CN214296961U - Feeding mechanism of soap solution bottle - Google Patents

Abstract

The utility model relates to a feeding mechanism of soap lye bottle, including the lid that is equipped with a plurality of soap grains and the bottle of being connected with the lid, the bottle includes a bottleneck of being connected with the lid, the lid is including promoting the soap grain and falling into intraoral driving piece of bottleneck, connect a lid that is equipped with the soap grain on the bottle, when needs drop into the soap grain bottle, only need press the driving piece on the lid, the driving piece just can promote the soap grain and drop into in the bottleneck, thereby fall into the bottle, this kind of feeding mechanism simple structure, do not need the people to pick up the soap grain, use manpower sparingly, the nimble machine intelligence of structure, can not pollute the soap grain, sanitation and hygiene.

Description

Feeding mechanism of soap solution bottle

Technical Field

The utility model belongs to the technical field of the soap lye preparation technique and specifically relates to a feeding mechanism of soap lye bottle is related to.

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 stick to the soap particles, the soap particles are polluted, the manufactured soap liquid is polluted at the same time, and the soap liquid cannot achieve the effects of cleaning and disinfection.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is to provide a feeding mechanism of soap liquid bottle with simple structure, labor saving and no pollution to soap particles.

The utility model adopts the technical scheme that a feeding mechanism of soap lye bottle, including the lid that is equipped with a plurality of soap grain and the bottle of being connected with the lid, the bottle includes a bottleneck of being connected with the lid, and the lid is including promoting the soap grain and fall into the intraoral driving piece of bottleneck.

The utility model has the advantages that: adopt the feeding mechanism of above-mentioned structure soap lye bottle, 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 press the driving piece on the lid, the driving piece just can promote the soap grain and drop into in the bottleneck to fall into the bottle, this kind of feeding mechanism 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.

As prior, the lid is still including supplying the soap grain chamber that a plurality of soap grains placed and the upper cover of lid in soap grain chamber port department, the soap grain chamber includes the opening that a confession driving piece stretched into, adopt this structure, open the upper cover in soap grain chamber, put into the soap grain intracavity with a plurality of soap grains, promote the driving piece, the driving piece can stretch into the soap grain intracavity, and promote the soap grain chamber and fall into in the bottle, this simple structure, only need promote the driving piece and just can put in the bottle with the soap grain, do not need the people to pick up the soap grain, use manpower sparingly, the nimble machine intelligence of structure, can not pollute the soap grain, sanitation and hygiene.

Preferably, the cover body further comprises a barrel body communicated with the soap particle cavity, the soap particle cavity is located inside the barrel body, the barrel body comprises a bottom opening matched with the bottle opening, the driving piece pushes the soap particles, and after the soap particles are pushed by the driving piece, the soap particles can enter the barrel body and fall into the bottle body from the bottom opening of the barrel body due to the fact that the barrel body is communicated with the soap particle cavity. This simple structure only needs to promote the driving piece and just can put in the bottle with the soap grain, 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.

As prior, 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 driving piece stretches into the soap grain intracavity from the opening and promotes the soap grain, the soap grain loops through intercommunication mouth and the end opening that is located open-ended relative one side, finally fall into in 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 driving piece, make the soap grain can not fall into in the bottle from the intercommunication mouth automatically. This simple structure only needs to promote the driving piece and just can put in the bottle with the soap grain, 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.

As preferentially, the driving piece is including being located the outside first ejector pad of barrel, can stretch into the push rod of soap grain intracavity through the opening, be located the spring of push rod below and be located the inside second ejector pad in soap grain intracavity, adopt this structure, the artificial first ejector pad that promotes manually, under the effect of push rod, second ejector pad effect soap grain, just can promote the soap grain and fall into the bottle through the intercommunication mouth in, this simple structure, do not need the people to pick up the soap grain, 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 feeding mechanism of a soap bottle of the present invention;

fig. 2 is a front view of a feeding mechanism of a soap bottle of the present invention;

fig. 3 is a schematic structural view of a cylinder in a feeding mechanism of a soap bottle of the present invention;

fig. 4 is a sectional view of a feeding mechanism of a soap bottle of the present invention;

as shown in the figure: 1. a cover body; 2. a bottle body; 3. a drive member; 4. a soap particle cavity; 5. an upper cover; 6. an opening; 7. a barrel; 8. a bottom opening; 9. a communication port; 10. a flexible member; 11. a first push block; 12. a push rod; 13. a spring; 14. a second push block; 15. and (5) opening the bottle.

Detailed Description

The invention is further described below with reference to the accompanying drawings in combination with the embodiments so that those skilled in the art can implement the invention with reference to the description, and the scope of the invention is not limited to the 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.

The utility model relates to a feeding mechanism of soap lye bottle, as shown in figure 1, including the lid 1 that is equipped with a plurality of soap grain and the bottle 2 of being connected with lid 1, bottle 2 includes a bottleneck of being connected with lid 1, and lid 1 includes that one can promote the soap grain and fall into intraoral driving piece 3 of bottleneck. The feeding mechanism in figure 1 connects a lid 1 that is equipped with the soap grain on bottle 2, when needs drop into bottle 2 with the soap grain, only need press driving piece 3 on lid 1, and driving piece 3 just can promote the soap grain and drop into in the bottleneck to fall into in bottle 2, 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.

