CN110005836B - Mixing mechanism is transferred to collude in bottle - Google Patents

Abstract

The invention discloses an in-bottle blending and mixing mechanism, which belongs to the technical field of liquid mixing and comprises an upper container and a lower container, wherein one end of the upper container is hermetically provided with a blending component, and the other end of the upper container is hermetically assembled with the lower container; a central shaft cavity, an inner ring cavity and an outer ring cavity are sequentially arranged in the upper container along the coaxial center, and all three are communicated with the inner cavity of the lower container; the inner ring cavity, the outer ring cavity and the inner cavity of the lower container are communicated or separated from each other by the lifting movement of the hooking and adjusting valve core in the central shaft cavity; the hooking and adjusting component comprises a hooking and adjusting inner plug and a hooking and adjusting piece, the hooking and adjusting piece rotates relative to the hooking and adjusting inner plug to enable an inner ring cavity and an outer ring cavity to respectively or simultaneously form outlets, and is linked with the lifting and adjusting valve core to enable fillers in the inner ring cavity and the outer ring cavity to fall into a lower container in sequence, so that the purposes of mixing and preparing the two fillers in the hooking and adjusting process can be achieved, the hooking and adjusting mixing efficiency is improved, and the operation difficulty is simplified.

Description

Mixing mechanism is transferred to collude in bottle

Technical Field

The invention belongs to the technical field of liquid mixing, and particularly relates to an in-bottle blending and mixing mechanism.

Background

In the industrial production process, certain products are required to be formed after blending and mixing, and the brewing process of white spirit is taken as an example. The white wine fermentation is an alcoholic product prepared by taking steamed grains as raw materials, fermenting by microorganisms and then processing. Steaming and boiling gelatinized grains at high temperature, spreading to cool to lower temperature, adding yeast powder rich in microorganism, sealing, fermenting for a period of time, converting into alcohol and other fragrant substances, steaming to obtain Chinese liquor, and mixing the distilled liquor with various kinds of liquor, which is called blending; the blended wine mainly has the following functions: the proportion of various trace components in the wine is proper, and the standard requirements and or ideal flavor feeling and style characteristics of the white spirit are achieved.

At present, when the concentration proportion of the mixed solution (including wine, water, beverage, medicament and the like) is prepared and regulated, a manual liquid preparation mode is generally adopted, namely, the preparation process of the mixed concentration is mainly finished by manual operation. By adopting the traditional preparation mechanism, on one hand, the manual operation is time-consuming and material-consuming, and each operation can only prepare according to one concentration proportion, so that the production requirement of the existing industrial production on the mixed liquid can not be met to a great extent, and the operation is complicated; on the other hand, the formulated ratio depends largely on the skill level of the operator and the experience of the practitioner, so that the ratio of the components in the finally formulated mixed liquid cannot meet the customer's requirements.

Aiming at the problems, the conventional blending equipment on the market is various in variety, but is only suitable for single mixing proportion for preparation, and the canning is complex, the operation is complex and the production efficiency is low in the blending process.

Disclosure of Invention

In view of the above, the present invention aims to provide an in-bottle blending and mixing mechanism to achieve the purposes of achieving the blending and mixing of two kinds of fillers in the blending process, improving the blending and mixing efficiency and simplifying the operation difficulty.

The technical scheme adopted by the invention is as follows: the in-bottle blending mixing mechanism comprises an upper container and a lower container, wherein one end of the upper container is hermetically provided with a blending component, and the other end of the upper container is hermetically assembled with the lower container; a central shaft cavity, an inner ring cavity and an outer ring cavity are sequentially arranged in the upper container along the coaxial center, and are communicated with the inner cavity of the lower container, and a hook valve core is movably arranged in the central shaft cavity; the hooking and adjusting component comprises a hooking and adjusting inner plug and a hooking and adjusting piece, the hooking and adjusting piece rotates relative to the hooking and adjusting inner plug to enable an inner ring cavity and an outer ring cavity to respectively or simultaneously form outlets, and the hooking and adjusting valve core is linked to do lifting motion in a central shaft cavity, so that the outer ring cavity and the inner ring cavity are sequentially communicated with the inner cavity of the lower container, and different proportions of hooking and adjusting of the mixture in the bottle can be achieved.

Further, one side of the hooking and adjusting inner plug is hermetically assembled with the ports of the middle shaft cavity, the inner ring cavity and the outer ring cavity, and the other side of the hooking and adjusting inner plug is movably sleeved with the hooking and adjusting piece; the hooking inner plug and the hooking piece are sleeved on the hooking valve core, and the hooking piece is in threaded connection with the hooking valve core; so as to realize the linkage of the rotary motion of the hooking and adjusting piece and the lifting motion of the hooking and adjusting valve core, thereby forming a screw-nut pair.

Further, the hooking and adjusting piece is provided with an inner ring outlet and an outer ring outlet; the hooking inner plug is provided with a hooking inner plug inner ring outlet and a hooking inner plug outer ring outlet; the inner ring outlet of the hooking and adjusting inner plug and the outer ring outlet of the hooking and adjusting inner plug respectively correspond to the inner ring outlet of the hooking and adjusting piece and the outer ring outlet of the hooking and adjusting piece in a rotating way, so that an inner ring cavity and an outer ring cavity respectively or simultaneously form outlets; when the hooking and adjusting piece rotates relative to the hooking and adjusting inner plug, on one hand, the fillers in the inner ring cavity and the outer ring cavity can be poured out in sequence. On the other hand, the valve core can be linked to be hooked and regulated to do lifting motion, and the mechanism design is ingenious and unique.

