CN204635942U - A kind of vertical screw extruding juice extractor facilitating charging - Google Patents

Abstract

The utility model discloses a kind of vertical screw extruding juice extractor facilitating charging, comprise support, juice chamber, screw rod and upper cover, described screw rod comprises material promotion part and crush and grind portion, press section protruding upward is covered with on described, described press section coordinates with material promotion part and tentatively squeezes cutting to material, the feeding-passage that the sidewall of described press section is provided with charging aperture and is connected with charging aperture, described feeding-passage is vertically arranged, the linkage section that described feeding-passage comprises feed zone and is connected with charging aperture, the center line of described feed zone and the centerline parallel of press section are arranged, the center line of described linkage section is crossing with the center line of press section to be arranged, angle between the center line of described linkage section and the center line of press section is а, 30 °≤а≤60 °.By arranging material promotion part on screw rod, and press section protruding upward being set upper covering, which increasing the space that upper cover holds material, adding the amount of a charging, and then improve Milling Efficiencty.

Description

A kind of vertical screw extruding juice extractor facilitating charging

Technical field

The utility model relates to food processor field, particularly relates to a kind of vertical screw extruding juice extractor facilitating charging.

Background technology

Existing screw extruding juice extractor generally comprises horizontal screw extruding juice extractor and vertical screw extruding juice extractor.Vertical screw extruding juice extractor generally comprises upper cover, crushing chamber, screw rod, the mesh barrel coordinated with screw rod, rotating brush and driver element, a kind of situation is that pan feeding port is established on the top covered thereon, the characteristic that this kind of juice extractor utilizes material self gravitation to flow downward, problem is pulverized in the extruding solving material, simultaneously because support is arranged on bottom, the good stability of machine.But, the feeding mouth of the program is arranged on above screw rod, after material enters shell, above the spiral dropping on screw rod, be not easy charging, if material falls into the position close to axle center simultaneously, because shaft core position rotating speed is zero, also make charging comparatively slow, and can cause solid accumulation, the extruding affecting next step is pulverized.Another kind of situation is arranged on crushing chamber by charging aperture, extruding screw is contained in crushing chamber, and upper cover is used for closing the top of crushing chamber, and this just causes the crushing chamber inside that coordinates with extruding screw excessively dark, not only bad for dismounting and the cleaning of juice extractor, and inconvenient charging.

Utility model content

Goal of the invention of the present utility model is to provide a kind of vertical screw extruding juice extractor facilitating charging, easy cleaning.

For above-mentioned technical problem, the utility model provides a kind of vertical screw extruding juice extractor facilitating charging, comprise the support with motor, be installed on the juice chamber above support, longitudinally be located at the screw rod in juice chamber, be covered on the upper cover above juice chamber, described screw rod comprises material promotion part and crush and grind portion, wherein, press section protruding upward is covered with on described, described press section coordinates with material promotion part and tentatively squeezes cutting to material, the feeding-passage that the sidewall of described press section is provided with charging aperture and is connected with charging aperture, described feeding-passage is vertically arranged, the linkage section that described feeding-passage comprises feed zone and is connected with charging aperture, the center line of described feed zone and the centerline parallel of press section are arranged, the center line of described linkage section is crossing with the center line of press section to be arranged, angle between the center line of described linkage section and the center line of press section is а, 30 °≤а≤60 °.

Further, described press section is arranged along the plane symmetry by the center line of feed zone and the center line of press section.

Further, described press section extends to the direction moving closer to material promotion part away from charging aperture.

Further, described linkage section and charging aperture are that arc transition is connected, and described radian is C, C≤2 π/3.

Further, described linkage section and charging aperture are that chamfered transition is connected, and the angle between described inclined-plane and horizontal plane is β, 30 °≤β≤80 °.

Further, the height of described linkage section is more than or equal to the height of press section.

Further, described feed zone is straight tube shape, described press section is straight tube shape or cone barrel, the projection in same level of described feed zone and press section is crossing to be arranged and the length of the line segment that connects with the heart is L, the equivalent redius of described press section in the projection of this horizontal plane is R, R/5 < L≤R.

Further, the inwall of described press section is provided with squeezing rib, and described squeezing rib is located at the downstream of press section.

Further, described material promotion part is used for material to guide downwards, described material promotion part comprises body and is located at the propelling spiral on body, described body is up-small and down-big truncated cone-shaped or cylindrical, described material promotion part is connected with the transition of crush and grind portion, and described propelling spiral extends to crush and grind portion by body upper end.

