SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a large capacity retinue stock machine can realize squeezing juice in succession, satisfies the demand that the disposable large capacity of user squeezes fruit juice.
In order to solve the technical problem, the utility model provides a large capacity retinue stock machine, including the screw rod, the subassembly of squeezing the juice is in with the setting the host computer of the subassembly top of squeezing the juice, be equipped with feed channel in the host computer and be used for the drive the motor of the work of the subassembly of squeezing the juice, wherein, the subassembly of squeezing the juice is in including album juice chamber and setting the juice extraction section of thick bamboo in the collection juice intracavity, the screw rod sets up in the juice extraction section of thick bamboo, the subassembly of squeezing the juice still includes the passageway of slagging tap and goes out the juice passageway, the passageway of slagging tap with it sets up perpendicularly to go out the juice passageway.
Furthermore, a slag outlet is arranged on the juice extracting barrel, and the slag outlet extends outwards horizontally to form the slag outlet channel.
Furthermore, the juice extracting barrel comprises a juice outlet barrel and a squeezing barrel arranged in the juice outlet barrel, a slag discharging hole is formed in the squeezing barrel, a slag discharging hole is formed in the juice outlet barrel, the slag discharging hole is communicated with the slag discharging hole, and the slag discharging hole extends outwards horizontally to form a slag discharging channel.
Furthermore, the juicing barrel comprises a barrel body and a filter mesh arranged on the barrel body, wherein a slag outlet is formed in the barrel body, and the slag outlet extends outwards horizontally to form the slag outlet channel.
Furthermore, the side wall of the juice collecting cavity is provided with a through hole, and the slag discharging channel penetrates through the through hole, so that the slag discharging channel is communicated with the outside.
Furthermore, the juice machine also comprises a juice receiving cup arranged below the juice collecting cavity, a juice outlet is arranged at the bottom of the juice collecting cavity, and an opening of the juice outlet downwards forms the juice outlet channel.
Further, stock machine is still including setting up the sediment cup that connects of collection juice chamber below, it is equipped with the slag notch to squeeze juice the subassembly bottom, the slag notch opening forms downwards the passageway of slagging tap.
Further, the juice extracting barrel comprises a juice extracting barrel and a squeezing barrel arranged in the juice extracting barrel, and the slag outlet is arranged at the lower part of the juice extracting barrel and/or the lower part of the squeezing barrel.
Furthermore, a juice outlet is arranged on the side wall of the juice collecting cavity, and the juice outlet horizontally extends outwards to form the juice outlet channel.
Furthermore, the juice machine also comprises a juice receiving cup and a residue receiving cup, wherein at least one of the juice receiving cup and the residue receiving cup is arranged below the juice extracting assembly.
The invention has the beneficial effects that:
1. the juicing assembly comprises a residue discharging channel and a juice discharging channel, the pomace is discharged from the residue discharging channel, the juice flows out of the juice discharging channel, the residue discharging channel and the juice discharging channel are vertically arranged, so that the residue discharging path of the pomace is perpendicular to the juice discharging path of the juice, the pomace is more thoroughly separated from the juice, and the whole structure is simpler. Meanwhile, at least one of the residue discharge channel and the juice discharge channel is communicated with the outside, the juice amount extracted in a single time is increased, and continuous juice extraction can be realized. When the slag discharging channel is communicated with the outside, the slag can be discharged continuously until the juice receiving cup is full of juice; when the juice outlet channel is communicated with the outside, the juice can be continuously discharged until the pomace is filled in the pomace receiving cup. Drive on making the stock machine realize in the top of the subassembly of squeezing the juice with the host computer setting, leave enough big bottom space for the subassembly below of squeezing the juice and be used for connecing the juice or connect the sediment, when pomace or fruit juice discharge downwards, the route of slagging tap or the route of going out the juice is shorter for it is higher to slag tap efficiency or the efficiency of going out the juice. Simultaneously, stock machine complete machine volume dwindles to realize stock machine miniaturization, realize the disposable large capacity demand of squeezing the juice of user on the basis of retinue stock machine, reduce and wash the number of times, promote user experience.