Further, the bottle further comprises a rotating part and a bottle opening arranged in the rotating part, the hooking part is sleeved with the bottle opening, and a first anti-rotation structure is arranged between the hooking part and the bottle opening; a second anti-rotation structure is arranged between the bottle mouth and the rotating piece; the bottleneck is convenient to pour out the inside filler of inner ring chamber and outer ring chamber, promotes the simple operation, simultaneously, colludes and transfers after mutually assembling between spare, bottleneck and the rotating member three, alright play the effect of preventing changeing, and the assembly is simple and convenient, and the operation is swift.

Further, the first rotation preventing structure comprises a plurality of hooking and adjusting piece rotation preventing bosses arranged at the end part of the hooking and adjusting piece and a plurality of bottleneck rotation preventing bosses arranged in the bottleneck, and each hooking and adjusting piece rotation preventing boss is in meshed fit with each bottleneck rotation preventing boss; the second anti-rotation structure comprises a plurality of bottle opening anti-rotation ribs arranged on the side wall of the bottle opening and rotating piece anti-rotation ribs arranged in the rotating piece, and each bottle opening anti-rotation rib is in snap fit with each rotating piece anti-rotation rib; the first anti-rotation structure realizes that the bottle mouth linkage hook adjusting piece performs rotary motion, and the second anti-rotation structure realizes that the rotary piece links the bottle mouth to perform rotary motion, so that the transmission of the rotary motion is finally achieved.

Furthermore, the opening edges of the inner ring outlet of the hooking and adjusting inner plug and the outer ring outlet of the hooking and adjusting inner plug are respectively provided with a convex point type outer edge, the convex point type outer edge is higher than the upper end surface of the hooking and adjusting inner plug, and the convex point type outer edge can greatly improve the tightness of the inner ring outlet of the hooking and adjusting inner plug and the tightness of the outer ring outlet of the hooking and adjusting inner plug.

Further, a first lower end sealing port and a second lower end sealing port are arranged in the upper container and are respectively communicated with the inner ring cavity and the outer ring cavity; the hooking valve core is provided with hooking valve core sealing rings which are respectively and hermetically assembled in the central shaft cavity, the first lower end sealing port and the second lower end sealing port; the lifting movement of the hooking valve core is matched with the hooking valve core sealing ring on the hooking valve core, so that the outer ring cavity and the inner ring cavity are sequentially communicated with the inner cavity of the lower container, and the operation is simple and efficient.

Further, the device also comprises a connecting piece sleeved outside the upper container, one end part of the connecting piece is sleeved in the rotating piece, the end part is provided with a connecting piece reset-preventing boss and a connecting piece elastic piece, and the other end of the connecting piece is sleeved with the lower container; one end of the bottle mouth facing the connecting piece is provided with a bottle mouth stop block corresponding to the elastic piece of the connecting piece; the connecting piece can realize the quick assembly among the rotating piece, the upper container and the lower container, reduce the assembly difficulty and promote the stability of the whole mechanism.

Further, a third anti-rotation structure is arranged between the connecting piece and the upper container, one end of the inner part of the connecting piece is sleeved with the hooking and adjusting inner plug, a fourth anti-rotation structure is arranged between the connecting piece and the hooking and adjusting inner plug, the other end of the connecting piece is sleeved on the outer part of the lower container, and the third anti-rotation structure and the fourth anti-rotation structure are used for limiting the rotation of the connecting piece so as to ensure the normal operation of the whole mechanism.

Further, the third anti-rotation structure comprises a plurality of connecting piece anti-rotation ribs arranged in the connecting piece and an upper container outer anti-rotation rib arranged outside the upper container, and each connecting piece anti-rotation rib is in snap fit with each upper container outer anti-rotation rib; the fourth rotation preventing structure comprises a plurality of connecting piece rotation preventing grooves arranged in the connecting piece ports and a plurality of hooking and adjusting inner plug rotation preventing ribs arranged on the end faces of the hooking and adjusting inner plugs, and each connecting piece rotation preventing groove is in meshed fit with each hooking and adjusting inner plug rotation preventing rib; the third rotation preventing structure and the fourth rotation preventing structure are simple in design and can achieve good rotation preventing effect after assembly.

The beneficial effects of the invention are as follows:

1. The bottle inner blending mixing mechanism provided by the invention is characterized in that different fillers are stored in the upper container and the lower container, the inner ring cavity and the outer ring cavity which are arranged in the upper container are matched, and the lower container, the inner ring cavity and the outer ring cavity can be connected or disconnected under the lifting motion of the blending valve core, so that the fillers in the inner ring cavity or the outer ring cavity can be sequentially dropped into the lower container to obtain mixtures with different proportions, and meanwhile, the upper outlets of the inner ring cavity and the outer ring cavity can be opened or closed in the motion process of the blending component, so that the fillers (mixtures) in the inner ring cavity or the outer ring cavity can be smoothly poured out, and finally the mixture blended according to the specified proportion is obtained.

2. The hooking and adjusting component is formed by assembling the hooking and adjusting component and the hooking and adjusting inner plug, and when the hooking and adjusting component is driven to rotate relative to the hooking and adjusting inner plug under the action of the rotating component, on one hand, the hooking and adjusting component can drive the hooking and adjusting valve core to move up and down so as to switch the communication states among the inner ring cavity, the outer ring cavity and the lower container; on the other hand, the opening or closing state of the inner ring outlet of the hooking inner plug and the outer ring outlet of the hooking inner plug can be switched on and off on the hooking inner plug so as to pour out the mixture which is hooked and regulated in proportion; the whole linkage mechanism is ingenious in design and easy to operate.