Further, the lower port that described feeding-passage comprises upper port and is communicated with charging aperture, described upper port is movably set with rotatable swivelling cover, the pivot of described swivelling cover traverses upper port, described swivelling cover, for placing material and can rotating around pivot either direction, enters feeding-passage to make material.

In the utility model, described " connect with the heart line segment " refers to that feed zone is vertical with public string with press section floor projection phase cross surface and crosses the line segment in two centers of circle; Described " equivalent redius " refers to the radius of the maximum inscribed circle when feed zone or press section are irregular tubular; The side contacted with material after described " downstream of press section " refers to press section.

The beneficial effects of the utility model are:

1, the utility model by arranging material promotion part on screw rod, and arrange press section protruding upward upper covering, and which increases the space that upper cover holds material, add the amount of a charging, and then improve Milling Efficiencty; Meanwhile, at the feeding-passage that the sidewall of press section arranges charging aperture and is communicated with charging aperture, and feeding-passage is vertically arranged, person easy to use like this feeds intake, feed intake from top to bottom, meet the normal operating habit of user, also make material can automatic feed at Action of Gravity Field; Also have, the linkage section that feeding-passage comprises feed zone and is connected with charging aperture, the center line of feed zone and the centerline parallel of press section are arranged, and the center line of linkage section is crossing with the center line of press section to be arranged and angle is а, 30 °≤а≤60 °, be convenient to feeding-passage and upper cover is one-body molded, facilitate processing and manufacturing, reduce manufacturing cost, also make material can not be stuck in the linkage section of feeding-passage, facilitate material to enter in press section, can not get stuck.When а is less than 30 °, angle is too little, and material can be stuck in linkage section, is not easy to charging; When а is greater than 60 °, angle is too large, is not easy to feeding-passage and upper cover is one-body molded, adds manufacturing cost.

2, by press section is arranged along the plane symmetry by the center line of feed zone and the center line of press section, make press section can hold the larger material of diameter like this, heavy caliber can be realized, eliminate user needs first by the inconvenience of food materials stripping and slicing and trouble before putting into material, and press section and material promotion part cooperatively interact material are tentatively squeezed into less size, make be entered into crush and grind portion smoothly by material, do not have the residual of larger material, avoid material waste, improve crushing juice rate.

3, by press section is extended to the direction moving closer to material promotion part away from charging aperture, the space between material promotion part and press section is made to narrow gradually like this, material is easily booked, being drawn between material promotion part and press section simultaneously, automatically provide food materials to material promotion part on one side from effectively squeezing material on one side, and stick pusher need not be used to remove to promote food materials, improve hommization operation.

4, by being connected being set to arc transition between linkage section with charging aperture, and described radian is C, π/3, C≤2, the junction of feeding-passage and charging aperture is made to be rounding off like this, be convenient to material and enter into press section, material also can not be assembled, and can not form cleaning dead angle, facilitate the cleaning of upper cover; Meanwhile, be convenient to the processing and manufacturing of upper cover, reduce the manufacture difficulty of upper cover.When C is greater than 2 π/3, arc angle is excessive, and the junction of feeding-passage and charging aperture can be formed cleans dead angle, and be not easy to cleaning and charging, be not easy to the processing and manufacturing of upper cover, difficulty of processing is high simultaneously.

5, by being connected being set to chamfered transition between linkage section with charging aperture, and the angle between described inclined-plane and horizontal plane is β, 30 °≤β≤80 °, the junction of feeding-passage and charging aperture is made to be smooth transition like this, be convenient to material and enter into press section, material also can not be assembled, and can not form cleaning dead angle, facilitate the cleaning of upper cover; Meanwhile, be convenient to the processing and manufacturing of upper cover, reduce the manufacture difficulty of upper cover.When angle is less than 30 °, angle of inclination is too low, is unfavorable for that material enters in press section; When angle is greater than 80 °, be not easy to the processing and manufacturing of upper cover, difficulty of processing is high.

6, by the height of linkage section is arranged to the height being more than or equal to press section, which increase the bore of charging aperture, facilitate material to enter in press section, can quick feeding be realized; Meanwhile, can heavy caliber be realized, without the need to user, pretreatment be carried out to material, improve hommization operation.

