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CN112722522B - Feeding mechanism for soap solution bottle - Google Patents

Feeding mechanism for soap solution bottle Download PDF

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Publication number
CN112722522B
CN112722522B CN202011623941.2A CN202011623941A CN112722522B CN 112722522 B CN112722522 B CN 112722522B CN 202011623941 A CN202011623941 A CN 202011623941A CN 112722522 B CN112722522 B CN 112722522B
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CN
China
Prior art keywords
soap
bottle
grain
opening
grains
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Active
Application number
CN202011623941.2A
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Chinese (zh)
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CN112722522A (en
Inventor
张超
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Ningbo Chefshere Kitchen Technology Co ltd
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Ningbo Chefshere Kitchen Technology Co ltd
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Publication date
Application filed by Ningbo Chefshere Kitchen Technology Co ltd filed Critical Ningbo Chefshere Kitchen Technology Co ltd
Priority to CN202011623941.2A priority Critical patent/CN112722522B/en
Publication of CN112722522A publication Critical patent/CN112722522A/en
Priority to PCT/CN2022/078140 priority patent/WO2022144041A1/en
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Publication of CN112722522B publication Critical patent/CN112722522B/en
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65DCONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
    • B65D23/00Details of bottles or jars not otherwise provided for
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65DCONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
    • B65D51/00Closures not otherwise provided for
    • B65D51/24Closures not otherwise provided for combined or co-operating with auxiliary devices for non-closing purposes
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65GTRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
    • B65G29/00Rotary conveyors, e.g. rotating discs, arms, star-wheels or cones
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65GTRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
    • B65G47/00Article or material-handling devices associated with conveyors; Methods employing such devices
    • B65G47/74Feeding, transfer, or discharging devices of particular kinds or types
    • B65G47/82Rotary or reciprocating members for direct action on articles or materials, e.g. pushers, rakes, shovels

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Containers And Packaging Bodies Having A Special Means To Remove Contents (AREA)

Abstract

The invention relates to a feeding mechanism for a soap bottle, which comprises a cover body and a bottle body, wherein the cover body is provided with a plurality of soap grains, the bottle body is connected with the cover body, the bottle body comprises a bottle opening communicated with the cover body, the cover body comprises a driving mechanism capable of driving the soap grains to fall into the bottle opening, the cover body is connected with the cover body provided with the soap grains, and when the soap grains need to be put into the bottle body, the driving mechanism on the cover body can drive the soap grains to fall into the bottle opening only by acting on the driving mechanism on the cover body, so that the soap grains fall into the bottle body.

