is mutually perpendicular to.

9. cup body component according to any one of claim 1 to 8, which is characterized in that

The first rotation axis and the second rotation axis are respectively arranged on the both sides of the cup that feeds intake, is set on the inner wall of the feed inlet There are the first mounting hole and the second mounting hole, first rotation axis is located in first mounting hole, and described second rotates axle position In in second mounting hole, so that the cup that feeds intake is rotatably mounted in the feed inlet, first rotation axis and institute It is conllinear to state the second rotation axis；

Wherein, spring is provided in first mounting hole, the spring is set in first rotation axis, and the spring is used Reset the cup that feeds intake after being rotated in the cup that feeds intake.

10. cup body component according to claim 2, which is characterized in that

Be provided with stop configurations on the flange, the stop configurations be used for when the cup that feeds intake is rotated with the feed inlet Madial wall coordinates, the angle that can be rotated with the cup that feeds intake described in restriction.

11. cup body component according to any one of claim 1 to 8, which is characterized in that

Gap between the outside wall surface of the cup that feeds intake and the internal face of the feed inlet is more than 0mm and is less than or equal to 60mm；Or institute It states the gap between the outside wall surface for the cup that feeds intake and the internal face of the feed inlet and is more than 0mm less than or equal to 45mm；Or it described feeds intake Gap between the outside wall surface of cup and the internal face of the feed inlet is more than 0mm and is less than or equal to 30mm.

12. a kind of food processor, which is characterized in that including：

Host component；

Cup body component as any one of claim 1 to 11, the cup body component can be mounted on the host component On.