7, by feed zone is arranged to straight tube shape, make the spatial accommodation of feeding-passage become large, and feeding-passage is smooth, is convenient to charging; And by press section is arranged to straight tube shape or cone barrel, increase the spatial accommodation of upper cover, can adapt to larger material, namely achieve heavy caliber charging, and user is without the need to carrying out pretreatment to material, person's operation easy to use, promotes hommization operation; Meanwhile, the projection in same level of feed zone and press section is crossing to be arranged, and makes material to enter in press section fast, improves powder feeding efficiency, shorten process time; Further, the length of the line segment that connects with the heart is L, and the equivalent redius of press section in the projection of this horizontal plane is R, and R/5 < L≤R, make press section upper end leave the space that locating hole is set like this, be convenient to the location of screw rod, vibration when reducing machine operation and noise.As L < R/5, be not easy to charging; As L > R, be not easy to the location of screw rod, easily vibrate during machine operation, noise is large.

8, rib is squeezed and the downstream being positioned at press section by arranging at press section inwall, make when carrying out preliminary squeezing to material and cutting, squeezing rib has the effect of a stop and guide to material, material is made to rotate with laminate material promotion part and to rotate, and impel the downward charging of material, and then the further extruding completing material is pulverized, and improves juicing effect; Meanwhile, squeezing rib is located at the downstream of press section inwall, makes material under the drive of material promotion part, and when moving to downstream, material is squeezed rib to be stopped, and charging downwards, be more convenient to material and enter in juice chamber and pulverized by screw extruding.

9, described material promotion part comprises body and is located at the propelling spiral on body, the truncated cone-shaped that described body is cylindrical or up-small and down-big, corresponding press section is straight tube shape or up-small and down-big cone barrel, make to form certain gap between the material promotion part of screw rod and press section, screw rod can not rub with press section inwall in the process of rotating, press section inwall is provided with squeezing rib, barrier effect is played in the preliminary pulverizing of squeezing rib to material, can not spin at press section when making material be brought into advance spiral tentatively to pulverize by the extruding screw rotated, but along advancing spiral incision under the barrier effect of squeezing rib, and then carry out separating twice and extruding by advancing spiral to be rotated down by bringing into fast through the preliminary material pulverized in gap that crush and grind portion and juice chamber formed, improve crushing juice rate, further, by material promotion part is connected with the transition of crush and grind portion, material can be entered in crush and grind portion smoothly, be convenient to charging, meanwhile, material promotion part is connected with the transition of crush and grind portion, is convenient to screw rod one-body molded, reduces the manufacturing process of screw rod, further, advance spiral to extend to crush and grind portion by body upper end, make to advance spiral not only tentatively can squeeze cutting to material, also can carry out crush and grind to material, what express material was ground is more abundant, improves crushing juice rate.

10, swivelling cover is set by the upper port at feeding-passage, when squeezing the larger-size material of apple, orange or tomato iso-cross-section, need not by fruits and vegetables stripping and slicing, directly material is positioned on swivelling cover, now, upper port is blocked by swivelling cover, ensures that staff is stretched less than in feeding-passage; Then swivelling cover is rotated along pivot, material then falls in feeding-passage, and in rotary course, upper port is blocked by swivelling cover all the time, ensure that staff is stretched less than in feeding-passage, again swivelling cover is turned to origin-location, place material, then rotate swivelling cover and make material enter in feeding-passage, so repeatedly, both can realize squeezing the juice continuously, in turn ensure that security during use, and prevent from accidentally injuring user; Meanwhile, without the need to carrying out pretreatment to fruits and vegetables, realizing the whole fruit of continuous print and squeezing the juice, being user-friendly to, improving the convenience of user; Further, machine, without the need to start and stop work frequently, reduces the loss of machine, improves the service life of machine.

Accompanying drawing explanation

Fig. 1 is the structural representation of juice extractor embodiment one described in the utility model.

Fig. 2 is the structural representation of upper cover in juice extractor embodiment one described in the utility model.

Fig. 3 is the sectional view of upper cover in juice extractor embodiment one described in the utility model.

Fig. 4 is the top view of upper cover in juice extractor embodiment one described in the utility model.

Fig. 5 is press section and the feed zone schematic diagram in floor projection in Fig. 4.

Fig. 6 is the structural representation of screw rod in juice extractor embodiment one described in the utility model.

Fig. 7 is the structural representation of upper cover in juice extractor embodiment two described in the utility model.

Fig. 8 is the structural representation of upper cover in juice extractor embodiment three described in the utility model.