3. The connecting piece is sleeved outside the upper container, the connecting piece can realize stable assembly among the rotating piece, the upper container and the lower container, the operation difficulty of the whole canning process is simplified, meanwhile, the connecting piece elastic piece is arranged between the connecting piece and the bottle opening, the interaction between the connecting piece elastic piece and the bottle opening stop block can limit the rotation direction of the rotating piece, the anti-counterfeiting effect is achieved, and the reliable guarantee is provided for the overall tempering quality of the mixture.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the in-bottle blending and mixing mechanism provided by the invention;

FIG. 2 is a schematic cross-sectional view of F-F of FIG. 1;

FIG. 3 is a schematic diagram of the overall split structure of the in-bottle blending and mixing mechanism provided by the invention;

FIG. 4 is a first partial enlarged schematic view of FIG. 3;

FIG. 5 is a second enlarged partial schematic view of FIG. 3;

FIG. 6 is a third enlarged partial schematic view of FIG. 3;

FIG. 7 is a schematic view showing the internal disassembly of the upper container in the in-bottle blending mechanism according to the present invention;

FIG. 8 is a schematic top view of a blending plug in the blending and mixing mechanism in a bottle according to the present invention;

FIG. 9 is a schematic cross-sectional view of C-C of FIG. 8;

FIG. 10 is an enlarged partial schematic view of FIG. 9;

FIG. 11 is a schematic view showing a first step of the in-bottle blending and mixing mechanism according to the present invention;

FIG. 12 is a schematic view showing a second step of the in-bottle blending and mixing mechanism according to the present invention;

FIG. 13 is a schematic view showing a third step of the in-bottle blending and mixing mechanism according to the present invention;

FIG. 14 is a schematic view showing a fourth step of the in-bottle blending and mixing mechanism according to the present invention;

FIG. 15 is a schematic view, partly in section, of the assembly of the rotary member in the in-bottle blending and mixing mechanism of the present invention;

The reference numerals are explained as follows: a lower container-1, a fixed inner plug-2, a hooking valve core-3, an upper container-4, a hooking inner plug-5, a connecting piece 6, a hooking piece-7, a bottle mouth-8, an inner cap-9, a rotating piece-10, an outer cap-11, a decorative head-12, an outer cap hook-13, a rotating piece anti-rotating rib-14, a rotating piece hook-15, an inner cap clamping groove-16, a bottle mouth anti-rotating boss-17, a bottle mouth anti-rotating rib-18, a hooking piece anti-rotating boss-19, a connecting piece elastic piece-20, a connecting piece anti-resetting boss-21, a connecting piece anti-rotating groove-22, a connecting piece clamping groove-23, a connecting piece anti-rotating rib-24, a connecting piece hook-25, a hooking inner plug anti-rotating rib-26, a hooking inner plug sealing ring-27 and a center shaft barrel-28, the upper container filling rib-29, the first lower end sealing port-30, the upper container inner anti-rotating rib-31, the upper container outer anti-rotating rib-32, the upper container clamping hook-33, the second lower end sealing port-34, the first hooking valve core sealing ring-35, the second hooking valve core sealing ring-36, the third hooking valve core sealing ring-37, the arrow-38, the lower container clamping groove-41, the lower container anti-rotating rib-42, the hooking member inner ring outlet-43, the hooking member inner screw thread-44, the hooking member outer ring outlet-45, the hooking inner plug inner ring outlet-46, the hooking inner plug outer ring outlet-47, the upper container anti-rotating block-48, the hooking member outer screw thread-49, the hooking valve core deflection-50 and the convex point outer edge-51.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. The components of the embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

It should be noted that, without conflict, the embodiments of the present invention and features of the embodiments may be combined with each other.

It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures.

In the description of the embodiments of the present invention, it should be noted that, the indicated orientation or positional relationship is based on the orientation or positional relationship shown in the drawings, or the orientation or positional relationship conventionally put in use of the product of the present invention as understood by those skilled in the art, merely for convenience of describing the present invention and simplifying the description, and is not indicative or implying that the apparatus or element to be referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like, are used merely for distinguishing between descriptions and not for understanding as indicating or implying a relative importance.

In the description of the embodiments of the present invention, it should also be noted that, unless explicitly specified and limited otherwise, the terms "disposed," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; may be directly connected or indirectly connected through an intermediate medium. It will be apparent to those skilled in the art that the foregoing terms are used in the specific meaning of the embodiments of the present invention and that the technical solutions of the embodiments of the present invention will be clearly and fully described, and that the described embodiments are some, but not all, embodiments of the present invention. The components of the embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Example 1

As shown in fig. 1, in this embodiment, an in-bottle blending mixing mechanism is specifically provided, including an upper container 4 and a lower container 1, where the upper container 4 and the lower container 1 both adopt cylindrical structures, that is, the upper container 4 is a cylindrical structure with two ends open, and the lower container 1 is a cylindrical structure with one end open, so as to simplify the assembly difficulty between the upper container 4 and the lower container 1, and the upper container 4 and the lower container 1 are basic carriers for implementing the technical scheme, and the inside of the upper container 4 and the lower container 1 are respectively filled with different fillers, and are respectively: a filler and a filler B.