Description

Feeding mechanism for soap solution bottle
Technical Field
The invention relates to the technical field of soap liquid manufacturing, in particular to a feeding mechanism for a soap liquid bottle.
Background
Along with the continuous development and progress of the society, the quality of people is continuously improved, and the appeal for studying the quality of life is also continuously improved, so that more people can develop better life habits. Especially, daily washing is more important for many people, such as frequent washing.
In daily life, soap grains are usually picked up manually and then put into a soap liquid bottle, the soap grains are mixed with liquid in the bottle to form soap liquid, and the following defects are caused because the soap grains need to be picked up manually: 1. soap particles stick to hands, so that hands need to be washed again for cleaning, which is troublesome and consumes manpower; 2. bacterial impurities on hands adhere to the soap particles, the soap particles are polluted, the manufactured soap liquid is also polluted at the same time, and the soap liquid cannot achieve the effects of cleaning and disinfection; 3. there is no special soap grain storage device, can't promote modern quality of life at home.
Disclosure of Invention
The invention aims to provide a feeding mechanism for a soap liquid bottle, which has simple structure, saves labor and does not pollute soap particles.
The technical scheme includes that the feeding mechanism for the soap liquid bottle comprises a cover body and a bottle body, wherein the cover body is provided with a plurality of soap grains, the bottle body is connected with the cover body, the bottle body comprises a bottle opening communicated with the cover body, and the cover body comprises a driving mechanism capable of driving the soap grains to fall into the bottle opening.
The invention has the beneficial effects that: adopt the feeding mechanism who is used for soap lye bottle of above-mentioned structure, connect a lid that is equipped with the soap grain on the bottle, when needs drop into the bottle with the soap grain, only need act on the actuating mechanism on the lid, actuating mechanism just can drive the soap grain and drop into in the bottleneck, thereby fall into the bottle, this kind of feeding mechanism simple structure does not need the people to pick up the soap grain, uses manpower sparingly, and the structure is nimble quick-witted intelligent, can not pollute the soap grain, sanitation and hygiene, and can promote modern life quality at home.
As the priority, actuating mechanism is for can drive the soap grain through the rotation and fall into intraoral rotary mechanism of bottleneck, adopts this structure, and it falls into in the bottleneck to drive the soap grain through rotary mechanism, and its simple structure, convenient operation does not need the people to pick up the soap grain, uses manpower sparingly, and the structure is nimble quick-witted intelligent, can not pollute the soap grain, and is clean sanitary, and can promote modern life quality at home.
As prior, actuating mechanism is for can drive the soap grain through promoting and fall into intraoral pushing mechanism of bottleneck, adopts this structure, and it falls into in the bottleneck to drive the soap grain through pushing mechanism, and its simple structure, convenient operation does not need the people to pick up the soap grain, uses manpower sparingly, and the structure is nimble quick-witted intelligent, can not pollute the soap grain, and sanitation and hygiene, and can promote modern life quality at home.
Preferably, the rotating mechanism comprises a vacancy communicated with the bottle opening and a rotating body driving soap particles to move circumferentially into the vacancy.
Preferably, the rotating body comprises a platform for placing soap grains, a fence, a rotating wheel which surrounds the periphery of the fence and is movably connected with the fence, a plurality of separating blocks which are positioned in the fence and are distributed and arranged in the circumferential direction, and soap grain positions which are positioned between the separating blocks and are used for placing soap grains, the separating blocks are integrally connected with the rotating wheel, the separating blocks are movably connected with the upper surface of the platform, and by adopting the structure, the soap grains are placed on the soap grain positions.
Preferably, the platform comprises a through hole arranged on the platform, and the through hole is positioned right above the bottle mouth and right below the vacant position. Adopt this structure, set up a through-hole on the platform, this through-hole communicates with the vacancy of its top and the bottleneck of below, and when the soap grain moved in the vacancy, the soap grain will fall into in the bottleneck from through-hole department, finally fall into in the bottle, this kind of feeding mechanism simple structure does not need the people to pick up the soap grain, uses manpower sparingly, and the structure is nimble quick-witted intelligence, can not pollute the soap grain, sanitation and hygiene.
As priority, the lid is including can promoting the soap grain in the vacancy to fall into the intraoral driving piece of bottleneck, the driving piece is located the vacancy directly over and stretches into in the vacancy, rotary mechanism still includes the shelves mouth of offering on every spacer block and supplying the driving piece to pass, adopt this structure, when rotatory swiveling wheel, the spacer block drives the soap grain and makes circumferential motion, the relative spacer block of driving piece is relative circumferential motion along its opposite direction, when one of them soap grain gets into the vacancy step by step, the driving piece can give a decurrent extrusion force to this soap grain, continue to rotate the swiveling wheel again, the driving piece just can fall into the bottle again in the opening with the extrusion of soap grain, this kind of feeding mechanism simple structure, do not need the people to pick up the soap grain, manpower saving, the structure is nimble and intelligent, can not pollute the soap grain, sanitation and hygiene.
As preferred, the platform is including being located the disk in the through-hole and seting up the cross space on the disk, the cross space is located the open-ended directly over, the disk adopts the silica gel structure, adopts this structure, and the in-process of driving piece extrusion soapstock, soapstock will extrude the disk downwards, because the disk is the silica gel material, and seted up the cross space on the disk, so the soapstock will oppress the cross space when receiving decurrent extrusion force to open from the cross hole position, finally fall into in the bottleneck of bottle, then fall into in the bottle. The feeding mechanism is simple in structure, soap particles on the platform can be prevented from being damped by arranging the wafer, and water vapor evaporated by soap liquid in the bottle body is prevented from entering the cover body.
As preferentially, the driving piece includes that one can be used in inclined plane and a chamfer on the soap grain, adopts this structure, and when artifical manual rotation swiveling wheel, the relative motion can be done to the driving piece, when one of them soap grain entered into the vacancy step by step, the inclined plane on the driving piece can directly give a decurrent extrusion force of this soap grain, continues rotatory swiveling wheel again, finally falls into the bottle through the chamfer effect smoothly extrusion with the soap grain on the soap grain. The feeding mechanism has simple structure, does not need to pick up soap particles manually, saves manpower, has flexible and intelligent structure, does not pollute the soap particles, and is clean and sanitary.