Fig. 9 is the structural representation of upper cover in juice extractor embodiment four described in the utility model.

Figure 10 be in juice extractor embodiment five described in the utility model upper cover and juice chamber coordinate schematic diagram.

In figure to mark each component names as follows:

1, support; 2, juice chamber; 3, screw rod; 31, material promotion part; 311, body; 312, spiral is advanced; 32, crush and grind portion; 4, upper cover; 41, press section; 411, rib is squeezed; 42, charging aperture; 43, feeding-passage; 431, feed zone; 432, linkage section; 5, swivelling cover.

Detailed description of the invention

Below in conjunction with drawings and the specific embodiments, the utility model is described in further detail.

As shown in Figure 1, the utility model discloses a kind of vertical screw extruding juice extractor, comprise there is motor support 1, be installed on juice chamber 2 above support 1, be longitudinally located at screw rod 3 in juice chamber 2, be covered on upper cover 4 above juice chamber 2, described juice chamber 2 is provided with juice opening 21 and slag notch 22, described juice opening 21 and slag notch 22 interval are arranged, and described screw rod 3 comprises material promotion part 31 and crush and grind portion 32.

As shown in Figure 2, described upper cover 4 is provided with press section 41 protruding upward, described press section 41 coordinates with material promotion part 31 and tentatively squeezes cutting to material, the feeding-passage 43 that the sidewall of described press section 41 is provided with charging aperture 42 and is connected with charging aperture 42, described feeding-passage 43 is vertically arranged, the linkage section 432 that described feeding-passage 43 comprises feed zone 431 and is connected with charging aperture 42, the center line of described feed zone 431 and the centerline parallel of press section 41 are arranged, the center line of described linkage section 432 is crossing with the center line of press section 41 to be arranged, angle between the center line of described linkage section 432 and the center line of press section 41 is а, 30 °≤а≤60 °.The benefit of such setting is, crosses on screw rod, arranges material promotion part, and arrange press section protruding upward upper covering, and which increases the space that upper cover holds material, adds the amount of a charging, and then improve Milling Efficiencty; Meanwhile, at the feeding-passage that the sidewall of press section arranges charging aperture and is communicated with charging aperture, and feeding-passage is vertically arranged, person easy to use like this feeds intake, feed intake from top to bottom, meet the normal operating habit of user, also make material can automatic feed at Action of Gravity Field; Also have, the linkage section that feeding-passage comprises feed zone and is connected with charging aperture, the center line of feed zone and the centerline parallel of press section are arranged, and the center line of linkage section is crossing with the center line of press section to be arranged and angle is а, 30 °≤а≤60 °, be convenient to feeding-passage and upper cover is one-body molded, facilitate processing and manufacturing, reduce manufacturing cost, also make material can not be stuck in the linkage section of feeding-passage, facilitate material to enter in press section, can not get stuck.When а is less than 30 °, angle is too little, and material can be stuck in linkage section, is not easy to charging; When а is greater than 60 °, angle is too large, is not easy to feeding-passage and upper cover is one-body molded, adds manufacturing cost.

Described press section 41 is arranged along the plane symmetry by the center line of feed zone 431 and the center line of press section 41.The benefit of such setting is, by press section is arranged along the plane symmetry by the center line of feed zone and the center line of press section, make press section can hold the larger material of diameter like this, heavy caliber can be realized, eliminate user needs first by the inconvenience of food materials stripping and slicing and trouble before putting into material, and press section and material promotion part cooperatively interact material are tentatively squeezed into less size, make be entered into crush and grind portion smoothly by material, do not have the residual of larger material, avoid material waste, improve crushing juice rate.

As shown in Figure 3, described feed zone 431 is straight tube shape, the lower port that described feed zone 431 comprises upper port and is communicated with linkage section 432, diameter≤the 45mm of the upper port of described feed zone 431, described linkage section 432 with between charging aperture 42 for arc transition is connected, described radian is C, C≤2 π/3.The benefit of such setting is, by feed zone is arranged to straight tube shape, make the spatial accommodation of feeding-passage become large, and feeding-passage is smooth, is convenient to charging; Simultaneously, the junction of feeding-passage and charging aperture is set to arc transition, and described radian is C, π/3, C≤2, the junction making feeding-passage and charging aperture is like this rounding off, is convenient to material and enters into press section, and material also can not be assembled, cleaning dead angle can not be formed, facilitate the cleaning of upper cover; Further, be convenient to the processing and manufacturing of upper cover, reduce the manufacture difficulty of upper cover.When C is greater than 2 π/3, arc angle is excessive, and the junction of feeding-passage and charging aperture can be formed cleans dead angle, and be not easy to cleaning and charging, be not easy to the processing and manufacturing of upper cover, difficulty of processing is high simultaneously.In the present embodiment, described C is 5 π/18; Certainly, π/6, π/5, π/4, π/3, pi/2,2 π/3 are chosen as.