As shown in fig. 2, one end of the upper container 4 is hermetically sealed and provided with a hooking component, the other end of the upper container is hermetically assembled with the lower container 1, and the hooking component, the upper container 4 and the lower container 1 together form a sealed integral mechanism under the cooperation of the hooking component and the lower container 1; the upper container 4 is internally and sequentially provided with a central shaft cavity, an inner ring cavity and an outer ring cavity along the coaxial center, and the central shaft cavity, the inner ring cavity and the outer ring cavity are communicated with the inner cavity of the lower container 1. The specific structure is as follows: the inner container 4 is internally provided with a middle shaft barrel 28 and an inner ring barrel, the middle shaft barrel 28 and the inner ring barrel divide the inner part of the upper container 4 into a middle shaft cavity, an inner ring cavity and an outer ring cavity, the bottom of the inner ring barrel is connected with the inner side wall of the upper container 4 through a plurality of first support plates which are distributed at intervals, and the bottom of the middle shaft barrel 28 is connected with the bottom of the inner ring barrel through a plurality of second support plates which are distributed at intervals. Preferably, in order to realize the sealing assembly between the lower container 1 and the upper container 4, a fixed inner plug 2 is sleeved in a port of the lower container 1, and the fixed inner plug 2 is clamped in a reserved groove in the upper container 4.

As shown in fig. 5 and 6, the inner cavity of the central shaft cavity is movably provided with a hooking valve core 3, the hooking valve core 3 can perform lifting sliding and rotating movement in the central shaft cavity, and when the hooking valve core 3 moves in the central shaft cavity in a lifting manner, the inner ring cavity, the outer ring cavity and the inner cavity of the lower container 1 are communicated or separated from each other, so that the lifting of the hooking valve core can be realized: the inner ring cavity and the outer ring cavity are communicated or separated, the inner ring cavity and the lower container 1 are communicated or separated, and the outer ring cavity and the lower container 1 are communicated or separated, and on the basis of matching with three hook valve core sealing rings on the hook valve core 3, the inner ring cavity, the outer ring cavity and the lower container 1 can be communicated or separated simultaneously. Preferably, the following structure may be adopted: the bottoms of the middle shaft cylinder 28 and the inner ring cylinder are respectively provided with a first lower end sealing port 30 and a second lower end sealing port 34 which are respectively communicated with the inner ring cavity and the outer ring cavity, and the outer side of the second lower end sealing port 34 and the inner side of the upper container 4 form the reserved groove; three hooked and regulated valve core sealing rings are arranged on the hooked and regulated valve core 3, namely a first hooked and regulated valve core sealing ring 35, a second hooked and regulated valve core sealing ring 36 and a third hooked and regulated valve core sealing ring 37, and are respectively and hermetically assembled in the central shaft cavity, the first lower end sealing port 30 and the second lower end sealing port 34; when the hooking valve core 3 moves up and down, the first hooking valve core sealing ring 35 and the first lower end sealing port 30 are mutually matched or separated, the second hooking valve core sealing ring 36 and the second lower end sealing port 34 are mutually matched or separated, and the third hooking valve core sealing ring 37 and the port of the upper container 4 are mutually matched or separated so as to switch the communication states among the inner ring cavity, the outer ring cavity and the inner cavity of the lower container 1.

As shown in fig. 3, the hooking component includes a hooking inner plug 5 and a hooking member 7, the hooking member 7 rotates relative to the hooking inner plug 5 to form outlets of the inner ring cavity and the outer ring cavity respectively or simultaneously, so as to enable the filler (mixture) inside the inner ring cavity and the outer ring cavity to be poured out smoothly, and the hooking valve core 3 is linked to perform lifting movement in the rotating process of the hooking member 7, and the lifting movement of the hooking valve core 3 can switch the communication states among the inner ring cavity, the outer ring cavity and the inner cavity of the lower container 1, so that the filler inside the inner ring cavity and the filler inside the outer ring cavity can fall into the lower container in sequence, and the hooking of the mixture with different proportions is completed.

Specifically, as shown in fig. 7, the hooking component can be assembled in the following manner: sealing and assembling one side of the hooking and adjusting inner plug 5 with ports of the central shaft cavity, the inner ring cavity and the outer ring cavity, wherein three hooking and adjusting inner plug sealing rings 27 are arranged on the side, the three hooking and adjusting inner plug sealing rings 27 are respectively clamped on the inner side walls of the inner ring cavity and the outer ring cavity to realize sealing and assembling, and the other side of the hooking and adjusting inner plug sealing rings 27 is movably sleeved with the hooking and adjusting piece 7 to ensure that the hooking and adjusting piece 7 can rotate relative to the hooking and adjusting inner plug 5; the inner hooking plug 5 and the hooking part 7 are both sleeved on the hooking valve core 3, the hooking part 7 is in threaded connection with the hooking valve core 3, the middle part of the hooking part 7 is provided with an internal hooking part thread 44, the end part of the hooking valve core 3 is provided with an external hooking part thread 49 matched with the internal hooking part thread 44, the hooking valve core 3 is provided with a hooking valve core deflection 50, the inner wall of the middle shaft barrel 28 is provided with an upper container anti-rotation block 48, and the upper container anti-rotation block 48 is correspondingly matched with the hooking valve core deflection 50 so as to realize that a screw nut pair structure is formed between the hooking valve core 3 and the hooking part 7. When the hooking and adjusting piece 7 rotates, the hooking and adjusting piece 7 can drive the hooking and adjusting valve core 3 to do lifting and adjusting movement. In this embodiment, the hooking member 7 and the hooking inner plug 5 can be directly assembled by sleeving (for example, sleeving can be performed by adopting a conventional manner of fastening and an annular groove, or directly assembling can be performed by adopting a bearing), so as to ensure that the hooking member 7 can be in close contact with the hooking inner plug 5 and simultaneously can relatively rotate.

