CN220757251U

CN220757251U - Multifunctional quantitative seasoning bottle

Info

Publication number: CN220757251U
Application number: CN202322199334.3U
Authority: CN
Inventors: 侯左荣; 宁准梅; 奚钧一; 刘欢
Original assignee: Shanghai Industrial Microbiology Institute Tech Co ltd
Current assignee: Shanghai Industrial Microbiology Institute Tech Co ltd
Priority date: 2023-08-15
Filing date: 2023-08-15
Publication date: 2024-04-12
Anticipated expiration: 2033-08-15

Abstract

The utility model provides a multifunctional quantitative seasoning bottle which comprises a bottle body and a bottle cover, wherein the bottle body is provided with four storage cavities, the bottle cover is divided into four layers, namely a temporary storage layer, a single material layer, a plurality of material layers and a material outlet layer, wherein the temporary storage layer can temporarily store seasonings when the seasoning bottle is inverted, but the seasonings can not be poured out due to the blocking of the single material layer or the plurality of material layers, the single material layer is provided with a pressing block and a plurality of material layers is provided with a rotating block, the characteristics of a spring are utilized to enable the seasonings to pass through a material passing hole and a rotating hole when the pressing block and the rotating block are pressed to a limiting position, and the pressing block and the rotating block return to an original state due to the spring after the pressing block and the rotating block are loosened, the seasonings are blocked again, so that quantitative pouring of the seasonings is realized, wherein the single material layer can only control pouring of the seasonings in one storage cavity, the plurality of material layers can also be additionally provided with a cover to realize blocking of one seasoning pouring out, two seasonings, three or four seasonings.

Description

Multifunctional quantitative seasoning bottle

Technical Field

The utility model relates to the technical field of kitchen appliances, in particular to a multifunctional quantitative seasoning bottle.

Background

Salt is the most widely used condiment in the cooking and food industries, and can provide trace elements necessary for human bodies, but chronic diseases such as hypertension and the like can be caused by long-term excessive intake of salt, and in recent years, with the enhancement of salt limiting consciousness, a plurality of related products such as salt limiting spoons, salt limiting bottles, quantitative bottles and the like are appeared on the market, wherein the quantitative bottles generally have only one outlet, and quantitative taking of the condiment can be realized by pressing.

In the cooking process, in order to make the cooked dishes more delicious, a plurality of seasonings such as monosodium glutamate, chicken essence, pepper powder and the like are sometimes required to be added, if a plurality of quantitative bottles are used, the adding is required to be carried out multiple times, the cooking time is troublesome, and the cooking time is influenced, so that a quantitative seasoning bottle capable of simultaneously and quantitatively adding a plurality of seasonings is needed.

Disclosure of Invention

In view of the fact that the quantitative seasoning of the existing quantitative bottle is single, and the simultaneous addition of multiple seasonings cannot be achieved, the multifunctional quantitative seasoning bottle is provided with multiple storage cavities, four layers of bottle caps are arranged, and quantitative taking of one or multiple seasonings is achieved through different structures of the bottle caps.

In order to achieve the above purpose, the embodiment of the present utility model adopts the following technical scheme:

the multifunctional quantitative seasoning bottle comprises a bottle body and a bottle cap, wherein the bottle body is provided with a storage cavity, the bottle cap comprises a temporary storage layer, a single material layer, a multi-material layer and a discharging layer, and the temporary storage layer is internally provided with the storage cavity; the single material layer is provided with a pressing block and a fixed block, the pressing block is horizontally and movably connected with the fixed block through a first spring, the single material layer is provided with a material passing hole and a fixed hole, the fixed hole is communicated with the material storage cavity, and the material passing hole is communicated with the material storage cavity by pressing the pressing block; the multi-material layer is provided with a rotatable rotating block, a rotating hole is formed in the rotating block, the rotating hole is communicated with the fixed hole through rotating the rotating block, and a first bottom hole communicated with the material passing hole is further formed; the discharge layer is provided with a discharge hole which is communicated with the rotary hole and the first bottom hole.