2. Be equipped with the slag notch on the juice extracting tube, the outside extension of slag notch level forms the passageway of slagging tap, and the fruit sediment is discharged from the passageway of slagging tap outwards, because go out the juice passageway and set up with the passageway of slagging tap is perpendicular, consequently goes out the juice passageway and sets up along vertical plane, connects the juice cup setting in the below in collection juice chamber this moment, and collection juice chamber bottom is equipped with out the juice mouth, and the opening that goes out the juice mouth downwards forms out the juice passageway, and the juice connects the juice cup through going out the downward inflow of juice passageway. Because the pomace is discharged outwards horizontally, the continuous outward slag discharge can be realized until the juice receiving cup is full of juice, and thus, the high-capacity juice extraction is realized.
3. The juice extracting barrel comprises a juice extracting barrel and a squeezing barrel arranged in the juice extracting barrel, a screw is arranged in the squeezing barrel, a residue discharging hole is formed in the squeezing barrel, a residue discharging hole in the squeezing barrel is communicated with a residue discharging hole in the juice extracting barrel, a residue discharging channel extends outwards in the horizontal direction and forms a residue discharging channel, the residue discharging channel penetrates through a through hole formed in the side wall of a juice collecting cavity, the residue discharging channel is connected with the outside, materials form fruit juice and fruit residues under the extrusion grinding of the screw and the squeezing barrel, the fruit residues are discharged outwards through the residue discharging channel, and continuous residue discharging can be achieved. Meanwhile, the juice outlet barrel is sleeved outside the extruding barrel and is in plug-in fit with the extruding barrel, and the juice flows out from a filtering gap between the extruding barrel and the juice outlet barrel to further filter pomace, so that the juice is purer. Because the juice passageway sets up with the passageway of slagging tap is perpendicular, consequently, the juice passageway sets up along vertical plane, connect the juice cup setting in the below in collection juice chamber this moment, collection juice chamber bottom is equipped with the juice mouth, the opening of juice mouth forms the juice passageway downwards, juice flows into the below from the juice passageway under self gravity and connects in the juice cup, make the juice efficiency of going out of juice improve when realizing that the large capacity is juiced, juice can not remain in the juice intracavity that gathers, the rate of going out the juice also correspondingly promotes.
4. The juicing barrel comprises a barrel body and a filter mesh arranged on the barrel body, the materials are ground by the screw and the juicing barrel to form fruit juice and fruit residues, a residue outlet is arranged on the barrel body, the residue outlet horizontally extends outwards to form a residue outlet channel, the residue outlet channel penetrates through a through hole formed in the side wall of the juice collecting cavity, the residue outlet channel is communicated with the outside, and the fruit residues are discharged outwards through the residue outlet channel to realize continuous residue discharge. Juice flows into the collection juice chamber after passing through filter screen's filtration, because it sets up with the passageway of slagging tap is perpendicular to go out the juice passageway, consequently, it sets up along vertical plane to go out the juice passageway, connect the juice cup to set up the below in collection juice chamber this moment, collection juice chamber bottom is equipped with the juice mouth, the opening of juice mouth forms out the juice passageway downwards, juice is in the juice cup that connects of juice passageway inflow below under self gravity, make the juice efficiency of going out of juice improve when realizing large capacity juice extraction, juice can not remain in the collection juice intracavity, it also correspondingly promotes to go out the juice rate.
5. Connect the sediment cup setting in collection juice chamber below, the bottom of juicing subassembly is equipped with the slag notch, therefore the slag notch can set up in the bottom of collection juice chamber and/or juicing barrel, and the slag notch opening forms downwards slag notch passageway, pomace can drop into smoothly from the passageway of slagging tap and connect the sediment cup because of action of gravity, and the speed of slagging tap is fast, simultaneously because the passageway of slagging tap is vertical downwards, the pomace is difficult for remaining on the lateral wall of the passageway of slagging tap, convenient washing. Because the slag discharging channel is vertical to the juice discharging channel, the juice discharging channel is arranged in the horizontal direction, the side wall of the juice collecting cavity is provided with the juice outlet, the juice outlet extends outwards horizontally to form the juice discharging channel, and the juice flows outwards from the juice discharging channel to realize continuous juice discharging until the residue receiving cup is full of the fruit residues.