In order to enable the hooking member 7 to rotate relative to the hooking inner plug 5 so as to form outlets of the inner ring cavity and the outer ring cavity respectively or simultaneously, in this embodiment, as shown in fig. 8, an hooking member inner ring outlet 43 and an hooking member outer ring outlet 45 are formed on the hooking member 7 along the same straight line direction, and the hooking member inner ring outlet 43 and the hooking member outer ring outlet 45 are both arc-shaped; dividing the surface of the hooking and adjusting inner plug 5 into four quadrants, wherein a pair of hooking and adjusting inner plug inner ring outlets 46 and hooking and adjusting inner plug outer ring outlets 47 which are arranged along the same straight line direction are arranged in a first quadrant on the hooking and adjusting inner plug 5, and a pair of hooking and adjusting inner plug inner ring outlets 46 and hooking and adjusting inner plug outer ring outlets 47 which are arranged in a staggered manner are respectively arranged in a second quadrant and a third quadrant; the hooking inner plug inner ring outlet 46 and the hooking inner plug outer ring outlet 47 respectively correspond to the hooking inner ring outlet 43 and the hooking outer ring outlet 45 in a rotating way, and the hooking inner plug inner ring outlet 46 and the hooking inner plug outer ring outlet 47 are both arc-shaped. To further enhance the tightness of the inner ring outlet 46 of the tuning inner plug and the outer ring outlet 47 of the tuning inner plug, the opening edges of the two are provided with convex outer edges 51 (as shown in fig. 9 and 10), and the convex outer edges 51 are higher than the upper end surface of the tuning inner plug. The protrusion-type outer edge 51 is provided to ensure that the hooking member 7 and the hooking inner plug 5 can seal the hooking inner plug inner ring outlet 46 and the hooking inner plug outer ring outlet 47 well after contacting each other.

Example 2

As shown in fig. 4, in order to realize stable assembly between the hooking and adjusting member 7 and the hooking and adjusting inner plug 5 and better operation of normal operation of the hooking and adjusting member 7, the rotary member 10 and the bottle mouth 8 arranged in the rotary member are also included, the rotary member 10 is also provided with a cylindrical structure, the end part of the rotary member 10 can be directly sleeved on the end part of the upper container 4 (for example, the most conventional matching mode of a buckle and a ring groove can be adopted), the rotary member 10 is linked with the hooking and adjusting member 7 to perform rotary motion through the bottle mouth 8 during rotary motion, and the inner ring cavity and the outer ring cavity can be respectively or simultaneously communicated with the bottle mouth 8 during the motion of the hooking and adjusting member 7 so as to continuously switch the open or closed states of the inner ring cavity and the outer ring cavity, and meanwhile, the hooking and adjusting member 7 can also be linked with the hooking and adjusting valve core 3 to perform lifting motion. The bottle mouth 8 can be communicated with the outlet formed in the embodiment 1, the bottle mouth 8 has the function of pouring out the filler (mixture) in the inner ring cavity or the outer ring cavity, the rotary part 10 has the function of being used as a driving part of the hooking and adjusting component, so that the hooking and adjusting component can move correspondingly, on one hand, the communication state among the inner ring cavity, the outer ring cavity and the bottle mouth 8 can be switched, and on the other hand, the hooking and adjusting valve core 3 can be driven to move up and down.

In order to realize the linkage movement, preferably, the hooking and adjusting piece 7 is sleeved with the bottle opening 8, and a first rotation preventing structure is arranged between the hooking and adjusting piece and the bottle opening, so that the bottle opening 8 drives the hooking and adjusting piece 7 to do rotation movement, the bottle opening 8 is assembled in the rotation piece, and a second rotation preventing structure is arranged between the hooking and adjusting piece and the bottle opening, so that the rotation piece drives the bottle opening 8 to do rotation movement, and the first rotation preventing structure and the second rotation preventing structure can adopt simpler bolt structures.

Preferably, as shown in fig. 4, the first rotation preventing structure includes a plurality of rotation preventing bosses 19 of the hooking and adjusting parts and a plurality of rotation preventing bosses 17 of the bottle mouth, which are arranged at the end part of the hooking and adjusting part 7, the plurality of rotation preventing bosses 19 of the hooking and adjusting part and the plurality of rotation preventing bosses 17 of the bottle mouth are all set to be rectangular tooth structures and distributed along the same circumferential direction, each rotation preventing boss 19 of the hooking and adjusting part is engaged with each rotation preventing boss 17 of the bottle mouth, an annular groove for arranging each rotation preventing boss 17 of the bottle mouth is arranged in the bottle mouth 8, and a convex edge for arranging each rotation preventing boss 19 of the hooking and adjusting part is arranged on the end surface of the hooking and adjusting part 7; the second anti-rotation structure comprises a plurality of bottle opening anti-rotation ribs 18 arranged on the side wall of the bottle opening and rotating piece anti-rotation ribs 14 arranged inside the rotating piece 10, wherein each bottle opening anti-rotation rib 18 and each rotating piece anti-rotation rib 14 are in tooth shapes, and each bottle opening anti-rotation rib 18 and each rotating piece anti-rotation rib 14 are in snap fit.