According to one aspect of the utility model, the storage cavities include a first storage cavity, a second storage cavity, a third storage cavity, and a fourth storage cavity.

According to one aspect of the utility model, the temporary storage layer is in threaded connection with the bottle body, the single material layer is fixedly connected with the temporary storage layer and the multiple material layers, and the multiple material layers are also fixedly connected with the discharging layer.

According to one aspect of the utility model, the storage cavities comprise a first storage cavity, a second storage cavity, a third storage cavity and a fourth storage cavity, and the storage cavities are in one-to-one correspondence.

According to one aspect of the utility model, the fixing holes comprise a first fixing hole, a second fixing hole and a third fixing hole, the material passing hole is communicated with the first material storage cavity by pressing the pressing block, and the first fixing hole, the second fixing hole and the third fixing hole respectively correspond to the second material storage cavity, the third material storage cavity and the fourth material storage cavity.

According to one aspect of the utility model, the multi-layer is provided with a rotary groove, a second spring is fixed in the rotary groove, the outer Zhou Qian of the rotary block is arranged in the rotary groove and is abutted against one end of the second spring, and the second spring is elastically deformed when the rotary block rotates.

According to an aspect of the present utility model, the rotation holes include a first rotation hole, a second rotation hole, and a third rotation hole, which are respectively communicated with the first fixing hole, the second fixing hole, and the third fixing hole by rotating the rotation block; the first bottom hole is communicated with the material passing hole by pressing the pressing block.

According to one aspect of the utility model, the discharge ports include a first discharge port, a second discharge port, a third discharge port, and a fourth discharge port.

According to one aspect of the utility model, the first discharging hole is communicated with the first bottom hole, the material passing hole, the first material storage cavity and the first material storage cavity by pressing the pressing block.

According to one aspect of the utility model, the second discharging hole is communicated with the first rotating hole, the first fixed hole, the second material storage cavity and the second material storage cavity by rotating the rotating block; the third discharge hole is communicated with the second rotary hole, the second fixed hole, the third storage cavity and the third storage cavity by rotating the rotary block; the fourth discharging hole is communicated with the third rotating hole, the third fixing hole, the fourth material storage cavity and the fourth material storage cavity through rotating the rotating block.

The implementation of the utility model has the advantages that: the utility model provides a multifunctional quantitative seasoning bottle which comprises a bottle body and a bottle cover, wherein the bottle body is provided with four storage cavities, the bottle cover is divided into four layers, namely a temporary storage layer, a single material layer, a plurality of material layers and a material outlet layer, wherein the temporary storage layer can temporarily store seasonings when the seasoning bottle is inverted, but the seasonings can not be poured out due to the blocking of the single material layer or the plurality of material layers, the single material layer is provided with a pressing block and a plurality of material layers is provided with a rotating block, the characteristics of a spring are utilized to enable the seasonings to pass through a material passing hole and a rotating hole when the pressing block and the rotating block are pressed to a limiting position, and the pressing block and the rotating block return to an original state due to the spring after the pressing block and the rotating block are loosened, the seasonings are blocked again, so that quantitative pouring of the seasonings is realized, wherein the single material layer can only control pouring of the seasonings in one storage cavity, the plurality of material layers can also be additionally provided with a cover to realize blocking of one seasoning pouring out, two seasonings, three or four seasonings.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of the overall structure of a multifunctional quantitative seasoning bottle of the present utility model;

FIG. 2 is a schematic view of a bottle structure according to the present utility model;

FIG. 3 is a schematic diagram of a temporary storage layer according to the present utility model;

FIG. 4 is a schematic diagram of a single layer structure according to the present utility model;

FIG. 5 is a schematic diagram of a multi-layer structure according to the present utility model;

fig. 6 is a schematic view of a discharging layer structure of the present utility model.