Preferably, the cover body further comprises a cover capable of covering the upper portion of the rotating wheel, the driving part is located on the lower surface of the cover, and by means of the structure, soap grains are placed into the rotating wheel of the rotating mechanism and covered on the cover, and the soap grains can be guaranteed to be located in a stable space.
As the priority, the bottle includes a connecting pipe that sets up on the perpendicular axis of bottle, and rotary mechanism includes a first passageway that supplies the connecting pipe to pass, and the upper cover includes a second passageway that supplies the connecting pipe to pass, adopts this structure, can link together upper cover, rotary mechanism and bottle, and simple structure does not need the manual soap grain of picking up, uses manpower sparingly, and the structure is nimble quick-witted intelligent, can not pollute the soap grain, sanitation and hygiene.
Preferably, the rotating mechanism comprises a bottom box and an upper cover, the bottom box is used for placing a plurality of soap grains, the upper cover comprises a discharge hole, the soap grains stretch out, and the rotating mechanism further comprises a rotating piece which drives the soap grains to stretch out of the discharge hole through rotation.
As a priority, the end box includes the box mouth and supplies the soap grain chamber that a plurality of soap grains placed, and the rotating member is including setting up the slope in the soap grain chamber and can stretching into the promotion piece of soap grain intracavity, and the discharge opening is located directly over the slope, the slope includes a slope face towards box mouth direction slope, it is located the upper cover lower surface to promote the piece. Adopt the feeding mechanism of above-mentioned structure, connect a lid that is equipped with the soap grain on the bottle, when the soap grain is taken out to needs, only need artifical manual rotatory upper cover, the ejector pad of upper cover lower surface will promote the soap grain and move in the soap grain intracavity, when one of them soap grain moves the slope, will move towards box opening direction along the slope, because a discharge opening has just been seted up directly over the slope, the soap grain will emerge in the discharge opening so, just so see the soap grain out from the end box, this kind of soap lye bottle feeding mechanism, can accomodate the soap grain, and conveniently pick up the soap grain, improve the convenience and the flexibility of life at home.
By adopting the structure, after the soap particles emerge from the discharge hole, the soap particles on the upper surface of the upper cover can fall into the bottle body by only manually pushing the soap particles into the bottle mouth, so that the soap liquid is prepared. This simple structure can accomodate the soap grain, and conveniently picks up the soap grain, and is convenient nimble.
As the priority, the slope is including the terminal portion that is close to end box mouth and the beginning portion of keeping away from end box mouth, and end box still is including the dog that supports that is located terminal portion, adopts this structure, sets up one at the terminal portion of slope and supports the dog, can prevent that the soap grain from falling the soap grain intracavity, has guaranteed that feeding mechanism can use smoothly.
As the priority, the end box is still including setting up the spacing fence around first passageway, adopts this structure, can avoid the soap grain to rock badly, guarantees that feeding mechanism can use smoothly.
As the priority, end box, slope, stop dog and spacer bar are integrated into one piece structure, adopt this structure, can not produce the resistance to the motion process of soap grain, and save the cost, end box possess good pleasing to the eye degree.
As the priority, upper cover and promotion piece are integrated into one piece structure, adopt this structure, can not produce the resistance to the motion process of soap grain, and save the cost, and the end box possesses good pleasing to the eye degree.
As prior, pushing mechanism is including the soap grain room that supplies a plurality of soap grains to place, impeller and the end cover of lid in soap grain room port department, the soap grain room includes the opening that supplies the impeller to stretch into, adopt this structure, open the end cover of soap grain room, put into soap grain indoor with a plurality of soap grains, promote the impeller, the impeller can stretch into in the soap grain room, and promote the soap grain room and fall into in the bottle, this simple structure, only need promote the impeller and just can put in the bottle with the soap grain, do not need the people to pick up the soap grain, manpower is saved, the structure is nimble quick-witted intelligent, can not pollute the soap grain, sanitation and hygiene.
Preferably, the pushing mechanism further comprises a barrel body communicated with the soap grain chamber, the soap grain chamber is located inside the barrel body, the barrel body comprises a bottom opening matched with the bottle opening, and by adopting the structure, the pushing piece pushes the soap grains. The soap dispenser has the advantages of simple structure, capability of putting soap grains into the bottle body only by pushing the pushing piece, no need of manually picking up the soap grains, labor saving, flexible and intelligent structure, no pollution to the soap grains, cleanness and sanitation.
As priority, the barrel passes through the intercommunication portion and communicates with the soap grain chamber, the intercommunication portion includes the intercommunication mouth and the flexible piece of being connected with the intercommunication mouth, the intercommunication mouth sets up on the soap grain chamber and is located open-ended relative one side, the intercommunication mouth is connected with the end opening, the intercommunication mouth is located the end opening top, adopt this structure, the impeller stretches into the indoor promotion soap grain of soap grain from the opening, the soap grain loops through intercommunication mouth and the end opening that is located open-ended relative one side, finally fall into the bottle, the flexible piece of being connected with the intercommunication mouth plays the effect of sheltering from the soap grain, under the condition that does not promote the impeller, make the soap grain can not fall into in the bottle from the intercommunication mouth automatically. The soap dispenser has the advantages of simple structure, capability of putting soap grains into the bottle body only by pushing the pushing piece, no need of manually picking up the soap grains, labor saving, flexible and intelligent structure, no pollution to the soap grains, cleanness and sanitation.
As prior, the impeller is including lieing in the outside first ejector pad of barrel, can stretch into the indoor push rod of soap grain through the opening, be located the spring of push rod below and be located the indoor inside second ejector pad of soap grain, adopt this structure, artificial manual first ejector pad that promotes, under the effect of push rod, second ejector pad effect soap grain, just can promote in the soap grain falls into the bottle through the intercommunication mouth, this simple structure, do not need the artificial soap grain of picking up, the manpower is saved, the nimble machine intelligence of structure, can not pollute the soap grain, sanitation and hygiene.
As preferentially, the flexible part is the silica gel structure, adopts this structure, can prevent that the soap grain from falling into in the bottle from the intercommunication mouth automatically to play green's effect.
Drawings
Fig. 1 is an exploded view of a feed mechanism for a soap bottle according to embodiments 1 and 2 of the present invention;