6. The juice extracting barrel comprises a juice extracting barrel and a squeezing barrel arranged in the juice extracting barrel, the slag outlet can be arranged at the bottom of at least one of the juice collecting cavity, the squeezing barrel and the juice extracting barrel, the juice extracting barrel is of a double-barrel structure with the squeezing barrel and the juice extracting barrel matched, the juice extracting barrel is sleeved outside the squeezing barrel and is matched with the squeezing barrel in an inserting mode, juice flows out of a filtering gap between the squeezing barrel and the juice extracting barrel, fruit residues are further filtered through the double-barrel structure, the juice is purer, the mesh structure is omitted, and cleaning is facilitated. Because the juice outlet channel is vertical to the residue outlet channel, the juice outlet channel is arranged along the horizontal direction, the side wall of the juice collecting cavity is provided with a juice outlet, the juice outlet extends outwards horizontally to form a juice outlet channel, and juice flows out from the juice outlet channel to realize continuous juice outlet until the residue receiving cup is full of fruit residues.
7. When connecing the juice cup setting when juicing the subassembly below, go out the juice passageway vertical downwards, the passageway level of slagging tap sets up, and the pomace is outwards discharged from the passageway level of slagging tap, can realize arranging the sediment in succession, and it connects the juice cup to fill up until the juice, because the passageway of slagging tap communicates with the external world, the user can select by oneself to connect the sediment cup, also can directly discharge into the garbage bin with the pomace for the stock machine is applicable in multiple sediment cup that connects. When connecing the sediment cup setting in the juice extraction subassembly below, the passageway of slagging tap is vertical downwards, goes out juice passageway level setting, and the juice is outwards flowed from going out the juice passageway, can realize going out juice in succession, and the sediment cup that connects is full to the pomace, because go out juice passageway and external intercommunication, the user can select by oneself to connect the juice cup for the stock machine is applicable in the multiple juice cup that connects. Will connect the juice cup and connect at least one setting in the sediment cup in the below of juicing subassembly for portable stock machine promotes user experience when realizing that the large capacity squeezes juice. Because the juice machine only needs to be provided with one of the juice receiving cup or the residue receiving cup, the whole machine has simpler structure and is convenient to clean, meanwhile, the number of accessories is reduced, the weight is reduced, the carrying by a user is more convenient, and in addition, the cost of the whole machine is also reduced.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention clearer and more obvious, the technical solutions in the embodiments of the present invention will be described in detail and fully hereinafter with reference to the accompanying drawings. It is to be understood that the described embodiments are merely a few embodiments of the present application and not all embodiments. The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the application, its application, or uses. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.
The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.
The first embodiment is as follows:
as shown in fig. 1-3, the present embodiment provides a large-capacity juice follower, which includes a screw rod 4, a juice extracting assembly 2 and a main machine 1 disposed above the juice extracting assembly 2, wherein a feeding channel and a motor for driving the juice extracting assembly 2 are disposed in the main machine 1, the juice extracting assembly 2 includes a juice collecting cavity 3 and a juice extracting barrel disposed in the juice collecting cavity 3, the juice extracting barrel includes a juice extracting barrel 22 and a squeezing barrel 21 disposed in the juice extracting barrel 22, the screw rod 4 is disposed in the squeezing barrel 21, the squeezing barrel 21 is nested in the juice extracting barrel 22, the juice extracting assembly 2 further includes a residue discharging channel 9 and a juice discharging channel 8, the residue discharging channel 9 is disposed perpendicular to the juice discharging channel 8, such that at least one of the residue discharging channel 9 and the juice discharging channel 8 is communicated with the outside, and the amount of juice extracted at a time increases, can realize squeezing juice in succession, satisfy the demand that the disposable large capacity of user squeezed juice, reduce and wash the number of times, promote user experience. The central axis of the residue discharge channel 9 is vertical to the central axis of the juice discharge channel 8 in a crossed manner or in a non-coplanar manner, so that the residue discharge path of the fruit residues is vertical to the juice discharge path of the fruit juice, the fruit residues and the fruit juice are separated more thoroughly, and the whole structure is simpler.