The names corresponding to the serial numbers in the figures are as follows:

1. a bottle body; 11. a first storage cavity; 12. a second storage cavity; 13. a third storage cavity; 14. a fourth storage cavity; 2. a temporary storage layer; 21. a first stock cavity; 22. a second stock cavity; 23. a third material storage cavity; 24. a fourth material storage cavity; 3. a single material layer; 31. a material passing hole; 32. a first fixing hole; 33. a second fixing hole; 34. a third fixing hole; 35. pressing the blocks; 36. a fixed block; 37. a first spring; 4. a multi-material layer; 41. a first bottom hole; 42. a first rotation hole; 43. a second rotation hole; 44. a third rotation hole; 45. a rotating block; 46. a rotary groove; 47. a second spring; 5. discharging a material layer; 51. a first discharge port; 52. a second discharge port; 53. a third discharge port; 54. and a fourth discharging hole.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in fig. 1, the multifunctional quantitative seasoning bottle comprises a bottle body 1 and a bottle cap, wherein the bottle body 1 is provided with a storage cavity, and the bottle cap comprises a temporary storage layer 2, a single material layer 3, a multi-material layer 4 and a discharging layer 5; the single material layer 3 is fixedly connected with the multi-material layer 4 and the temporary storage layer 2 and is arranged above the temporary storage layer 2 and below the multi-material layer 4; the multi-material layer 4 is also fixedly connected with a material outlet layer 5, and the material outlet layer 5 is arranged above the single material layer 3; the seasoning fills the temporary storage layer 2 when the bottle body is inverted, sequentially passes through the single material layer 3, the multiple material layers 4 and the discharging layer 5, and finally is poured out.

In practical application, the positions of the single material layer 3 and the multiple material layers 4 can be changed, but the temporary storage layer 2 needs to be processed for quantification after the replacement.

As shown in fig. 2, a partition board is arranged in the bottle body 1, and a storage cavity in the bottle body 1 is divided into four parts by the partition board, wherein the four parts comprise a first storage cavity 11, a second storage cavity 12, a third storage cavity 13 and a fourth storage cavity 14; the bottle body 1 is provided with external threads near the bottle mouth and is in threaded connection with the bottle cap through the external threads.

In practical application, the bottle body 1 and the partition plate are integrated and are not detachable.

As shown in fig. 3, the temporary storage layer 2 is provided with a first storage cavity 21, a second storage cavity 22, a third storage cavity 23 and a fourth storage cavity 24, and an internal thread is arranged in the temporary storage layer 2 and is used for correspondingly realizing threaded connection between the temporary storage layer 2 and the bottle body 1 with an external thread.

In practical application, the temporary storage layer 2 is also provided with a sealing ring, and the bottom of the temporary storage layer 2 is only provided with a storage cavity except for the internal thread of the outer ring, so that the seasonings in the bottle can only enter and fill the storage cavity when the bottle body is inverted, and the quantitative pouring out of the seasonings is realized by controlling the volume of the seasonings which can be contained in the seasoning cavity.

As shown in fig. 4, the single material layer 3 includes a pressing block 35 and a fixing block 36, the fixing block 36 is 3/4 disc-shaped, the pressing block 35 is 1/4 disc-shaped, and the pressing block 35 is horizontally movably connected with the fixing block 36 through a first spring 37, and the first spring 37 is elastically deformed when the pressing block 35 is pressed.

The pressing block 35 is provided with a material passing hole 31, and the fixing block 36 is provided with a fixing hole, comprising a first fixing hole 32, a second fixing hole 33 and a third fixing hole 34; the pressing block 35 normally exceeds the horizontal position of the bottle cap because of the existence of the first spring 37, and at the moment, the material passing hole 31 is not communicated with the first material storage cavity 21, and the material passing hole 31 is communicated with the first material storage cavity 21 by pressing the pressing block 35; the first, second and third fixing holes 32, 33 and 34 correspond to the second, third and fourth pockets 22, 23 and 24, respectively, and the seasoning can pass through and fill the fixing holes of the fixing block 36 without pressing the pressing block 35.