fig. 2 is a schematic structural diagram of a feeding mechanism for a soap bottle in embodiments 1 and 2 of the present invention;
fig. 3 is a schematic structural view of a rotating mechanism in embodiment 1 and embodiment 2 of the present invention;
FIG. 4 is a schematic structural view of a cartridge in embodiment 1 of the present invention;
fig. 5 is a schematic structural view of the upper cover in embodiments 1 and 2 of the present invention;
FIG. 6 is a schematic view of the structure of the cartridge in embodiment 2 of the present invention;
fig. 7 is a schematic structural diagram of a feeding mechanism for a soap bottle in embodiment 2 of the present invention;
fig. 8 is an exploded view of a feed mechanism for a soap bottle according to embodiments 1 and 2 of the present invention;
fig. 9 is an exploded view of a feed mechanism for a soap bottle in accordance with embodiment 3 of the present invention;
fig. 10 is a schematic structural diagram of a soap bottle feeding mechanism according to embodiment 3 of the present invention;
FIG. 11 is a schematic structural view of a back box in embodiment 3 of the present invention;
fig. 12 is a schematic structural view of an upper cover in embodiment 3 of the present invention;
fig. 13 is an exploded view of a feed mechanism for a soap bottle in accordance with embodiment 4 of the present invention;
fig. 14 is a front view of a feed mechanism for a soap bottle in accordance with embodiment 4 of the present invention;
FIG. 15 is a schematic structural view of a cartridge in embodiment 4 of the present invention;
fig. 16 is a cross-sectional view of a feed mechanism for a soap bottle in accordance with embodiment 4 of the present invention;
as shown in the figure: 1. soap particles; 2. a cover body; 3. a bottle body; 4. a drive mechanism; 5. a bottle mouth; 5.1, vacant site; 6.1, a rotating body; 7.1, a driving piece; 8.1, a box body; 9.1, a platform; 10.1, fencing; 11.1, rotating a wheel; 12.1, separating blocks; 13.1, soap grain position; 14.1, a stop; 15.1, through holes; 16.1, a wafer; 17.1, cross gaps; 18.1, inclined plane; 19.1, chamfering; 20.1, a cover; 21.1, connecting pipes; 22.1, a first channel; 23.1, a second channel; 4.2, a bottom box; 5.2, an upper cover; 6.2, a box opening; 7.2, a soap grain cavity; 8.2, a slope; 9.2, a pushing block; 10.2, a discharge hole; 11.2, a limit fence; 12.2, slope surface; 13.2, the lower surface of the upper cover; 14.2, a feeding pipe; 15.2, a third channel; 16.2, a fourth channel; 17.2, a terminal part; 18.2, open end; 19.2, a stop block; 3.3, a pusher; 4.3, a soap grain chamber; 5.3, end cover; 6.3, opening; 7.3, a cylinder body; 8.3, a bottom opening; 9.3, a communication port; 10.3, a flexible part; 11.3, a first push block; 12.3, a push rod; 13.3, a spring; 14.3 and a second push block.
Detailed Description
The invention is further described below with reference to the accompanying drawings in combination with specific embodiments so that those skilled in the art can practice the invention with reference to the description, and the scope of the invention is not limited to the specific embodiments.
It will be understood by those skilled in the art that in the present disclosure, the terms "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in an orientation or positional relationship indicated in the drawings for ease of description and simplicity of description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus, the above terms should not be construed as limiting the present invention.
Example 1:
the invention relates to a feeding mechanism for a soap liquid bottle, which comprises a cover body 2 provided with a plurality of soap grains 1 and a bottle body 3 connected with the cover body 2, wherein the bottle body 3 comprises a bottle opening 5 communicated with the cover body 2, and the cover body 2 comprises a driving mechanism 4 capable of driving the soap grains 1 to fall into the bottle opening 5. A feeding mechanism for soap lye bottle in figure 1, connect a lid 2 that is equipped with soap grain 1 on bottle 3, when needs drop into bottle 3 with soap grain 1, only need act on actuating mechanism 4 on the lid 2, actuating mechanism 4 just can drive in soap grain 1 drops into bottleneck 5, thereby fall into in the bottle 3, this kind of feeding mechanism simple structure, do not need the people to pick up soap grain 1, use manpower sparingly, the nimble machine intelligence of structure, can not pollute soap grain 1, sanitation and hygiene, and can promote modern life quality at home.
The lid 2 in this structure is directly located the bottle 3 top, and soap grain 1 can be directly fall into in the bottle 3 from the lid 2, and this simple structure consumes time weak point, and is efficient.
As shown in figure 1, actuating mechanism 4 is for can drive the rotary mechanism that soap grain 1 falls into in bottleneck 5 through the rotation, adopts this structure, in driving soap grain 1 and falling into bottleneck 5 through rotary mechanism, and its simple structure, convenient operation does not need the people to pick up soap grain 1, uses manpower sparingly, and the structure is nimble quick-witted intelligent, can not pollute soap grain 1, and is clean sanitary, and can promote modern house life quality.
As shown in fig. 1, the rotating mechanism is a vacant position 5.1 communicated with the bottle mouth 5 and a rotating body 6.1 driving the soap particles 1 to move circumferentially into the vacant position 5.1.
As shown in fig. 1, 3, 4 and 7, the rotator 6.1 includes a platform 9.1 for placing the soap particles 1, a fence 10.1, a rotating wheel 11.1 surrounding the fence 10.1 and movably connected with the fence 10.1, a plurality of separating blocks 12.1 located in the fence 10.1 and arranged in a circumferential distribution, and soap particles 1 located between the separating blocks 12.1 for placing the soap particles 1, the plurality of separating blocks 12.1 are integrally connected with the rotating wheel 11.1, the plurality of separating blocks 12.1 are movably connected with the upper surface of the platform 9.1, with this structure, the plurality of soap particles 1 are placed on each soap particle 1, when the rotating wheel 11.1 is rotated, the rotating wheel 11.1 drives the separating blocks 12.1 to move circumferentially relative to the platform 9.1, thus the soap particles 1 between the separating blocks 12.1 are driven to move circumferentially on the platform 9.1, when the soap particles 1 move to 5.1, as the vacant positions 5.1 are communicated with the openings 6.3, the soap particles can fall into the vacant spaces, and the soap bottle can be easily cleaned by a human-feeding mechanism, thereby avoiding contamination of the soap particles.
As shown in fig. 6, the platform 9.1 comprises a through hole 15.1 arranged on the platform 9.1, the through hole 15.1 being located directly above the opening 6.3 and directly below the empty position 5.1. Adopt this structure, set up a through-hole 15.1 on platform 9.1, this through-hole 15.1 communicates with vacancy 5.1 and the opening 6.3 of below of its top, when soap grain 1 moved in vacancy 5.1, soap grain 1 will fall into opening 6.3 in from through-hole 15.1, finally fall into in bottle 3, this kind of feeding mechanism simple structure, do not need the people to pick up soap grain 1, the manpower is saved, the structure is nimble quick-witted intelligent, can not pollute soap grain 1, sanitation and hygiene.