The juice extractor also comprises a juice receiving cup 5 and a residue receiving cup 6, at least one of the juice receiving cup 5 and the residue receiving cup 6 is arranged below the juice extracting component 2, when the residue discharging channel 9 is communicated with the outside, the residue discharging can be continuously realized until juice is fully filled in the juice receiving cup 5 arranged below the juice extracting component 2; when the juice outlet channel 8 is communicated with the outside, the juice can be continuously discharged until the pomace is filled in the residue receiving cup 6 arranged below the juice extracting component 2. Simultaneously, host computer 1 sets up the top at juicing subassembly 2 and makes stock machine complete machine volume reduce to realize stock machine miniaturization, make stock machine portable and realize single large capacity juicing.
As shown in fig. 4-6, in this embodiment, a plurality of squeezing gaps 211 are circumferentially distributed on the squeezing barrel 21, a plurality of juice outlet holes 222 are circumferentially distributed on the juice outlet barrel 22, a plurality of squeezing ribs 221 that are in plug-in fit with the squeezing gaps 211 are circumferentially distributed on the inner surface of the juice outlet barrel 22, the squeezing ribs 221 are in plug-in fit with the squeezing gaps 211 to form two left and right filtering gaps, and when the screw rod 4 is in fit with the squeezing barrel 21 to squeeze juice, juice flows out of the filtering gaps and flows into the juice collecting cavity 3 through the juice outlet holes 222. Go out a juice section of thick bamboo 22 with collect 3 integrative settings in juice chamber, 3 upper ends in collection juice chamber are equipped with the connection wall 32, collection juice chamber 3 passes through connection wall 32 with it is connected to go out a juice section of thick bamboo 22, go out a juice section of thick bamboo 22 with collect and form the juice space of collection between the juice chamber 3, the cross section in collection juice space is the annular, the annular area grow gradually from top to bottom in collection juice space for fruit juice can smoothly be discharged into and connect juice cup 5 and can not pile up in the juice space of collection, thereby has improved the juice efficiency of arranging of fruit juice.
The juice extractor is including connecing juice cup 5, connect juice cup 5 detachable setting to be in the below in collection juice chamber 3, collection juice chamber 3 bottom is equipped with the juice mouth, the opening of juice mouth forms downwards go out the juice passageway, collect the juice space with connect juice cup 5 to be linked together, the juice gets into to install in the juice cup 5 that connects of collection juice chamber 3 below after flowing out from going out the juice mouth for the juice is discharged from going out the juice mouth smoothly under the effect of gravity, improves juice extraction efficiency.
As shown in fig. 2, be equipped with the slag notch on going out juice section of thick bamboo 22 lateral wall, be equipped with the scum hole on the lateral wall of recipient 21, the scum hole with the slag notch intercommunication, the slag notch level to 3 outside extensions in collection juice chamber form slag notch channel 9, and the pomace outwards discharges from slag notch channel 9, because go out juice channel and the perpendicular setting of slag notch channel 9, consequently goes out the juice channel and follows vertical plane setting, connects juice cup 5 to set up the below in collection juice chamber 3 this moment, and collection juice chamber 3 bottom is equipped with out the juice mouth, and the opening of going out the juice mouth forms out the juice channel downwards, and the juice connects juice cup 5 through going out the juice channel downwards inflow. Because the pomace is discharged outwards horizontally, the continuous outward slag discharge can be realized until the juice receiving cup 5 is full of juice, and thus the single-time high-capacity juice extraction is realized.