Preferably, for better pouring out the filler (mixture) inside the inner ring cavity and the outer ring cavity, a bottle mouth extending out of the rotating part is arranged on the bottle mouth 8, as shown in fig. 4, a through hole corresponding to the bottle mouth is reserved on the rotating part, an inner cover 9 is connected to the bottle mouth in a threaded manner, the inner cover 9 can enable the bottle mouth to be sealed or opened, the inner cover 9 is provided with an outer cover 11 for driving the bottle mouth to rotate, and a decorative head 12 is arranged on the outer cover 11. Preferably, the outer cover 11 is sleeved outside the inner cover 9, anti-slip insections are arranged between the outer cover 11 and the inner cover 9, an outer cover clamping hook 13 is arranged on the inner side of the outer cover 11, an inner cover clamping groove 16 corresponding to the outer cover clamping hook 13 is arranged on the outer side of the inner cover 9, meanwhile, a mounting hole is formed in the center of the outer cover 11, and the decorative head 12 is assembled on the outer cover 11 through the mounting hole.

Example 3

As shown in fig. 5 and 15, in order to further improve the stability and difficulty of assembly of the rotating member 10, the hooking component, the upper container 4 and the lower container 1, the device further comprises a connecting member 6 sleeved outside the upper container 4, wherein one end of the connecting member 6 is sleeved in the rotating member 10, and the end is provided with a connecting member anti-reset boss 21 and two connecting member elastic sheets 20, and the other end is sleeved with the lower container 1; the bottleneck 8 is equipped with bottleneck dog towards the one end of connecting piece 6, under the effect of bottleneck dog and connecting piece shell fragment 20, can restrict the rotation direction of rotating member 10 to play anti-fake effect, under the effect of connecting piece anti-return boss 21, can be to collude the initial position of transferring piece 7 relative to colludeing and transferring inside plug 5 and prescribe a limit to. After assembly, one end of the connecting piece 6 is clamped with the lower container 1, so that the end of the lower container 1 is abutted against the end of the upper container 4, and the other end of the connecting piece 6 firmly assembles the rotating piece 10, the bottle mouth 8 and the hook adjusting piece 7. The arrow 38 is arranged outside the rotating member, scales corresponding to the arrow 38 are marked on the outer surface of the connecting member 6, and the scales are distributed in four quadrants of the circumference of the outer surface of the connecting member 6 (for example, the scales are respectively set to be 'off', '69%', '45%', and '52%'), so that the rotating member is easy to understand, easy to operate and strong in experience. A plurality of upper container filling ribs 29 are also distributed outside the upper container 4, and each upper container filling rib 29 is used to abut against the inner side wall of the rotary member 10.

Preferably, as shown in fig. 6, a lower container clamping groove 41 is provided at the end of the lower container 1, and an upper container clamping hook 33 corresponding to and matching with the lower container clamping groove 41 is provided at the end of the upper container 4; as shown in fig. 5, the connector 6 is provided with a connector hook 25 inside, the connector hook 25 is clamped on the lower end surface of the upper container 4, the connector 6 is further provided with a connector slot 23 outside, and the rotator 10 is provided with a rotator hook 15 inside, and the rotator hook 15 is clamped in the connector slot 23, so that the rotator 10 can rotate normally and be assembled stably.

In order to realize that the rotating member can normally drive the hooking member 7 to rotate relative to the hooking inner plug 5, a third rotation preventing structure is arranged between the connecting member 6 and the upper container 4 to prevent relative rotation between the connecting member 6 and the upper container 4, one end of the inner part of the connecting member 6 is sleeved with the hooking inner plug 5, a fourth rotation preventing structure is arranged between the connecting member 6 and the hooking inner plug 5 to prevent relative rotation between the connecting member 6 and the hooking inner plug 5, and the other end of the connecting member is sleeved outside the lower container 1.

As shown in fig. 5, the third rotation preventing structure includes a plurality of connector rotation preventing ribs 24 disposed inside the connector 6 and an upper container outer rotation preventing rib 32 disposed outside the upper container 4, and each connector rotation preventing rib 24 is engaged with each upper container outer rotation preventing rib 32; the fourth rotation preventing structure comprises a plurality of connecting piece rotation preventing grooves 22 arranged in the port of the connecting piece 6 and a plurality of hooking and adjusting inner plug rotation preventing ribs 26 arranged on the end face of the hooking and adjusting inner plug 5, wherein each connecting piece rotation preventing groove 22 is distributed on the inner side face of the port of the connecting piece 6 in an annular shape, and each connecting piece rotation preventing groove 22 is in meshed fit with each hooking and adjusting inner plug rotation preventing rib 26.