The height of described linkage section 432 is H1, and the height of described press section is H2, described H1=H2.The benefit of such setting is, by the height of linkage section is arranged to the height being more than or equal to press section, which increases the bore of charging aperture, facilitates material to enter in press section, can realize quick feeding; Meanwhile, can heavy caliber be realized, without the need to user, pretreatment be carried out to material, improve hommization operation.

As shown in Figure 4,5, described feed zone 431 is in straight tube shape, described press section 41 is in straight tube shape, described press section 41 is crossing with the projection of feeding-passage 43 in same level to be arranged, namely the circle of press section 41 in floor projection is crossing with the circle of the projection of feeding-passage 43 in same level, I is the view field of feeding-passage in level, II is the view field of press section in level, the length of line segment of connecting with the heart is L, the equivalent redius of described press section 41 in the projection of this horizontal plane is R, and R/5 < L≤R.The benefit of such setting is, by feed zone is arranged to straight tube shape, make the spatial accommodation of feeding-passage become large, and feeding-passage is smooth, is convenient to charging; And by press section is arranged to straight tube shape or cone barrel, increase the spatial accommodation of upper cover, can adapt to larger material, namely achieve heavy caliber charging, and user is without the need to carrying out pretreatment to material, person's operation easy to use, promotes hommization operation; Meanwhile, feed zone and press section are crossing in floor projection to be arranged, and makes material to enter in press section fast, improves powder feeding efficiency, shorten process time; Further, the length of the line segment that connects with the heart is L, and the equivalent redius of press section in floor projection is R, and R/5 < L≤R, make press section upper end leave the space that locating hole is set like this, be convenient to the location of screw rod, vibration when reducing machine operation and noise.As L < R/5, be not easy to charging; As L > R, be not easy to the location of screw rod, easily vibrate during machine operation, noise is large.In the present embodiment, described L=3R/5; Certainly, R/5,2R/5,4R/5 is chosen as.

The inwall of described press section 41 is provided with squeezing rib 411, and described squeezing rib 411 is provided with three and is distributed in the inwall of press section 41, and described squeezing rib 411 is located at the downstream of press section 41.The benefit of such setting is, rib is squeezed and the downstream being positioned at press section by arranging at press section inwall, make when carrying out preliminary squeezing to material and cutting, squeezing rib has the effect of a stop and guide to material, material is made to rotate with laminate material promotion part and to rotate, and impel the downward charging of material, and then the further extruding completing material is pulverized, and improves juicing effect; Meanwhile, squeezing rib is located at the downstream of press section inwall, makes material under the drive of material promotion part, and when moving to downstream, material is squeezed rib to be stopped, and charging downwards, be more convenient to material and enter in juice chamber and pulverized by screw extruding.

As shown in Figure 6, described material promotion part 31 is for guiding material downwards, described material promotion part 31 comprises body 311 and is located at the propelling spiral 312 on body 311, described body 311 is cylindrical, described material promotion part 31 is connected with crush and grind portion 32 transition, and described propelling spiral 312 extends to crush and grind portion by body 311 upper end.The benefit of such setting is, make to form certain gap between the material promotion part of screw rod and press section, screw rod can not rub with press section inwall in the process of rotating, press section inwall is provided with squeezing rib, barrier effect is played in the preliminary pulverizing of squeezing rib to material, can not spin at press section when making material be brought into advance spiral tentatively to pulverize by the extruding screw rotated, but along advancing spiral incision under the barrier effect of squeezing rib, and then carry out separating twice and extruding by advancing spiral to be rotated down by bringing into fast through the preliminary material pulverized in gap that crush and grind portion and juice chamber formed, improve crushing juice rate, further, by material promotion part is connected with the transition of crush and grind portion, material can be entered in crush and grind portion smoothly, be convenient to charging, meanwhile, material promotion part is connected with the transition of crush and grind portion, is convenient to screw rod one-body molded, reduces the manufacturing process of screw rod, further, advance spiral to extend to crush and grind portion by body upper end, make to advance spiral not only tentatively can squeeze cutting to material, also can carry out crush and grind to material, what express material was ground is more abundant, improves crushing juice rate.