As shown in fig. 2, lid 1 is still including the soap grain chamber 4 that supplies a plurality of soap grains to place and the upper cover 5 of lid in 4 port departments of soap grain chamber, as shown in fig. 3, soap grain chamber 4 and driving piece 3 swing joint, soap grain chamber 4 includes an opening 6 that supplies driving piece 3 to stretch into, adopt this structure, open upper cover 5 in soap grain chamber 4, put into soap grain chamber 4 with a plurality of soap grains, promote driving piece 3, driving piece 3 can stretch into in soap grain chamber 4, and promote soap grain chamber 4 and fall into in bottle 2, this simple structure, only need promote driving piece 3 and just can put into bottle 2 with the soap grain, do not need the people to pick up the soap grain, manpower is saved, the structure is nimble machine wisdom, can not pollute the soap grain, sanitation and hygiene.

As shown in fig. 4, the cover body 1 further includes a cylinder body 7 communicated with the soap particle cavity 4, the soap particle cavity 4 is located inside the cylinder body 7, the cylinder body 7 includes a bottom opening 8 matched with the bottle opening, and with the structure, the driving member 3 pushes the soap particles, and after the soap particles are pushed by the driving member 3, the soap particles will enter the cylinder body 7 and fall into the bottle body 2 from the bottom opening 8 of the cylinder body 7. This simple structure only needs to promote driving piece 3 and just can put in the soap grain to bottle 2, 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.

As shown in fig. 4, the barrel 7 is communicated with the soap particle cavity 4 through the communicating part, the communicating part comprises a communicating port 9 and a flexible part 10 connected with the communicating port 9, the communicating port 9 is arranged on the soap particle cavity 4 and is positioned on one side opposite to the opening 6, the communicating port 9 is connected with the bottom opening 8, by adopting the structure, the driving part extends into the soap particle cavity 4 from the opening 6 to push the soap particles, the soap particles sequentially pass through the communicating port 9 and the bottom opening 8 which are positioned on one side opposite to the opening 6, and finally fall into the bottle body 2, the flexible part 10 connected with the communicating port 9 plays a role in shielding the soap particles, and under the condition that the driving part 3 is not pushed, the soap particles cannot automatically fall into the bottle body 2 from the communicating port 9. This simple structure only needs to promote driving piece 3 and just can put in the soap grain to bottle 2, 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.

As shown in fig. 4, the driving member 3 includes a first push block 11 located outside the barrel 7, a push rod 12 capable of extending into the soap grain chamber 4 through the opening 6, a spring 13 located below the push rod 12, and a second push block 14 located inside the soap grain chamber 4, by adopting this structure, the first push block 11 is manually pushed by a person, under the action of the push rod 12, the second push block 14 acts on the soap grain, so as to push the soap grain to fall into the bottle body 2 through the communicating port 9, the spring 13 plays a role of returning, after pushing, the push block will return to the original state again under the action of the spring after releasing the hand, the spring herein is not limited to be arranged below the push rod, and can also be directly sleeved on the outer surface of the push rod, and the soap grain is pushed to fall into the bottle body by directly contacting the soap grain through the spring. 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. The utility model discloses in, the connection structure between first ejector pad 11 and the push rod 12 and between second ejector pad 14 and the push rod 12 can be connected through grafting structure, also can connect through the hasp structure, perhaps the hinge structure form links together. First ejector pad 11 in the text, push rod 12 and second ejector pad 14 are not only limited to act on first ejector pad 11 through promoting second ejector pad 14 in the horizontal direction, thereby realize promoting the structure that soap grain 1 falls into the bottle, can also act on first ejector pad 11 through promoting second ejector pad 14 in vertical direction, thereby realize promoting the structure that soap grain 1 falls into bottle 2, set up opening 6 in the text into vertical shape promptly, push rod 12 also sets up to vertical structure, set up an inclined plane on second ejector pad 14, just can be through first ejector pad 11 of vertical promotion, then drive the inclined plane that falls on second ejector pad 14 and act on soap grain 1, just can push out soap grain 1 and fall into in bottle 2, the steam generator is simple in structure, manpower saving, the flexible machine intelligence of structure.

The flexible part 10 is of a silica gel structure, can prevent soap grains from automatically falling into the bottle body 2 from the communicating port 9, and has the function of green and environmental protection.

Claims (6)

1. The utility model provides a feeding mechanism of soap lye bottle which characterized in that: the soap bottle comprises a cover body (1) provided with a plurality of soap grains and a bottle body (2) connected with the cover body (1), wherein the bottle body (2) comprises a bottle opening connected with the cover body (1), and the cover body (1) comprises a driving piece (3) capable of pushing the soap grains to fall into the bottle opening.

2. The soap bottle feeding mechanism of claim 1, wherein: the cover body (1) further comprises a soap grain cavity (4) for placing a plurality of soap grains and an upper cover (5) covering the port of the soap grain cavity (4), and the soap grain cavity (4) comprises an opening (6) for the driving piece (3) to extend into.

3. The soap bottle feeding mechanism of claim 2, wherein: the cover body (1) further comprises a cylinder body (7) communicated with the soap particle cavity (4), the soap particle cavity (4) is located inside the cylinder body (7), and the cylinder body (7) comprises a bottom opening (8) matched with the bottle opening.

4. The soap bottle feeding mechanism of claim 3, wherein: barrel (7) are through intercommunication portion and soap grain chamber (4) intercommunication, and the intercommunication portion includes intercommunication mouth (9), and intercommunication mouth (9) set up on soap grain chamber (4) and are located the relative one side of opening (6), and intercommunication mouth (9) are located end mouth (8) top.

5. The soap bottle feeding mechanism of claim 4, wherein: the communication part also comprises a flexible piece (10) connected with the communication opening (9).

6. A soap bottle feeding mechanism as claimed in claim 4 or claim 5 wherein: the driving piece (3) comprises a first push block (11) positioned outside the barrel body (7), a push rod (12) capable of extending into the soap grain cavity (4) through the opening (6), a spring (13) positioned below the push rod (12) and a second push block (14) positioned inside the soap grain cavity (4).

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