TWM310710U - Feeding bottle structure for separating liquid particles from gas stream - Google Patents

Description

M310710 VIII. New Description: [New Technology Field] This creation is about the structure of the bottle, especially the structure of a bottle. The milk and air are separated by a separate path. [Prior Art] There are many The bottle balance pressure device, as shown in Figures 7 and 8, is reproduced from the Republic of China No. 5 267 5 9 "Baby Intake Casing", the main design (3 '), set in the bottle mouth (PA) inside, the sleeve is an outer tube wall and an inner tube wall, and a downward-shaped tunnel (33') is opened between the two; and an air inlet hole penetrating under the bottom surface of the tunnel (335) 3 3 1 ') ring train; thereby guiding the intake valve (N2) on the base of the nipple (N) above the connecting house and the pressure of the air inlet (as the pressure distribution in the bottle (P) Select the air intake hole (3 3 1 ') from the low pressure to be added preferentially. The above disclosure, although it can be achieved to balance the pressure inside the bottle, the skilled person can understand that the structure allows the hole to replenish the air into the bottle. Immediately mix with the milk, and its small bubbles are then mixed or dissolved into the milk. When the baby is in the milk, it is easy to cause discomfort such as flatulence. [New content] The main purpose of this creation is to provide a liquid gas: structure, the air can be quickly separated by the real resistance of the liquid-liquid shunt while the milk is released. It is proposed that the new patent publication has a hollow casing tube (3') comprising an extended bottom-bottomed ring cloth provided with a plurality of E to the ramp (3 3 5) into the outside of the bottle, 33 1 ') different discharges The purpose of the bottle (P) is, ', from the nipple gas produced or large, sucking the bottle containing the air shunt to fill the balance bottle 虏 M310710 * force, the baby can smoothly suck the milk without any effort. Another purpose of this creation is to provide a liquid-water split bottle structure that separates the milk from the replenished air, effectively preventing gas from being mixed into or dissolved in the milk, and preventing the baby from absorbing the milk containing air. liquid. In order to achieve the above and other objects, the present invention relates to a liquid-gas split-bottle structure, which is composed of a bottle body, a teat and a cover portion; wherein, a disk body has a radial partition, The milk liquid is separated between the base of the teat and the mouth of the bottle via the cover portion. The center of the disk body is integrally formed with an axial sleeve. One end extends toward the nipple and the other end extends toward the bottle body. The accommodating portion and the base end of the sleeve above the partition plate are formed with a plurality of air guiding holes; a plug portion is received in the accommodating portion, and has an air flow path connecting the bottle body and is received in the air guiding hole The inner side; and, has a milk liquid flow path connecting the bottle body and the teat. According to the present invention, the plug portion includes a first disc member and a second disc member, which are connected together via a plurality of hollow cylinders, and each hollow cylinder has a central aperture penetrating the first disc The top of the member and the bottom of the second circle® disc member to form a milk flow path. And, at the center of the bottom of the second disc member, a cylinder is protruded downward, and the center includes a central aperture penetrating between the top of the second disc member and the bottle body to form an air flow path. The utility model comprises an air guiding pipe connected to the cylinder body, the air flow path is extended to the bottom of the bottle body, and a one-way flap valve is connected at the lower end thereof, so that the milk liquid is completely blocked from the air. In this way, while the milk is released through a path, the air is replenished via another path to quickly balance the pressure inside the bottle, so that the inside of the bottle is constantly maintained - M310710 positive pressure, the baby can smoothly suck the milk without any effort. At the same time, the structure of the liquid-gas splitting 'separates the milk from the air, which can effectively prevent the air of the replenishment from being mixed into or dissolved in the milk, and can prevent the air containing milk from being sucked by the baby and causing flatulence and the like. sense. The embodiments of the present invention will be further described with reference to the embodiments, which are merely preferred examples, and are not intended to limit the scope of the present invention. The best understanding. First, please refer to FIG. 1 , which shows the structure of the bottle of the present liquid-liquid split, which mainly comprises a bottle body 1 , one end having a receiving portion 1 1 for containing milk and the other end forming a bottle mouth 1 2 ; nipple 20, one end of which contains a discharge port 21 for releasing milk, the other end has a base portion 22 i a cover portion 30, one end has a retaining portion 3 1 sleeved on the