As shown in fig. 2-3, a grinding space is formed between the screw 4 and the extruding cylinder 21, the screw 4 includes an extruding and grinding section and a slag discharging section from top to bottom, after the material enters the grinding space, the material is ground by the extruding and grinding section of the screw 4 and the extruding cylinder 21, so as to form the fruit residues, and the fruit residues move downwards along the screw direction of the screw 4 to the slag discharging section, the slag discharging section is provided with a slag discharging rib 41 for pushing the fruit residues to be discharged to the slag outlet, so that the slag discharging efficiency is improved, and the fruit residues are prevented from being accumulated in the extruding cylinder 21 and being unable to be smoothly discharged, so as to prevent the juice from being mixed with a large amount of fruit residues to affect the juice yield and. The slag discharging channel 9 is communicated with the grinding space, the side wall of the juice collecting cavity 3 is provided with a through hole, the slag discharging channel 9 passes through the through hole, so that the slag discharging channel 9 is communicated with the outside, and the fruit residues are smoothly discharged out of the juice machine from the slag discharging channel 9.
When connecing juice cup 5 to set up in juice extraction component 2 below, go out the vertical downwards of juice passageway, the 9 levels of passageway of slagging tap set up, and the pomace is outwards discharged from the 9 levels of passageway of slagging tap, can realize arranging the sediment in succession, and connect juice cup 5 until the juice is full, because the passageway 9 of slagging tap communicates with the external world, the user can select by oneself to connect sediment cup 6, also can directly discharge the pomace into the garbage bin for the stock machine is applicable in the multiple sediment cup 6 that connects. Meanwhile, the residue receiving cup 6 is not arranged in the juice receiving cup 5 any more, the juice extractor does not need to be additionally provided with the residue receiving cup 6, and only the juice receiving cup 5 needs to be arranged, so that the juice extracting work can be carried out by installing the juice receiving cup 5 and the juice extracting component 2, the structure of the whole juice extractor is simpler, and the juice extractor is convenient to clean; the weight is reduced while the number of accessories is reduced, and the carrying by a user is more convenient; in addition, the cost of the whole machine is reduced.
As shown in fig. 7-8, the slag discharging channel 9 is provided with a slag discharging adjustable mechanism 7, and the slag discharging resistance of the juice extractor to different food materials is changed by controlling the size of the slag discharging adjustable mechanism 7 to adjust the area of the slag outlet, so that the juice extractor can meet the slag discharging requirements of different food materials, and the juice yield of the food materials is improved. In addition, the user can also squeeze the fruit juice with different tastes and different concentrations according to the preference of the user, and the user experience is good.
Arrange sediment adjustable mechanism 7 including arranging sediment connecting rod 72 and setting row's sediment baffle 71 on arranging sediment connecting rod 72, be equipped with the slag notch on the subassembly 2 of squeezing the juice, the slag notch with slag notch 9 intercommunication, row's sediment baffle 71 sets up in slag notch department for adjust the size of slag notch area, arrange the area of sediment baffle 71 and be not less than the area of slag notch makes row's sediment baffle 71 sealed effectual to the slag notch, guarantees that the stock machine possesses sufficient row's sediment resistance. The slag discharge baffle 71 is crescent and made of silica gel. The slag discharge link 72 includes a fixed portion 722 and a toggle portion 721, and the slag discharge baffle 71 is disposed between the fixed portion 722 and the toggle portion 721. The fixed portion 722 is provided on the central axis of the screw 4, and the slag discharging link 72 rotates about the fixed portion 722 as the rotation center. Be equipped with the spout on the 3 lateral walls in collection juice chamber, stirring portion 721 stretches out outside the spout, supply the manual regulation of user to arrange sediment baffle 71 to the area of sheltering from of slag notch, the user can make it slide on the spout by manual rotation stirring portion 721, adjusts the size that sediment baffle 71 sheltered from the area to the slag notch, arranges sediment baffle 71 and rotatably covers part or whole the slag notch to realize that the stock machine can adapt to the edible material of different characteristics, guarantee higher juice yield, avoid eating the material extravagant.