As shown in fig. 1, the cover body 2 includes a driving member 7.1 capable of pushing the soap particles 1 in the empty space 5.1 to fall into the bottle mouth 5, the driving member 7.1 is located right above the empty space 5.1 and can extend into the empty space 5.1, the rotating mechanism further includes a stopper 14.1 provided on each of the partitions 12.1 for the driving member 7.1 to pass through, by adopting the structure, when the rotating wheel 11.1 is rotated, the partitions 12.1 drive the soap particles 1 to move circumferentially, the driving member 7.1 makes relative circumferential movement along the opposite direction with respect to the partitions 12.1, when one of the soap particles 1 enters the empty space 5.1, the driving member 7.1 gives a downward extrusion force to the soap particle 1, and then the rotating wheel 11.1 is rotated continuously, the driving member 7.1 can extrude the soap particles 1 to fall into the opening 6.3 and then fall into the bottle body 3, the feeding mechanism has a simple structure, does not need to manually pick up the soap particles 1, thereby saving labor, having a flexible structure, and preventing the soap particles 1 from being polluted and clean and intelligently falling into the bottle body 3.
As shown in fig. 5, the driving member 7.1 includes an inclined surface 18.1 and a chamfer 19.1, which can act on the soap particle 1, and with this structure, when the rotating wheel 11.1 is manually rotated, the driving member 7.1 will make relative movement, and when one soap particle 1 enters the empty position 5.1 step by step, the inclined surface 18.1 on the driving member 7.1 will directly give a downward pressing force to the soap particle 1, and then the rotating wheel 11.1 will continue to rotate, and finally the soap particle 1 will be smoothly pressed and dropped into the bottle body 3 by acting on the soap particle 1 through the chamfer 19.1. The feeding mechanism has simple structure, does not need to manually pick up the soap particles 1, saves manpower, has flexible and intelligent structure, does not pollute the soap particles 1, and is clean and sanitary.
As shown in fig. 5, the cover body 2 further includes a cover 20.1 capable of covering the rotating wheel 11.1, the driving member 7.1 is located on the lower surface of the cover 20.1, and by adopting the structure, the soap grain 1 is put into the rotating wheel 11.1 of the rotating mechanism, and the cover 5.2 covers the cover 20.1, so that the soap grain 1 can be ensured to be in a stable space.
As shown in figure 1, the bottle body 3 comprises a connecting pipe 21.1 arranged on the vertical middle axis of the bottle body 3, the rotating mechanism comprises a first channel 22.1 for the connecting pipe 21.1 to pass through, the upper cover 5.2 comprises a second channel 23.1 for the connecting pipe 21.1 to pass through, and by adopting the structure, the upper cover 5.2, the rotating mechanism and the bottle body 3 can be connected together, so that the structure is simple, the soap particles 1 are not required to be picked up manually, manpower is saved, the structure is flexible and intelligent, the soap particles 1 cannot be polluted, and the cleaning and sanitation are realized.
Example 2:
the invention relates to a feeding mechanism for a soap bottle, which comprises a cover body 2 provided with a plurality of soap grains 1 and a bottle body 3 connected with the cover body 2, wherein the bottle body 3 comprises a bottle opening 5 communicated with the cover body 2, and the cover body 2 comprises a driving mechanism 4 capable of driving the soap grains 1 to fall into the bottle opening 5, as shown in figures 1 and 2. Connect a lid 2 that is equipped with soap grain 1 on bottle 3, when needs drop into bottle 3 with soap grain 1, only need act on actuating mechanism 4 on the lid 2, actuating mechanism 4 just can drive in soap grain 1 drops into bottleneck 5 to fall into in bottle 3, this kind of feeding mechanism simple structure does not need the people to pick up soap grain 1, uses manpower sparingly, and the structure is nimble quick-witted intelligent, can not pollute soap grain 1, sanitation and hygiene, and can promote modern house life quality.
The lid 2 in this structure is directly located the bottle 3 top, and soap grain 1 can be directly fall into in the bottle 3 from the lid 2, and this simple structure consumes time weak point, and is efficient.
As shown in fig. 1 and fig. 2, the driving mechanism 4 is a rotating mechanism capable of driving the soap grain 1 to fall into the bottle mouth 5 through rotation, and the structure is adopted, the rotating mechanism drives the soap grain 1 to fall into the bottle mouth 5, so that the structure is simple, the operation is convenient, the soap grain 1 does not need to be picked up manually, the labor is saved, the structure is flexible, the machine intelligence is realized, the soap grain 1 cannot be polluted, the cleaning and sanitation are realized, and the quality of modern household life can be improved.
As shown in fig. 1, the rotating mechanism comprises a vacancy 5.1 communicated with the bottle mouth 5 and a rotating body 6.1 driving the soap particles 1 to move circumferentially into the vacancy 5.1.
As shown in fig. 1, 3, 4 and 7, the rotator 6.1 includes a platform 9.1 for placing the soap particles 1, a fence 11.210.1, a rotating wheel 11.1 surrounding the fence 10.1 and movably connected to the fence 10.1, a plurality of partitions 12.1 located in the fence 10.1 and arranged in a circumferential distribution, and soap particles 1 located between the partitions 12.1 and used for placing the soap particles 1, the partitions 12.1 are integrally connected to the rotating wheel 11.1, the partitions 12.1 are movably connected to the upper surface of the platform 9.1, with this structure, the soap particles 1 are placed on each soap particle 1, when the rotating wheel 11.1 is rotated, the rotating wheel 11.1 drives the partitions 12.1 to move circumferentially relative to the platform 9.1, thus driving the soap particles 1 between the partitions 12.1 to move circumferentially on the platform 9.1, when the soap particles 1 move into the empty space 5.1, as the soap particles 5.1 are connected to the opening 6.1, the soap particles can fall into the empty space, and the bottle can be picked up easily and the soap bottle can be cleaned without pollution.
As shown in fig. 6, the platform 9.1 comprises a through hole 15.1 arranged on the platform 9.1, the through hole 15.1 being located directly above the opening 6.3 and directly below the empty space 5.1. Adopt this structure, set up a through-hole 15.1 on platform 9.1, this through-hole 15.1 communicates with vacancy 5.1 and the opening 6.3 of below of its top, when soap grain 1 moves in vacancy 5.1, soap grain 1 will fall into in the opening 6.3 from through-hole 15.1, finally fall into in the bottle 3, this kind of feeding mechanism simple structure, do not need the people to pick up soap grain 1, the manpower is saved, the structure is nimble quick-witted intelligence, can not pollute soap grain 1, sanitation and hygiene.
As shown in fig. 1, the cover body 2 includes a driving member 7.1 capable of pushing the soap particles 1 in the empty space 5.1 to fall into the opening 6.3, the driving member 7.1 is located right above the empty space 5.1 and extends into the empty space 5.1, the rotating mechanism further includes a stopper 14.1 provided on each of the partition blocks 12.1 for the driving member 7.1 to pass through, by adopting the structure, when the rotating wheel 11.1 is rotated, the partition blocks 12.1 drive the soap particles 1 to move circumferentially, the driving member 7.1 makes relative circumferential movement along the opposite direction with respect to the partition blocks 12.1, when one of the soap particles 1 enters the empty space 5.1 step by step, the driving member 7.1 gives a downward extrusion force to the soap particle 1, and then the rotating wheel 11.1 is rotated continuously, the driving member 7.1 can extrude the soap particles 1 to fall into the opening 6.3 and then fall into the bottle body 3, the feeding mechanism has a simple structure, does not need to pick up the soap particles 1 manually, thereby saving labor, the soap particles 1, and the structure is flexible, and the soap machine is sanitary, and the soap particles 1 can not be polluted, and can be cleaned intelligently and can fall into the bottle body 3.