nipple base portion 22 A receiving portion 3 2 is formed at one end to receive the outside of the bottle mouth 1 2 . Wherein 'includes a disc 40, having a radial partition 4 1 , which is fixed between the base 22 of the teat 20 and the mouth 12 via the cover 3 分隔 to separate the milk, the center of the disc 40 being integrally formed An axial sleeve 42 'the first portion 42a of the sleeve 42 extends toward the nipple 20, and the second portion 42b extends toward the bottle body 1 ,. The center is formed with a receiving portion 4 3 ' and the sleeve 4 2 The first portion 42a is formed with a plurality of air guiding holes 44 near the base end of the partition plate 41. And a plug portion 50, which is housed in the accommodating portion 43, has an air flow path A communicating with the bottle body 1 and is received inside the air guiding hole 44; and has a milk liquid flow path The bottle body 1 is between the bowl and the teat 20. M310710 Please further understand the figures 2 and 3, according to the present invention, the top surface of the partition 41 forms a concave recess 4丨a, and a ring-shaped joint is formed on the outer circumference of the upper plane. a portion 45 between the base portion 22 of the teat 2 and the mouth 12; and a plurality of elastic one-way flap valves 22a formed of the same base material are formed on the base portion 22 of the teat 20 in the recess 4 } a And the air guiding hole 44 and the concave portion 4 1 a are at a phase plane height. The outer diameter of the upper end of the first portion 4 2 a of the sleeve 42 is in close contact with the inner side of the teat 20, and the external air can enter from the gap between the holding portion 31 of the cover portion 30 and the base portion 22 of the teat 20, and The one-way flap valve 22a and the air guide holes 44 enter the sleeve 42. According to the present invention, the plug portion 50 includes a first disc member 5 1 and a second disc member 52, which are connected together via a plurality of hollow cylinders 5 3 , the first disc member 5 1 And the outer diameter of the second disc member 52 is in close contact with the inner diameter of the sleeve 4 2 receiving portion 43, and a flange portion 43a protruding toward the inner side is formed at the top end of the receiving portion 43, the first The top of the disc member 51 abuts on the inner side of the top flange portion 43 a of the receiving portion 4 3 , and the second disc member 52 is on the same height plane as the radial partition 41 of the disc 40; Each hollow cylinder 53 has a central aperture 531 extending through the top of the first disc member 51 and the bottom of the second disc member 52 to form a milk flow path. Further, at the center of the bottom of the second disc member 52, a cylinder 5 2 is formed downwardly, and the center thereof includes a central aperture 5 2 2 penetrating the top of the second disc member 52 and the bottle body 1 Between to form an air flow path. In addition, a lower end of the cylindrical body 52 of the second disc member 52 includes a bottom cover 54 that is sleeved and closed at the bottom end of the second portion 42b of the sleeve 42; and, in the sleeve 42 The second portion 42b is adjacent to the base M310710 end of the partition 41, and a plurality of flow guiding holes 4 6 are formed, so that the milk flow path is connected to the bottle body by 10 to 10 passages. In addition, the lower end of the cylinder 521 extends toward the bottom of the bottom cover 54 with an end portion 5 2 3 , and an air guiding tube 60 has an upper end connected to the end portion 52 2 of the cylindrical body 52 1 and a lower end connected to the lower end. The one-way flap valve 161 connects the air flow path described above to the bottle body 10 into a passage. According to the embodiment of the present invention, there are still many changes and improvements that can be easily accomplished. For example, as shown in FIG. 4, FIG. 5, and FIG. 6, the present embodiment is another embodiment of the bottle structure according to the present invention. The basic configuration of the example is substantially the same as the above embodiment, and thus the description thereof will not be repeated. The difference in this embodiment is that the configuration of the foregoing embodiment can be further simplified, that is, as shown in FIG. 4, a disk body 40 is included, which has a radial partition 41 which is fixed to the teat 20 via the cover portion 30. The milk is separated between the base portion 2 2 and the bottle mouth 12, and the center of the disk body 40 is integrally formed with an axial sleeve 42 extending toward the nipple 20, the outer diameter of the sleeve 4 2 and the nipple 2 0 The inner side of the sleeve 42 is formed with a receiving portion 43. At the top end of the receiving portion 43, a flange portion 43a protruding toward the inner side is formed; and the sleeve 4 2 _ is adjacent to the partition plate 4 1 A plurality of air guiding holes 44 are formed at the base end. a plug portion 50 is housed in the accommodating portion 43. It has an air flow path A that communicates with the bottle body 10 and is received inside the air guiding hole 44; and has a milk liquid flow path μ communication. The bottle body 1 is between the bowl 1 and the teat 20. According to