In practical application, the radius of the pressing block 35 is smaller than that of the fixed block 36, and when the radius of the pressing block 35 is set to align the material passing hole 31 with the first material storage cavity 21, the pressing block 35 is immersed into the single material layer 3 to form a complete circle with the fixed block 36 so as to be unable to be pressed further, so that the seasoning in the first material storage cavity 21 passes through the material passing hole 31; at this time, the first spring 37 is restored to its original shape, so that the pressing block 35 is ejected, and the seasoning newly entered in the first storage cavity 21 cannot pass through, thereby realizing quantitative pouring of the seasoning.

In practical application, the push button and the like which are fixedly connected can be added on the push block 35, so that the push is more convenient by increasing the contact area between the finger and the push button, and the limit is realized by the limit device.

As shown in fig. 5, the multi-material layer 4 includes a multi-material layer 4 body and a rotating block 45, the rotating block 45 covers the multi-material layer 4 body, the multi-material layer 4 body is a disc, a rotating groove 46 is formed in the circumference, a second spring 47 is fixed in the rotating groove 46, the length of the second spring 47 is less than 1/4 of the circumference of the rotating groove 46, the periphery of the rotating block 45 protrudes downwards and can be embedded in the rotating groove 46, the rotating block 45 rotates in the rotating groove 46, one end of the rotating block 45 is abutted with one end of the second spring 47, the second spring 47 deforms when the rotating block 45 rotates, in addition, a bottom hole is formed in the multi-material layer 4 body, a circle of surrounding block with the same height as the rotating block 45 is formed in the first bottom hole 41, so that seasonings in the seasoning hole 31 cannot enter a gap between the multi-material layer 4 body and the rotating block 45 through the bottom hole, and the second bottom hole, the third bottom hole 33 and the third fixing hole 34 are communicated with the first fixing hole 32, the second fixing hole 33 and the third fixing hole 34.

In practical application, the rotary block 45 is provided with a rotary hole, the rotary hole comprises a first rotary hole 42, a second rotary hole 43 and a third rotary hole 44, the other end of the second spring 47 is fixedly connected with the rotary groove 46, so that the rotary angle of the rotary block 45 is limited, when the maximum rotary angle is reached, the first rotary hole 42 is communicated with the second bottom hole and the first fixed hole 32, pouring of the seasoning is realized, and at the moment, the second rotary hole 43 and the third rotary hole 44 which are integrated with the rotary block 45 are also communicated with the third bottom hole, the fourth bottom hole, the second fixed hole 33 and the third fixed hole 34 respectively.

In practical applications, when the rotating block 45 is not rotated, the second bottom hole, the third bottom hole and the fourth bottom hole are offset from the first rotating hole 42, the second rotating hole 43 and the third rotating hole 44, so that the seasoning in the second storage cavity 12, the third storage cavity 13 and the fourth storage cavity 14 is blocked on the multi-material layer 4 when being poured out, but the seasoning in the first storage cavity 11 can directly pass through the fixed first bottom hole 41 after entering the single material layer 3.

In practical application, the rotary block 45 can be rotated more conveniently by arranging the fixedly connected protrusions on the periphery of the rotary block 45.

As shown in fig. 6, the discharge ports include a first discharge port 51, a second discharge port 52, a third discharge port 53, and a fourth discharge port 54.

In practical application, the round cover corresponding to a single discharging hole can be arranged, and the discharging hole corresponding to the seasoning which is not needed to be used can be blocked by the round cover when only two seasonings are needed to be poured out.

In practical application, when the pressing block 35 is pressed to the maximum position, the first discharge hole 51 is communicated with the first bottom hole 41, the material passing hole 31, the first material storage cavity 21 and the first material storage cavity 11, and at this time, if the bottle body is inverted, the seasonings in the first material storage cavity 11 can be directly poured out; if the quantitative pouring of the seasoning is needed, the bottle body is inverted, so that the seasoning in the first storage cavity 11 enters and fills the first storage cavity 21, the pressing block 35 is pressed to the maximum position and is loosened, and the seasoning in the first storage cavity 21 sequentially passes through the material passing hole 31 and the first bottom hole 41 and is poured out from the first discharge hole 51.