The setting of arranging adjustable mechanism 7 makes juice extraction subassembly 2 can adapt to the edible material of different characteristics, for example, when what squeeze is that the hardness is higher such as carrot, apple when eating the material, makes the area of slag notch 91 reduce through adjusting row's sediment baffle 71, prevents that fruit juice from discharging from the slag notch along with the pomace together to provide great row's sediment resistance, improve out juice efficiency. If the soft food materials such as tomatoes, oranges and the like are squeezed, the area of the slag outlet is increased by adjusting the slag discharge baffle 71, so that fruit slag can be discharged from the slag outlet in time, and the problems of slag outlet blockage and the like cannot be caused.
It can be understood that the user can realize the regulation of arranging sediment baffle 71 to the area that the slag notch shelters from through the mode of rotatory toggle portion 721, also can realize arranging sediment baffle 71 to the regulation of the area that the slag notch shelters from through the mode of translation push-and-pull toggle portion 721.
The stock machine in this embodiment is equipped with the automatic function of reversal of overload, collection juice chamber 3 closes with host computer 1 for one-way turnbuckle is soon connected, at the during operation, 4 revolving forces of screw rod can make the turnbuckle dropout more and more tight, but can make the turnbuckle dropout when reversing, consequently set up on 3 upper portions in collection juice chamber and prevent moving back ejector pin 31, set up in 1 lower part of host computer simultaneously and prevent moving back recess 11, make prevent moving back ejector pin 31 and prevent moving back recess 11 looks butt, the turnbuckle between host computer 1 and the collection juice chamber 3 is thrown off when preventing the reversal. Meanwhile, the anti-back ejector rod 31 can axially move, the anti-back ejector rod 31 is abutted to the anti-back groove 11 when the juicer works, and the anti-back ejector rod can be automatically disengaged or manually opened after the juicer works, so that the juice collecting cavity 3 and the main machine 1 can be conveniently disassembled and assembled. In addition, prevent moving back ejector pin 31 and can also realize safety switch's effect, when preventing moving back ejector pin 31 with prevent moving back recess 11 butt, the stock machine normally works, when preventing moving back ejector pin 31 not with prevent moving back recess 11 butt, complete machine stop work, the purpose prevents that host computer 1 from dismantling the back from juice extraction component 2, and screw rod 4 still is in the operation and causes user's bodily injury, improves the security that the stock machine used.
Example two:
the embodiment is different from the first embodiment in that the juicing barrel comprises a barrel body and a filter mesh arranged on the barrel body, the materials are extruded and ground by the screw rod 4 and the juicing barrel to form fruit juice and fruit residues, a residue outlet is arranged on the barrel body, the residue outlet horizontally extends outwards to form the residue outlet channel 9, the residue outlet channel 9 penetrates through a through hole formed in the side wall of the juice collecting cavity 3, the residue outlet channel 9 is communicated with the outside, and the fruit residues are discharged outwards through the residue outlet channel 9 to realize continuous residue discharge.
Juice flows into the juice collecting space after passing through filter screen's filtration, because it sets up with the passageway 9 of slagging tap is perpendicular to go out the juice passageway, consequently goes out the juice passageway and sets up along vertical plane, connects juice cup 5 to set up in the below of album juice chamber 3 this moment, and 3 bottoms in album juice chamber are equipped with the juice mouth, and the opening of juice mouth forms juice passageway downwards, and the juice realizes that the large capacity is squeezed juice from the juice cup 5 that connects that goes out the juice passageway inflow below.
The remaining features of the associated juicer described in this embodiment are the same as those described in the first embodiment, and are not described herein again.
Example three:
as shown in fig. 9-11, the difference between the first embodiment and the first embodiment lies in that the juice extractor further includes a slag receiving cup 6, the slag receiving cup 6 is detachably disposed below the juice extracting assembly 2, a slag outlet 91 is disposed at the bottom of the juice extracting assembly 2, the slag outlet opening is formed downwards in the slag outlet channel 9, the slag outlet 91 is communicated with the slag receiving cup 6, the slag outlet 91 is located in the vertical projection of the juice outlet barrel 22, the slag can smoothly fall into the slag receiving cup 6 from the slag outlet channel due to the gravity action, the slag discharging speed is fast, and meanwhile, the slag is not easy to remain on the side wall of the slag outlet channel due to the vertical downward direction of the slag outlet channel, so that the juice extractor is convenient to clean. The slag discharge baffle 71 can rotatably cover part or all of the slag outlet 91 so as to adjust the opening and closing degree of the slag outlet 91, ensure the slag discharge resistance of the juice extractor to food materials and adapt to the slag discharge requirements of different food materials.