In this embodiment, the assembly steps of the in-bottle blending mechanism are as follows:

Loading the fixed inner plug into the upper container 4; the hooking and adjusting valve core 3 penetrates from bottom to enable the hooking and adjusting valve core sealing ring to be matched with a sealing port at the lower end of the upper container 4; the hooking and adjusting inner plug 5 is pressed into the upper container 4, so that the hooking and adjusting inner plug sealing rings 27 are matched with the sealing openings at the upper ends of the upper container 4; the connecting piece 6 is pressed on the hooking and adjusting inner plug 5, so that the hooking and adjusting inner plug anti-rotation rib 26 is matched with the connecting piece anti-rotation groove 22, the connecting piece anti-rotation rib 24 is matched with the upper container outer anti-rotation rib 32, and the connecting piece clamping hook 25 is clamped on the lower end face of the upper container 4; the hooking and adjusting piece 7 is aligned and screwed into the hooking and adjusting valve core 3, and the hooking and adjusting piece 7 is attached to the end face of the hooking and adjusting inner plug 5; the bottle mouth 8 is arranged on the hooking and adjusting piece 7, so that the bottle mouth anti-rotation boss 17 is matched with the hooking and adjusting piece anti-rotation boss 19; the inner cover 9 is screwed into the bottle mouth 8; the rotary part 10 is aligned and pressed on the bottle mouth 8, so that the rotary part anti-rotation rib 14 is matched with the bottle mouth anti-rotation rib 18, and the rotary part clamping hook 15 is clamped in the connecting part clamping groove 23; the decorative head 12 is pressed on the outer cover 11 and then on the rotating piece 10, so that the outer cover clamping hook 13 is matched with the inner cover clamping groove 16; the assembled upper part is pressed into the lower container 1, so that the upper container inner anti-rotation rib 31 is matched with the lower container anti-rotation rib 42, and the upper container clamping hook 33 is clamped in the lower container clamping groove 41.

The canning process is specifically as follows:

(1) Installing a hooking valve core 3 to seal the lower outlet of the upper container 4 and canning the filler of the upper container 4;

(2) Mounting the rotating member on the upper container 4 to form an upper container 4 part;

(3) Filling the lower container with a filler;

(4) The upper container part in step (2) is mounted on the lower container 1.

The canning process has the advantages that: the two fillers (A filler and B filler) can be respectively canned in different areas, so that the two fillers can be prevented from polluting each other during filling, the upper container is a core component of the blending mixing mechanism, the cover body is partially assembled on the upper container to form an upper container integral component, and finally the upper container integral component is assembled on the lower container to form the whole mechanism.

The hooking and adjusting process is specifically as follows:

(1) As shown in fig. 11, the start bit: and closing. The upper and lower outlets of the upper container 4 are not opened, and the filling cannot be poured out at this time; the starting position, the upper container 4 is an area, the filling materials filled in the inner ring cavity and the outer ring cavity of the upper container 4 are not required to be respectively measured, only the total capacity of the upper container 4 is required to be measured, and the filling is convenient; ( The inner and outer ring outlets of the hooking and adjusting piece are not overlapped with the inner and outer ring outlets of the hooking and adjusting inner plug, and the upper outlet is in a closed state; the second hooking valve core sealing ring 36 is not matched with the first lower end sealing port 30, and the inner ring cavity and the outer ring cavity of the upper container are in one area; the third hooked and regulated valve core sealing ring 37 is matched with the second lower end sealing port 34, and the lower outlet is in a closed state. )

(2) As shown in fig. 12, the rotary member 10 is rotated to drive the hooking and adjusting member 7 to rotate, open the upper outlet of the inner ring cavity, and then drive the hooking and adjusting valve core 3 to displace downward, so as to divide the upper container 4 into two areas, but the lower outlet is still closed, and the arrow points to the first scale line, so that the filling material of the inner ring cavity in the upper container 4 can be poured out; ( The outlet of the outer ring of the hooking and adjusting piece is not overlapped with the outlet of the outer ring of the hooking and adjusting inner plug, and the outer ring of the upper outlet is in a closed state; the inner ring outlet of the hooking and adjusting piece is overlapped with the inner ring outlet of the hooking and adjusting inner plug, and the inner ring of the upper outlet is in an open state; the second hooking and adjusting valve core sealing ring 36 is matched with the first lower end sealing opening, the inner ring and the outer ring of the upper container are divided into two areas, and the mixture with different proportions is correspondingly hooked and adjusted; the third hooked and regulated valve core sealing ring 37 is still matched with the second lower end sealing port, and the lower outlet is still in a closed state. )

(3) As shown in fig. 13, the rotary member 10 is continuously rotated to drive the hooking member 7 to rotate, the upper outlet of the inner annular cavity is closed, the upper outlet of the outer annular cavity is opened, the hooking valve core 3 is driven to move downwards, the lower outlet of the outer annular cavity is opened, the filler in the outer annular cavity in the upper container 4 falls into the lower container 1 to form a first mixture, and an arrow points to a second scale line; ( The outlet of the outer ring of the hooking and adjusting piece is overlapped with the outlet of the hooking and adjusting inner plug outer ring, and the outer ring of the upper outlet is in an open state; the outlet of the inner ring of the hooking and adjusting piece is not overlapped with the outlet of the inner ring of the hooking and adjusting inner plug, and the inner ring of the upper outlet is in a closed state; the second hook valve core sealing ring 36 still cooperates with the first lower end sealing port, and the upper container inner ring filler cannot fall into the lower container; the third trim valve core seal ring 37 is not mated with the second lower seal port, the lower outlet is open and the upper container outer ring fill falls to form a first mixture. )

(4) As shown in fig. 14, the rotary member 10 is continuously rotated to drive the hooking and adjusting member 7 to rotate, and then the hooking and adjusting valve core 3 is driven to move downwards, the upper and lower outlets of the inner and outer ring cavities are opened, so that the filler of the upper container 4 falls into the lower container 1 to form a second mixture, and the arrow points to the third scale mark. ( The inner and outer ring outlets of the hooking and adjusting piece are overlapped with the inner and outer ring outlets of the hooking and adjusting inner plug, and the upper outlet is in an open state; the second and third trim valve core sealing rings 36 and 37 are not engaged with the first and second lower end sealing ports, respectively, the lower outlet is open and the inner and outer ring fillers of the upper container fall to form a second mixture. )

The invention is not limited to the above-described alternative embodiments, and any person who may derive other various forms of products in the light of the present invention, however, any changes in shape or structure thereof, all falling within the technical solutions defined in the scope of the claims of the present invention, fall within the scope of protection of the present invention.