In practical application, when the rotary block 45 is rotated to the maximum position, the second discharge port 52 is communicated with the first rotary hole 42, the first fixed hole 32, the second storage cavity 22 and the second storage cavity 12; the third discharge hole 53 is communicated with the second rotary hole 43, the second fixed hole 33, the third storage cavity 23 and the third storage cavity 13; the fourth discharge port 54 is communicated with the third rotary hole 44, the third fixed hole 34, the fourth stock cavity 24 and the fourth stock cavity 14; namely, the bottle body is inverted at the moment, and the seasonings in the second storage cavity 12, the third storage cavity 13 and the fourth storage cavity 14 can be poured out simultaneously; if the seasoning is required to be poured quantitatively, the bottle body is inverted, and then the rotary block 45 is rotated to the maximum position, and then the hands are loosened.

In practical application, if the volumes of the seasonings poured out from the four discharge ports are the same, the radii of the second storage cavity 22, the third storage cavity 23 and the fourth storage cavity 24 are required to be smaller than the radii of the first storage cavity 21, the temporary storage layer 2 is fixedly connected with the single material layer 3, the second storage cavity 22, the third storage cavity 23 and the fourth storage cavity 24 are communicated with the first fixing hole 32, the second fixing hole 33 and the third fixing hole 34, if the volumes of the first storage cavity 21 are smaller than the volumes of the other storage cavities with the same radii, the equal volumes cannot be realized, if the positions of the single material layer 3 and the multi-material layer 4 are replaced, the radii of the first storage cavity 21 are required to be reduced, and the radii of the rest storage cavities are increased.

In practical applications, a common seasoning such as salt may be placed in the first storage chamber 11, and a more common seasoning that is often used together may be placed in the second storage chamber 12, the third storage chamber 13, and the fourth storage chamber 14, so that the seasoning is more convenient to pour out during use.

In practical application, the single material layer 3, the multiple material layers 4 and the discharging layer 5 can be set as a whole, the whole is rotatably connected with the temporary storage layer 2, and when only one seasoning is needed and the seasoning is not in the first material storage cavity 11, the corresponding relation between the material storage cavity and the material storage cavity can be adjusted through rotation.

The implementation of the utility model has the advantages that: the utility model provides a multifunctional quantitative seasoning bottle, which comprises a bottle body 1 and a bottle cap, wherein the bottle body 1 is provided with four storage cavities, the bottle cap is divided into four layers, namely a temporary storage layer 2, a single material layer 3, a plurality of material layers 4 and a discharging layer 5, wherein the temporary storage layer 2 can temporarily store seasonings when the seasoning bottle is inverted, but the seasonings can not be poured out due to the blocking of the single material layer 3 or the plurality of material layers 4, the single material layer 3 is provided with a pressing block 35 and a plurality of material layers 4, the characteristics of springs are utilized to enable seasonings to pass through a passing hole 31 and a rotating hole when the pressing block 35 and the rotating block 45 are pressed to a limiting position, and after the springs are loosened, the pressing block 35 and the rotating block 45 return to an initial position due to the returning state of the springs, so that the seasonings are blocked again, the seasoning pouring in one storage cavity can be controlled by the single material layer 3, and the seasoning pouring in other three storage cavities can be controlled simultaneously, and the seasoning pouring in which a cover can be blocked can be additionally realized.

The foregoing is merely illustrative of the present utility model, and the present utility model is not limited thereto, and any changes or substitutions easily contemplated by those skilled in the art within the technical scope of the present utility model should be included in the scope of the present utility model. Therefore, the protection scope of the present utility model shall be subject to the protection scope of the claims.