When the fixing portion 722 of the slag-discharging connecting rod 72 is disposed on the central axis of the screw 4, the slag hole 91 is not disposed coaxially with the screw, so that the slag passage 9 is perpendicular to the juice outlet passage 8, the slag-discharging baffle 71 disposed between the fixing portion 722 and the striking portion 721 can effectively adjust the area of the slag hole, the slag-discharging resistance of the juicer is ensured, the fruit residues can be smoothly discharged downwards from the slag passage 9, and the juice outlet rate is high.
When connecing sediment cup 6 to set up in juice extraction subassembly 2 below, the passageway of slagging tap is vertical downwards, is equipped with out the juice mouth on the 3 lateral walls in collection juice chamber, go out the outside formation that extends of juice mouth level go out juice passageway 8, go out 8 level settings of juice passageway and make the juice outwards flow from going out juice passageway 8, can realize going out juice in succession, connect sediment cup 6 until the pomace is full of, because go out juice passageway 8 and external intercommunication, the user can select by oneself to connect juice cup 5 for the stock machine is applicable in the multiple juice cup 5 that connects. Meanwhile, the juice extractor can carry out juice extraction only by arranging the residue receiving cup 6 and installing the residue receiving cup 6 and the juice extraction component 2, so that the structure of the whole juice extractor is simpler and the juice extractor is convenient to clean; the weight is reduced while the number of accessories is reduced, and the carrying by a user is more convenient; in addition, the cost of the whole machine is reduced.
In order to improve the juice discharging efficiency, the bottom wall of the juice collecting cavity 3 can be set to be a flow guide surface inclined downwards along the juice discharging channel 8, so that the juice can smoothly enter the juice discharging channel 8 along the flow guide surface, and is discharged out of the juice machine.
Because of the horizontal arrangement of the juice outlet channel 8, the juice can flow out of the juice extractor through the juice outlet channel 8 by itself, in order to prevent the juice from dripping, the juice outlet channel 8 is provided with a drip-proof structure, and the drip-proof structure is a drip-proof cover 10 covering the outlet of the juice outlet channel 8.
It can be understood that the drip-proof cover 10 can be rotatably covered at the outlet of the juice outlet channel 8 from left to right, as shown in fig. 13, the center of rotation can be located at the center of the drip-proof cover 10, as shown in fig. 14, or the center of rotation can be eccentrically located at the edge of the drip-proof cover 10.
It can be understood that the drip-proof cover 10 can be turned upside down to cover the outlet of the juice outlet channel 8, as shown in fig. 15.
It will be appreciated that the drip-proof lid 10 is adapted to be drawn over the outlet of the juice channel 8, as shown in fig. 16.
In the present embodiment, as shown in fig. 12, the juice extracting barrel includes a juice extracting barrel 22 and a squeezing barrel 21 disposed in the juice extracting barrel 22, and the residue outlet 91 is disposed on the bottom wall of the juice extracting barrel 22. The juice collecting cavity 3 is provided with a positioning part 33 on the bottom wall, the bottom of the juice outlet barrel 22 is provided with a positioning rib 223, and the positioning rib 223 is in plug-in fit with the positioning part 33, so that the juice outlet barrel 22 and the juice collecting cavity 3 are firmly installed, and the position of the extrusion barrel 21 is fixed, and the situation that the screw rod 4 and the extrusion barrel 21 shake materials in the grinding process to cause the shaking of the juice extracting assembly 2 and the unstable machine body, and the noise is generated while the juice outlet efficiency is influenced is prevented. The extrusion cylinder 21 comprises an upper port and a lower port, the lower port is abutted to the bottom wall of the juice outlet cylinder 22, the extrusion cylinder 21 is positioned, and the phenomenon that the extrusion cylinder 21 shakes to cause the phenomenon that the extrusion cylinder cannot be tightly matched with the screw rod 4 in the operation process of the machine, so that the juice outlet rate of the material is low is prevented. Slag notch 91 is located the inside of extrusion tube 21 lower port, simultaneously, 3 bottoms in collection juice chamber are equipped with the under shed, slag notch 91 also is located the inside of under shed for the pomace moves to slag notch 91 department and discharges smoothly downwards under self gravity and the promotion of screw rod 4, and the rate of just arranging the sediment is fast for the row's cinder.