Understandable, the body of described material promotion part is truncated cone-shaped.

Understandable, described H1 > H2.

Understandable, the projection in same level of described feed zone and press section tangent or from.

Understandable, the downstream of described press section is only provided with a squeezing rib.

Understandable, described squeezing rib is provided with many and is distributed in the inwall of whole press section.

Embodiment two:

The difference of the present embodiment and embodiment one is, described press section is different.

As shown in Figure 7, described press section 41 extends to the direction moving closer to material promotion part away from charging aperture, described press section 41 and upper cover 4 integrated injection molding.

The benefit of the present embodiment is, by press section is extended to the direction moving closer to material promotion part away from charging aperture, the space between material promotion part and press section is made to narrow gradually like this, material is easily booked, being drawn between material promotion part and press section simultaneously, automatically provide food materials to material promotion part on one side from effectively squeezing material on one side, and stick pusher need not be used to remove to promote food materials, improve hommization operation.

Embodiment three:

The difference of the present embodiment and embodiment one is, described feeding-passage is different.

As shown in Figure 8, described feeding-passage 43 is chamfered transition with the junction of charging aperture 42, and the angle between described inclined-plane and horizontal plane is β, 30 °≤β≤80 °.

The benefit of the present embodiment is, by the junction of feeding-passage and charging aperture is set to chamfered transition, and the angle between described inclined-plane and horizontal plane is β, 30 °≤β≤80 °, the junction making feeding-passage and charging aperture is like this smooth transition, is convenient to material and enters into press section, and material also can not be assembled, cleaning dead angle can not be formed, facilitate the cleaning of upper cover; Meanwhile, be convenient to the processing and manufacturing of upper cover, reduce the manufacture difficulty of upper cover.When angle β is less than 30 °, angle of inclination is too low, is unfavorable for that material enters in press section; When angle β is greater than 80 °, be not easy to the processing and manufacturing of upper cover, difficulty of processing is high.In the present embodiment, described β is 63 °; Certainly, 30 °, 38 °, 40 °, 42 °, 45 °, 48 °, 50 °, 52 °, 55 °, 58 °, 60 °, 62 °, 65 °, 68 °, 70 °, 72 °, 75 °, 78 °, 80 ° are chosen as.Other do not state part-structure and beneficial effect is all identical with embodiment one.

Understandable, described press section extends to the direction moving closer to material promotion part away from charging aperture.

Embodiment four:

The difference of the present embodiment and embodiment one is, described press section is different.

As shown in Figure 9, described press section 41 is in cone barrel, and described press section 41 and feeding-passage 43 are crossing in floor projection to be arranged, and namely the circle of press section 41 in floor projection is crossing with the circle of feeding-passage 43 in floor projection.

The benefit of the present embodiment is, by press section is arranged to cone barrel, increases the spatial accommodation of upper cover, can adapt to larger material, namely achieve heavy caliber charging, and user is without the need to carrying out pretreatment to material, and person's operation easy to use, promotes hommization; Meanwhile, feeding-passage and press section are crossing in floor projection to be arranged, and makes material to enter in press section fast, improves powder feeding efficiency, shorten process time; Further, press section is cone barrel, makes to form less squeezing gap between screw rod and press section, improves the smashing fineness of material, and then improves crushing juice rate.Other do not state part-structure and beneficial effect is all identical with embodiment one.

Understandable, the junction of described feeding-passage and charging aperture is chamfered transition.

Embodiment five:

The difference of the present embodiment and embodiment one is, described feeding-passage is different.

As shown in Figure 10, the diameter > 45mm of described feed zone 431 upper port, described upper port is movably set with rotatable swivelling cover 5, described swivelling cover 5 is in hemispherical, the pivot of described swivelling cover 5 traverses upper port, described swivelling cover 5, for placing material and can rotating around pivot either direction, enters in feeding-passage 43 to make material.In the present embodiment, the diameter of described upper port is 82mm; Certainly, 46mm, 48mm, 50mm, 52mm, 55mm, 58mm, 60mm, 62mm, 65mm, 68mm, 70mm, 72mm, 75mm, 78mm, 80mm, 85mm, 88mm, 90mm, 92mm, 95mm, 98mm, 100mm is chosen as.