As shown in fig. 4 and 7, the platform 9.1 includes a wafer 16.1 located in the through hole 15.1 and a cross gap 17.1 formed on the wafer 16.1, the cross gap 17.1 is located right above the opening 6.3, the wafer 16.1 adopts a silicone structure, and with this structure, in the process that the soap particle 1 is extruded by the driving member 7.1, the soap particle 1 will extrude the wafer 16.1 downward, and since the wafer 16.1 is made of a silicone material and the cross gap 17.1 is formed on the wafer 16.1, when the soap particle 1 is subjected to downward extrusion force, the cross gap 17.1 will be pressed, so that the cross gap is opened, and finally falls into the opening 6.3 of the bottle 3, and then falls into the bottle 3. The feeding mechanism is simple in structure, soap grains 1 on the platform 9.1 can be prevented from being damped by arranging the wafer 16.1, and water vapor evaporated from soap in the bottle body 3 is prevented from entering the cover body 2.
As shown in fig. 5, the driving member 7.1 includes an inclined surface 18.1 and a chamfer 19.1, which can act on the soap particle 1, and with this structure, when the rotating wheel 11.1 is manually rotated, the driving member 7.1 will make relative movement, and when one soap particle 1 enters the empty position 5.1 step by step, the inclined surface 18.1 on the driving member 7.1 will directly give a downward pressing force to the soap particle 1, and then the rotating wheel 11.1 will continue to rotate, and finally the soap particle 1 will be smoothly pressed and dropped into the bottle body 3 by acting on the soap particle 1 through the chamfer 19.1. The feeding mechanism has simple structure, does not need to manually pick up the soap particles 1, saves manpower, has flexible and intelligent structure, does not pollute the soap particles 1, and is clean and sanitary.
As shown in fig. 5, the cover body 2 further includes a cover 20.1 capable of covering the rotating wheel 11.1, the driving member 7.1 is located on the lower surface of the cover 20.1, and by adopting the structure, the soap grain 1 is put into the rotating wheel 11.1 of the rotating mechanism, and the cover 5.2 covers the cover 20.1, so that the soap grain 1 can be ensured to be in a stable space.
As shown in figure 1, the bottle body 3 comprises a connecting pipe 21.1 arranged on the vertical middle axis of the bottle body 3, the rotating mechanism comprises a first channel 22.1 for the connecting pipe 21.1 to pass through, the upper cover 5.2 comprises a second channel 23.1 for the connecting pipe 21.1 to pass through, by adopting the structure, the upper cover 5.2, the rotating mechanism and the bottle body 3 can be connected together, the structure is simple, the soap particles 1 are not required to be picked up manually, the labor is saved, the structure is flexible and intelligent, the soap particles 1 cannot be polluted, and the soap bottle is clean and sanitary.
Example 3:
the invention relates to a feeding mechanism for a soap liquid bottle, which comprises a cover body 2 provided with a plurality of soap grains 1 and a bottle body 3 connected with the cover body 2, wherein the bottle body 3 comprises a bottle opening 5 communicated with the cover body 2, and the cover body 2 comprises a driving mechanism 4 capable of driving the soap grains 1 to fall into the bottle opening 5, as shown in figures 9 and 10. Adopt the feeding mechanism who is used for soap lye bottle of above-mentioned structure, connect a lid 2 that is equipped with soap grain 1 on bottle 3, when needs drop into bottle 3 with soap grain 1, only need act on actuating mechanism 4 on the lid 2, actuating mechanism 4 just can drive in soap grain 1 drops into bottleneck 5, thereby fall into in the bottle 3, this kind of feeding mechanism simple structure, do not need the people to pick up soap grain 1, the manpower is saved, the flexible machine intelligence of structure, can not pollute soap grain 1, sanitation and hygiene, and can promote modern life quality at home.
As shown in fig. 9 and 10, the driving mechanism 4 comprises a rotating mechanism which can drive the soap grain 1 to fall into the bottle mouth 5 through rotation, the structure is adopted, the soap grain 1 is driven to fall into the bottle mouth 5 through the rotating mechanism, the structure is simple, the operation is convenient, the soap grain 1 is not required to be picked up manually, the labor is saved, the structure is flexible and intelligent, the soap grain 1 cannot be polluted, the cleaning and sanitation are realized, and the quality of modern household life can be improved.
As shown in fig. 9, the rotating mechanism includes a bottom case 4.2 for placing a plurality of soap grains 1 and an upper cover 5.2, the upper cover 5.2 includes a discharge hole 10.2 for the soap grains 1 to extend out, and the rotating mechanism further includes a rotating member for driving the soap grains 1 to extend out of the discharge hole 10.2 by rotation.
Lid 2 in this structure is directly located bottle 3 tops, and soap grain 1 can directly stretch out discharge opening 10.2 and is promoted again by the manual work and fall into bottle 3 in, this simple structure, and it is short to consume time, efficient.
As shown in fig. 9, 11 and 12, the bottom case 4.2 includes a case opening 6.2 and a soap particle cavity 7.2 for placing a plurality of soap particles 1, the rotating member includes a slope 8.2 arranged in the soap particle cavity 7.2 and a pushing block 9.2 capable of extending into the soap particle 1 cavity, the discharge hole 10.2 is positioned right above the slope 8.2, the slope 8.2 includes a slope 8.2 surface inclined towards the case opening 6.2 direction, and the pushing block 9.2 is positioned on the lower surface of the upper cover 5.2. Connect a lid 2 that is equipped with soap grain 1 on bottle 3, when the soap grain 1 is taken out to needs, only need artifical manual rotation upper cover 5.2, the ejector pad of upper cover 5.2 lower surface will promote soap grain 1 and move in soap grain 1 intracavity, when one of them soap grain 1 moves slope 8.2, will move along slope 8.2 towards box mouth 6.2 direction, because a discharge opening 10.2 has just been seted up directly over slope 8.2, then soap grain 1 will emerge in the discharge opening 10.2, just so send out soap grain 1 from bottom case 4.2, this kind of liquid bottle soap feeding mechanism, can accomodate soap grain 1, and conveniently pick up soap grain 1, improve the convenience and the flexibility of life at home.
As shown in fig. 11, the bottom case 4.2 includes a third channel 15.2 for the bottle opening 5 to pass through, the upper cover 5.2 includes a fourth channel 16.2 for the bottle opening 5 to pass through, when the soap grain 1 emerges from the discharging hole 10.2, the soap grain 1 on the upper surface of the upper cover 5.2 is manually pushed into the bottle opening 5, and then falls into the bottle body 3 to make soap solution. This simple structure can accomodate soap grain 1, and conveniently picks up soap grain 1, and is convenient nimble.
As shown in fig. 11, the slope 8.2 surface includes a terminal portion 17.2 close to the opening 6.2 of the bottom case 4.2 and an open end portion 18.2 far from the opening 6.2 of the bottom case 4.2, the bottom case 4.2 further includes a stopper 19.2 located at the terminal portion 17.2, and the stopper 19.2 is disposed at the terminal portion 17.2 of the slope 8.2 surface, so as to prevent the soap particles 1 from falling into the cavity of the soap particles 1, and ensure that the feeding mechanism can be used smoothly.
As shown in fig. 11, the bottom case 4.2 further comprises a limiting rail 11.2 arranged around the third channel 15.2, and by adopting the structure, the soap particles 1 can be prevented from shaking seriously, and the feeding mechanism can be ensured to be used smoothly.