The remaining features of the associated juicer described in this embodiment are the same as those described in the first embodiment, and are not described herein again.
Example four:
as shown in fig. 17, the present embodiment is different from the third embodiment in that the juice extracting barrel includes a juice extracting barrel 22 and a squeezing barrel 21 disposed in the juice extracting barrel 22, the slag outlet 91 is disposed on the bottom wall of the squeezing barrel 21, a positioning portion 33 is disposed on the bottom wall of the juice collecting cavity 3, the bottom wall of the squeezing barrel 21 abuts against the positioning portion 33, and the positioning rib 223 of the juice extracting barrel 22 is in insertion fit with the positioning portion 33 of the juice collecting cavity 3, so that the two components of the squeezing barrel 21, the juice extracting barrel 22 and the juice collecting cavity 3 are more tightly fitted with each other, and the juice yield is higher when the material is tightly fitted and ground in the juice extracting assembly 2. Slag notch 91 sets up on the diapire of recipient 21, simultaneously, 3 bottoms in collection juice chamber are equipped with the under shed, slag notch 91 is located under shed's inside for the pomace moves to slag notch department and discharges smoothly downwards under self gravity and the promotion of screw rod 4, and the rate of just arranging the sediment is fast for the row's cinder rate.
The remaining features of the associated juicer described in this embodiment are the same as those described in embodiment three, and are not described herein again.
Example five:
as shown in fig. 18, the present embodiment is different from the third embodiment in that the juice extracting barrel includes a juice extracting barrel 22 and a squeezing barrel 21 disposed in the juice extracting barrel 22, the slag outlet 91 is disposed at a lower portion of the juice collecting cavity 3, specifically, an upward protruding boss is disposed on a bottom wall of the juice collecting cavity 3, the slag outlet 91 is disposed on the boss, a central shaft of the screw 4 is in axial connection with the boss to position the screw 4, so as to prevent the screw 4 from shaking to cause shaking of the juice extracting assembly 2, the squeezing barrel 21 includes an upper port and a lower port, the lower port is in abutting connection with the boss, so that the squeezing barrel 21 is more stably mounted, and the juice extracting rate of the material is higher when the juice extracting assembly 2 is tightly fitted and ground. The slag hole 91 is arranged on the boss and is simultaneously positioned inside the lower port of the extrusion cylinder 21, so that the fruit residues are driven to the slag hole under the pushing of the self gravity and the screw rod 4 and are discharged downwards smoothly, the slag discharging rate is high, and the slag discharging speed is high.
The remaining features of the associated juicer described in this embodiment are the same as those described in embodiment three, and are not described herein again.
Example six:
as shown in fig. 19, the present embodiment is different from the third embodiment in that the juice collecting cavity 3 is provided with a juice outlet 81, the juice outlet 81 is disposed on the bottom wall of the juice collecting cavity 3, the juice outlet is opened downwards, and the juice flows into the juice receiving cup 5 below under the action of gravity, so that the juice outlet efficiency is higher, and the juice does not remain in the juice collecting cavity 3, and the juice outlet rate is higher.
The remaining features of the associated juicer described in this embodiment are the same as those described in embodiment three, and are not described herein again.
The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, i.e. all equivalent changes and modifications made according to the present invention are covered by the scope of the claims of the present invention, which is not illustrated herein.