The benefit of the present embodiment is, by the diameter of upper port is arranged to > 45mm, achieves heavy caliber charging, without the need to carrying out pretreatment to material, improves hommization operation; And swivelling cover is set in the upper port of feeding-passage, and when squeezing the larger-size material of apple, orange or tomato iso-cross-section, need not by fruits and vegetables stripping and slicing, directly material is positioned on swivelling cover, now, upper port is blocked by swivelling cover, ensures that staff is stretched less than in feeding-passage; Then swivelling cover is rotated along pivot, material then falls in feeding-passage, and in rotary course, upper port is blocked by swivelling cover all the time, ensure that staff is stretched less than in feeding-passage, again swivelling cover is turned to origin-location, place material, then rotate swivelling cover and make material enter in feeding-passage, so repeatedly, both can realize squeezing the juice continuously, in turn ensure that security during use, and prevent from accidentally injuring user; Meanwhile, without the need to carrying out pretreatment to fruits and vegetables, realizing the whole fruit of continuous print and squeezing the juice, being user-friendly to, improving the convenience of user; Further, machine, without the need to start and stop work frequently, reduces the loss of machine, improves the service life of machine.Other do not state part-structure and beneficial effect is all identical with embodiment one.

Understandable, described press section extends to the direction moving closer to material promotion part away from charging aperture.

Understandable, described press section is cone barrel.

Understandable, the junction of described feeding-passage and charging aperture is chamfered transition.

As described above, be only preferred embodiment of the present utility model, be not used for limiting practical range of the present utility model, namely all equalizations done according to the utility model change and modify, be all the utility model right contained, illustrate no longer one by one here.

Claims (10)

1. one kind facilitates the vertical screw extruding juice extractor of charging, comprise the support with motor, be installed on the juice chamber above support, longitudinally be located at the screw rod in juice chamber, be covered on the upper cover above juice chamber, described screw rod comprises material promotion part and crush and grind portion, it is characterized in that, press section protruding upward is covered with on described, described press section coordinates with material promotion part and tentatively squeezes cutting to material, the feeding-passage that the sidewall of described press section is provided with charging aperture and is connected with charging aperture, described feeding-passage is vertically arranged, the linkage section that described feeding-passage comprises feed zone and is connected with charging aperture, the center line of described feed zone and the centerline parallel of press section are arranged, the center line of described linkage section is crossing with the center line of press section to be arranged, angle between the center line of described linkage section and the center line of press section is а, 30 °≤а≤60 °.

2. juice extractor according to claim 1, is characterized in that, described press section is arranged along the plane symmetry by the center line of feed zone and the center line of press section.

3. juice extractor according to claim 1, is characterized in that, described press section extends to the direction moving closer to material promotion part away from charging aperture.

4. juice extractor according to claim 1, it is characterized in that, described linkage section and charging aperture are that arc transition is connected, and described radian is C, C≤2 π/3.

5. juice extractor according to claim 1, it is characterized in that, described linkage section and charging aperture are that chamfered transition is connected, and the angle between described inclined-plane and horizontal plane is β, 30 °≤β≤80 °.

6. juice extractor according to claim 1, it is characterized in that, the height of described linkage section is more than or equal to the height of press section.

7. juice extractor according to claim 1, it is characterized in that, described feed zone is straight tube shape, described press section is straight tube shape or cone barrel, the projection in same level of described feed zone and press section is crossing to be arranged and the length of the line segment that connects with the heart is L, the equivalent redius of described press section in the projection of this horizontal plane is R, R/5 < L≤R.

8. juice extractor according to any one of claim 1-7, is characterized in that, the inwall of described press section is provided with squeezing rib, and described squeezing rib is located at the downstream of press section.

9. juice extractor according to any one of claim 1-7, it is characterized in that, described material promotion part is used for material to guide downwards, described material promotion part comprises body and is located at the propelling spiral on body, described body is up-small and down-big truncated cone-shaped or cylindrical, described material promotion part is connected with the transition of crush and grind portion, and described propelling spiral extends to crush and grind portion by body upper end.

10. juice extractor according to any one of claim 1-7, it is characterized in that, the lower port that described feeding-passage comprises upper port and is communicated with charging aperture, described upper port is movably set with rotatable swivelling cover, the pivot of described swivelling cover traverses upper port, described swivelling cover, for placing material and can rotating around pivot either direction, enters feeding-passage to make material.