As shown in fig. 11, the bottom case 4.2, the slope 8.2, the stopping block 19.2 and the position-limiting bar 11.2 are integrally formed, so that the soap granule 1 does not generate resistance in the movement process, the cost is saved, and the bottom case 4.2 has good appearance.
As shown in fig. 12, the upper cover 5.2 and the pushing block 9.2 are integrally formed, so that the soap granule 1 can move without resistance, the cost is saved, and the bottom case 4.2 has good appearance.
Example 4:
the invention relates to a feeding mechanism for a soap liquid bottle, as shown in fig. 13 and 14, the feeding mechanism comprises a cover body 2 provided with a plurality of soap grains 1 and a bottle body 3 connected with the cover body 2, the bottle body 3 comprises a bottle opening 5 communicated with the cover body 2, the cover body 2 comprises a driving mechanism 4 capable of driving the soap grains 1 to fall into the bottle opening 5, the cover body 2 provided with the soap grains 1 is connected with the bottle body 3, when the soap grains 1 need to be put into the bottle body 3, the driving mechanism 4 can drive the soap grains 1 to fall into the bottle opening 5 only by acting on the driving mechanism 4 on the cover body 2, and then the soap grains fall into the bottle body 3.
As shown in fig. 13 and 14, actuating mechanism 4 includes and can drive the pushing mechanism that soap grain 1 fell into in bottleneck 5 through promoting, adopts this structure, drives soap grain 1 through pushing the pushing mechanism and falls into in bottleneck 5, and its simple structure, convenient operation does not need the people to pick up soap grain 1, uses manpower sparingly, and the structure is nimble quick-witted intelligence, can not pollute soap grain 1, and is clean and sanitary, and can promote modern house life quality.
Lid 2 in this structure is directly located bottle 3 tops, and soap grain 1 can be directly fall into in the bottle 3 from lid 2, this simple structure, and the time spent is short, and is efficient.
As shown in fig. 16, the pushing mechanism includes a soap grain chamber 4.3 for placing a plurality of soap grains 1, a pushing member 3.3 and an end cover 5.3 covering the end of the soap grain chamber 4.3, the soap grain chamber 4.3 includes an opening 6.3 for the pushing member 3.3 to extend into, by adopting the structure, the end cover 5.3 of the soap grain chamber 4.3 is opened, a plurality of soap grains 1 are placed into the soap grain chamber 4.3, the pushing member 3.3 is pushed, the pushing member 3.3 can extend into the soap grain chamber 4.3, and the soap grain chamber 4.3 is pushed to fall into the bottle body 3.
As shown in fig. 16, the pushing mechanism further includes a barrel 7.3 communicated with the soap grain chamber 4.3, the soap grain chamber 4.3 is located inside the barrel 7.3, the barrel 7.3 includes a bottom opening 8.3 matched with the bottle opening 5, by adopting the structure, the pushing member 3.3 pushes the soap grain 1, and as the barrel 7.3 is communicated with the soap grain chamber 4.3, the soap grain 1 is pushed by the pushing member 3.3, and then enters the barrel 7.3 and falls into the bottle body 3 from the bottom opening 8.3 of the barrel 7.3. The soap dispenser has the advantages of simple structure, capability of putting the soap grains 1 into the bottle body 3 only by pushing the pushing piece 3.3, no need of manually picking up the soap grains 1, labor saving, flexible and intelligent structure, no pollution to the soap grains 1, cleanness and sanitation.
As shown in fig. 16, the barrel 7.3 is communicated with the soap particle chamber 4.3 through a communicating part, the communicating part comprises a communicating port 9.3 and a flexible part 10.3 connected with the communicating port 9.3, the communicating port 9.3 is arranged on the soap particle chamber 4.3 and is positioned at one side opposite to the opening 6.3, the communicating port 9.3 is connected with the bottom opening 8.3, the communicating port 9.3 is positioned above the bottom opening 8.3, by adopting the structure, the pushing part 3.3 extends into the soap particle chamber 4.3 from the opening 6.3 to push the soap particles 1, the soap particles 1 sequentially pass through the communicating port 9.3 and the bottom opening 8.3 positioned at one side opposite to the opening 6.3 and finally fall into the bottle body 3, the flexible part 10.3 connected with the communicating port 9.3 plays a role of shielding the soap particles 1, and under the condition that the pushing part 3.3 is not pushed, the soap particles 1 can not automatically fall into the bottle body 3 from the communicating port 9.3. The soap dispenser has the advantages of simple structure, capability of putting the soap grains 1 into the bottle body 3 only by pushing the pushing piece 3.3, no need of manually picking up the soap grains 1, labor saving, flexible and intelligent structure, no pollution to the soap grains 1, cleanness and sanitation.
As shown in fig. 16, the pushing member 3.3 includes a first pushing block 11.3 located outside the barrel 7.3, a pushing rod 12.3 capable of extending into the soap particle chamber 4.3 through the opening 6.3, a spring 13.3 located below the pushing rod 12.3, and a second pushing block 14.3 located inside the soap particle chamber 4.3, with this structure, the first pushing block 11.3 is manually pushed by a person, and under the action of the pushing rod 12.3, the second pushing block 14.3 acts on the soap particle 1 to push the soap particle 1 to fall into the bottle body 3 through the communicating port 9.3, the spring 13.3 plays a role of returning, and after the pushed pushing block is released, the pushing block will return to the original state again under the action of the spring 13.3, the spring 13.3 herein is not only arranged below the pushing rod 12.3, but also can be directly arranged on the outer surface of the pushing rod 12.3, and the spring 13.3 directly contacts the soap particle to push the soap particle to fall into the bottle body. The structure is simple, the soap grains do not need to be picked up manually, the labor is saved, the structure is flexible and intelligent, the soap grains are not polluted, and the soap box is clean and sanitary. In the invention, the connection structures between the first push block 11.3 and the push rod 12.3 and between the second push block 14.3 and the push rod 12.3 can be connected through a plug-in structure, can also be connected through a lock catch structure, or can be connected together in a hinge structure form. The first pushing block 11.3, the pushing rod 12.3 and the second pushing block 14.3 are not limited to act on the first pushing block 11.3 by pushing the second pushing block 14.3 in the horizontal direction, so as to realize the structure of pushing soap particles to fall into the bottle body 3, and the first pushing block 11.3 can also be acted by pushing the second pushing block 14.3 in the vertical direction, so as to realize the structure of pushing soap particles to fall into the bottle body 2.3, namely, the opening 6.3 in the text is set to be in a vertical shape, the pushing rod 12.3 is also set to be in a vertical structure, an inverted inclined plane is arranged on the second pushing block 14.3, so that the soap particles can be pushed out to fall into the bottle body 3 by vertically pushing the first pushing block 11.3 and then driving the inverted inclined plane on the second pushing block 14.3 to act on the soap particles, the structure is simple, manpower is saved, and the structure is flexible and intelligent. The structure is simple, the soap grains do not need to be picked up manually, the labor is saved, the structure is flexible and intelligent, the soap grains 1 are not polluted, and the soap box is clean and sanitary.
The flexible part 10.3 is the silica gel structure, adopts this structure, can prevent that soap grain 1 from falling into in bottle 3 from the intercommunication mouth 9.3 automatically to play green's effect.