Claims (10)

1. The in-bottle blending mixing mechanism comprises an upper container and a lower container, and is characterized in that one end of the upper container is hermetically provided with a blending component, and the other end of the upper container is hermetically assembled with the lower container; a central shaft cavity, an inner ring cavity and an outer ring cavity are sequentially arranged in the upper container along the coaxial center, and are communicated with the inner cavity of the lower container, and a hook valve core is movably arranged in the central shaft cavity; the hooking and adjusting component comprises a hooking and adjusting inner plug and a hooking and adjusting piece, the hooking and adjusting piece rotates relative to the hooking and adjusting inner plug to enable the inner ring cavity and the outer ring cavity to respectively or simultaneously form outlets, and the hooking and adjusting valve core is linked to move up and down in the middle shaft cavity, so that the outer ring cavity and the inner ring cavity are sequentially communicated with the inner cavity of the lower container.

2. The in-bottle blending mixing mechanism according to claim 1, wherein one side of the blending inner plug is hermetically assembled with ports of the central shaft cavity, the inner ring cavity and the outer ring cavity, and the other side is movably sleeved with the blending piece; the hooking inner plug and the hooking piece are both sleeved on the hooking valve core, and the hooking piece is in threaded connection with the hooking valve core.

3. The in-bottle blending mixing mechanism of claim 1, wherein the blending member is provided with a blending member inner ring outlet and a blending member outer ring outlet; the hooking inner plug is provided with a hooking inner plug inner ring outlet and a hooking inner plug outer ring outlet; the inner ring outlet of the hooking and adjusting inner plug and the outer ring outlet of the hooking and adjusting inner plug are respectively corresponding to the inner ring outlet of the hooking and adjusting piece and the outer ring outlet of the hooking and adjusting piece in a rotating way, so that the inner ring cavity and the outer ring cavity respectively or simultaneously form outlets.

4. The in-bottle blending and mixing mechanism according to claim 1, further comprising a rotating member and a bottle opening provided therein, wherein the blending member is sleeved with the bottle opening with a first anti-rotation structure therebetween; and a second anti-rotation structure is arranged between the bottle mouth and the rotating piece.

5. The in-bottle blending mixing mechanism of claim 4, wherein the first anti-rotation structure comprises a plurality of blending piece anti-rotation bosses provided at the end of the blending piece and a plurality of bottle opening anti-rotation bosses provided in the bottle opening, each blending piece anti-rotation boss being in snap fit with each bottle opening anti-rotation boss; the second anti-rotation structure comprises a plurality of bottle opening anti-rotation ribs arranged on the side wall of the bottle opening and rotating piece anti-rotation ribs arranged inside the rotating piece, and each bottle opening anti-rotation rib is in meshed fit with each rotating piece anti-rotation rib.

6. The bottle interior blending mixing mechanism of claim 3, wherein the blending inner plug inner ring outlet and the blending inner plug outer ring outlet are both provided with a boss-like outer edge at the opening edge, the boss-like outer edge being higher than the upper end surface of the blending inner plug.

7. The in-bottle blending mixing mechanism of claim 1, wherein the upper container is provided with a first lower end sealing port and a second lower end sealing port which are respectively communicated with the inner ring cavity and the outer ring cavity; and the hook valve core is provided with hook valve core sealing rings respectively and hermetically assembled in the central shaft cavity, the first lower end sealing port and the second lower end sealing port.

8. The in-bottle hooking and mixing mechanism according to claim 4, further comprising a connecting piece sleeved outside the upper container, wherein one end of the connecting piece is sleeved in the rotating piece, a connecting piece reset-preventing boss and a connecting piece elastic piece are arranged at the end of the connecting piece, and the other end of the connecting piece is sleeved with the lower container; and one end of the bottle mouth facing the connecting piece is provided with a bottle mouth stop block corresponding to the elastic piece of the connecting piece.

9. The bottle interior blending mixing mechanism of claim 8, wherein a third anti-rotation structure is arranged between the connecting piece and the upper container, one end of the inside of the connecting piece is sleeved with the blending inner plug, a fourth anti-rotation structure is arranged between the connecting piece and the blending inner plug, and the other end of the connecting piece is sleeved outside the lower container.

10. The in-bottle blending mixing mechanism of claim 9, wherein the third anti-rotation structure comprises a plurality of connector anti-rotation ribs arranged inside the connector and an upper container outer anti-rotation rib arranged outside the upper container, each connector anti-rotation rib being in snap fit with each upper container outer anti-rotation rib; the fourth rotation preventing structure comprises a plurality of connecting piece rotation preventing grooves arranged in the connecting piece ports and a plurality of hooking and adjusting inner plug rotation preventing ribs arranged on the end faces of the hooking and adjusting inner plugs, and each connecting piece rotation preventing groove is in meshed fit with each hooking and adjusting inner plug rotation preventing rib.