Claims

1. The multifunctional quantitative seasoning bottle comprises a bottle body (1) and a bottle cap, wherein the bottle body (1) is provided with a storage cavity, and is characterized in that the bottle cap comprises a temporary storage layer (2), a single material layer (3), a multi-material layer (4) and a discharging layer (5), and the temporary storage layer (2) is internally provided with the storage cavity; the single material layer (3) is provided with a pressing block (35) and a fixed block (36), the pressing block (35) is horizontally and movably connected with the fixed block (36) through a first spring (37), the single material layer (3) is provided with a material passing hole (31) and a fixed hole, the fixed hole is communicated with the material storage cavity, and the material passing hole (31) is communicated with the material storage cavity by pressing the pressing block (35); the multi-material layer (4) is provided with a rotatable rotating block (45), the rotating block (45) is provided with a rotating hole, the rotating hole is communicated with the fixed hole by rotating the rotating block (45), and the multi-material layer is also provided with a first bottom hole (41) communicated with the material passing hole (31); the discharging layer (5) is provided with a discharging hole which is communicated with the rotary hole and the first bottom hole (41).

2. The multi-functional quantitative seasoning bottle according to claim 1, wherein the storage cavities comprise a first storage cavity (11), a second storage cavity (12), a third storage cavity (13) and a fourth storage cavity (14).

3. The multifunctional quantitative seasoning bottle according to claim 2, wherein the temporary storage layer (2) is in threaded connection with the bottle body (1), the single material layer (3) is fixedly connected with the temporary storage layer (2) and the multiple material layers (4), and the multiple material layers (4) are fixedly connected with the discharging layer (5).

4. A multi-functional quantitative seasoning bottle according to claim 3 wherein the storage cavities comprise a first storage cavity (21), a second storage cavity (22), a third storage cavity (23) and a fourth storage cavity (24), the storage cavities being in one-to-one correspondence with the storage cavities.

5. The multi-functional quantitative seasoning bottle according to claim 4, wherein the fixing holes include a first fixing hole (32), a second fixing hole (33) and a third fixing hole (34), the passing hole (31) is communicated with the first storing chamber (21) by pressing the pressing block (35), and the first fixing hole (32), the second fixing hole (33) and the third fixing hole (34) correspond to the second storing chamber (22), the third storing chamber (23) and the fourth storing chamber (24), respectively.

6. The multifunctional quantitative seasoning bottle according to claim 5, wherein the multi-material layer (4) is provided with a rotary groove (46), a second spring (47) is fixed in the rotary groove (46), the outer Zhou Qian of the rotary block (45) is arranged in the rotary groove (46) and is abutted with one end of the second spring (47), and the second spring (47) is elastically deformed when the rotary block (45) rotates.

7. The multi-functional quantitative seasoning bottle according to claim 6, wherein the rotation holes include a first rotation hole (42), a second rotation hole (43) and a third rotation hole (44), and the rotation block (45) is respectively communicated with the first fixing hole (32), the second fixing hole (33) and the third fixing hole (34) by rotation; the first bottom hole (41) is communicated with the material passing hole (31) by pressing the pressing block (35).

8. The multi-functional quantitative seasoning bottle of claim 7, wherein the outlet comprises a first outlet (51), a second outlet (52), a third outlet (53), and a fourth outlet (54).

9. The multifunctional quantitative seasoning bottle according to claim 8, wherein the first discharging port (51) is communicated with the first bottom hole (41), the material passing hole (31), the first material storage cavity (21) and the first material storage cavity (11) by pressing the pressing block (35).

10. The multi-functional quantitative seasoning bottle according to claim 8, wherein the second outlet (52) is communicated with the first rotation hole (42), the first fixing hole (32), the second storage cavity (22) and the second storage cavity (12) by rotating the rotation block (45); the third discharge hole (53) is communicated with the second rotary hole (43), the second fixed hole (33), the third storage cavity (23) and the third storage cavity (13) by rotating the rotary block (45); the fourth discharging hole (54) is communicated with the third rotating hole (44), the third fixing hole (34), the fourth material storage cavity (24) and the fourth material storage cavity (14) through rotating the rotating block (45).