Claims (12)

1. The utility model provides a feeding mechanism for soap lye bottle which characterized in that: the soap bottle comprises a cover body (2) provided with a plurality of soap grains (1) and a bottle body (3) connected with the cover body (2), wherein the bottle body (3) comprises a bottle opening (5) communicated with the cover body (2), the cover body (2) comprises a driving mechanism (4) capable of driving the soap grains (1) to fall into the bottle opening (5), the driving mechanism (4) is a rotating mechanism capable of driving the soap grains (1) to fall into the bottle opening (5) through rotation, the rotating mechanism comprises a vacancy (5.1) communicated with the bottle opening (5), a rotating body (6.1) capable of driving the soap grains (1) to move circumferentially into the vacancy (5.1), the rotating body (6.1) comprises a platform (9.1) for placing the soap grains (1), a fence (10.1), a rotating wheel (11.1) surrounding the periphery of the fence (10.1) and movably connected with the fence (10.1), and a plurality of separation blocks (12.1) located in the fence (10.1) and arranged in a circumferential distribution manner and a position for placing the soap grains (1) between the soap grains (12.1).
2. The feed mechanism for soap bottles of claim 1 wherein: the separating blocks (12.1) are integrally connected with the rotating wheel (11.1), and the separating blocks (12.1) are movably connected with the upper surface of the platform (9.1).
3. A feed mechanism for soap bottles as claimed in claim 1 or 2 wherein: platform (9.1) is including setting up through-hole (15.1) on platform (9.1), and through-hole (15.1) are located bottleneck (5) directly over, and are located vacancy (5.1) directly below.
4. A feed mechanism for soap bottles as claimed in claim 1 or 2 wherein: the cover body (2) comprises a driving piece (7.1) capable of pushing soap grains (1) in the vacant positions (5.1) to fall into the bottle opening (5), the driving piece (7.1) is located right above the vacant positions (5.1) and can extend into the vacant positions (5.1), and the rotating mechanism further comprises a blocking opening (14.1) which is formed in each separating block (12.1) and through which the driving piece (7.1) penetrates.
5. The feed mechanism for soap bottles of claim 3 wherein: platform (9.1) is including being located disk (16.1) in through-hole (15.1) and seting up cross space (17.1) on disk (16.1), cross space (17.1) are located opening (6.3) directly over, disk (16.1) adopt the silica gel structure.
6. The feed mechanism for soap bottles of claim 4 wherein: the driving part (7.1) comprises an inclined surface (18.1) and a chamfer (19.1) which can act on the soap particle (1), the cover body (2) further comprises a cover (20.1) which can cover the rotating wheel (11.1), and the driving part (7.1) is positioned on the lower surface of the cover (20.1).
7. A feed mechanism for soap bottles as claimed in claim 1, 5 or 6 wherein: the rotating mechanism comprises a bottom box (4.2) for placing a plurality of soap grains (1) and an upper cover (5.2), wherein the upper cover (5.2) comprises a discharge hole (10.2) for the soap grains (1) to extend out, and the rotating mechanism further comprises a rotating piece which drives the soap grains (1) to extend out of the discharge hole (10.2) through rotation.
8. The feed mechanism for soap bottles of claim 7 wherein: bottom box (4.2) are including box mouth (6.2) and supply soap grain (1) chamber that a plurality of soap grain (1) were placed, and the rotating member is including setting up slope (8.2) in soap grain (1) intracavity and can stretch into promotion piece (9.2) of soap grain (1) intracavity, and discharge opening (10.2) are located slope (8.2) directly over, slope (8.2) include slope (8.2) face of a slope towards box mouth (6.2) direction slope, it is located upper cover (5.2) lower surface to promote piece (9.2).
9. The feed mechanism for soap bottles of claim 8 wherein: the slope (8.2) surface comprises a terminal part (17.2) close to the box opening (6.2) of the bottom box (4.2) and an opening end (18.2) far away from the box opening (6.2) of the bottom box (4.2), and the bottom box (4.2) further comprises a resisting block (19.2) located at the terminal part (17.2).
10. The utility model provides a feeding mechanism for soap lye bottle which characterized in that: including lid (2) and bottle (3) of being connected with lid (2) that are equipped with a plurality of soap grain (1), bottle (3) include one with the bottleneck (5) of lid (2) intercommunication, lid (2) are including driving mechanism (4) that can drive soap grain (1) and fall into bottleneck (5), driving mechanism (4) are for can drive the pushing mechanism that soap grain (1) fall into bottleneck (5) through promoting, and pushing mechanism includes soap grain chamber (4.3) that supply a plurality of soap grain (1) to place, impeller (3.3) and cover end cover (5.3) at soap grain chamber (4.3) port department, and soap grain chamber (4.3) include one supply impeller (3.3) to stretch into opening (6.3), and pushing mechanism still includes a barrel (7.3) that communicate with soap grain chamber (4.3), and soap grain chamber (4.3) are located barrel (7.3) inside, barrel (7.3) include one with bottleneck (8.8) of bottleneck (5) adaptation.
11. The feed mechanism for soap bottles of claim 10 wherein: barrel (7.3) are through intercommunication portion and soap grain room (4.3) intercommunication, and the intercommunication portion includes intercommunication mouth (9.3) and flexible piece (10.3) be connected with intercommunication mouth (9.3), and intercommunication mouth (9.3) set up on soap grain room (4.3) and lie in the relative one side of opening (6.3), and intercommunication mouth (9.3) are connected with end opening (8.3), and intercommunication mouth (9.3) lie in end opening (8.3) top.
12. A feed mechanism for soap bottles as defined in claim 10 or claim 11 wherein: the pusher (3.3) comprises a first pusher (11.3) located outside the barrel (7.3), a push rod (12.3) capable of extending into the soap pellet compartment (4.3) through the opening (6.3), a spring (13.3) located below the push rod (12.3), and a second pusher (14.3) located inside the soap pellet compartment (4.3).
CN202011623941.2A 2020-12-31 2020-12-31 Feeding mechanism for soap solution bottle Active CN112722522B (en)

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CN112722522B (en) * 2020-12-31 2022-10-14 宁波厨聚厨房科技有限公司 Feeding mechanism for soap solution bottle
CN118684012A (en) * 2024-08-29 2024-09-24 冀南技师学院 Vertical spiral fine blanking device

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CN214297254U (en) * 2020-12-31 2021-09-28 宁波厨聚厨房科技有限公司 Feeding mechanism of soap solution bottle

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Denomination of invention: A feeding mechanism for soap bottles

Effective date of registration: 20230524

Granted publication date: 20221014

Pledgee: Zhejiang Tailong Commercial Bank Co.,Ltd. Ningbo Haishu sub branch

Pledgor: NINGBO CHEFSHERE KITCHEN TECHNOLOGY Co.,Ltd.

Registration number: Y2023980041574

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Granted publication date: 20221014

Pledgee: Zhejiang Tailong Commercial Bank Co.,Ltd. Ningbo Haishu sub branch

Pledgor: NINGBO CHEFSHERE KITCHEN TECHNOLOGY Co.,Ltd.

Registration number: Y2023980041574