the fifth and sixth figures, according to the present invention, the top surface of the partition plate 4 1 forms a concave recess 4 1 a, and an outer peripheral portion is formed with a ring-shaped engaging portion 45 located at a higher plane. a nipple 2 is formed between the base portion 22 and the bottle opening 12; and a plurality of elastic one-way flap valves 22a of the M310710' type formed on the base of the nipple 20 are protruded in the recess portion 41a, and The air guiding 'hole 44 is at the same plane height as the recess 4 1 a. The external air can enter from the gap between the holding portion 3 1 of the cap portion 30 and the base portion 22 of the teat 20, and enter the sleeve 42 through the one-way flap valve 2 2 a and the air guiding hole 44. According to the present invention, the plug portion 50 includes a first disc member 51 and a second disc member 52, which are connected together via a plurality of hollow cylinders 53, the first disc member 5 1 And the outer diameter of the second disc member 52 is in close contact with the inner diameter of the sleeve 42 receiving portion 43, and the top of the first disc member 51 is abutted on the receiving portion 4 3 the top flange portion 4 3 a On the inner side, the second disc member 52 is on the same height plane as the radial partition 41 of the disc 40; and each hollow cylinder 53 has a central aperture 531 through the first The top of the disc member 5 1 and the bottom of the second disc member 52 are formed to form a milk flow path - Μ for opening the bottle. Further, at the center of the bottom of the second disc member 52, a cylinder 521 is formed downwardly, and the center thereof includes a central aperture 522 extending between the top of the second disc member 52 and the bottle body 1 To form an air flow path a. In addition, an air guiding tube 60 has an upper end connected to the cylindrical body 521, and a lower end is connected to a one-way flap valve 6 1, so that the air flow path A is connected to the bottle body 1 to form a passage. For example, in the above-mentioned liquid-water split bottle structure, while the baby is being sucked, the milk is released from the same path, and the air is replenished via another path to quickly balance the pressure inside the bottle, so that the inside of the bottle body constantly maintains a positive pressure. Infants can suck the milk smoothly without any effort. At the same time, the structure of the liquid-gas splitting separates the milk from the air, and can also effectively prevent the air of the replenishing air from being mixed into or dissolved in the milk. It can prevent the milk containing the air from being swollen by the baby and causing swelling. 10· M310710 Gas and other discomfort. In summary, the bottle structure of the liquid-liquid splitting of the present invention does have the advantages described above, and is a novel, progressive and industrially useful creation. The above is only a preferred embodiment of the present invention, and is not limited to the scope of the present invention, that is, the equal changes and modifications made without departing from the scope of the patent application of the present invention should still be covered by the present invention. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is an exploded perspective view showing the first embodiment of the bottle structure of the present liquid-liquid split. Fig. 2 is a schematic cross-sectional view showing the combined state of the embodiment of Fig. 1; wherein the direction of the arrow A indicates an air flow path. Fig. 3 is a schematic cross-sectional view showing the combined state of the embodiment of Fig. 1; wherein the arrow Μ direction indicates the milk flow path. Fig. 4 is a perspective view showing the exploded state of the second embodiment of the bottle structure of the present liquid-liquid split. Fig. 5 is a schematic cross-sectional view showing the combined state of the embodiment of Fig. 4; wherein the arrow Α direction indicates an air flow path. Fig. 6 is a schematic cross-sectional view showing the combined state of the embodiment of Fig. 4; wherein the arrow Μ direction indicates the milk flow path. Figure 7 is a prior art diagram of the decomposition state of the "Bottle Intake Casing" of the Republic of China New Patent Announcement No. 5 2 6 7 5 9 . Fig. 8 is a conventional technique showing a state of use of the combination of Fig. 7. [Main component symbol description] 10 bottle body -11- M310710

11 accommodating part 12 bottle □ 20 nipple 2 1 release □ 22 base 22a one-way flap valve 30 cover part 3 1 holding part 32 receiving part 40 disk 4 1 partition 4 1a recess 42 sleeve 42a first part 42b second part 43 accommodating portion 43 a flange portion 44 air guiding hole 45 engaging portion 46 air guiding hole 50 plug portion 5 1 - disc ΓΓΤΤ member 52 second disc member 53 hollow cylinder -12 M310710

54 bottom cover 60 air duct 6 1 unidirectional valve 52 1 cylindrical body 522 center hole diameter 523 end 5 3 1 center hole diameter A air flow path 奶 milk flow path

Claims (1)

M310710 No. 95 2 1 5 3 3 No. 0 "Water Bottle Diversion Bottle Structure" Patent Case (Revised on December 26, 2006) IX. Patent Application Range: 1 · A liquid-gas split bottle structure consisting of a bottle a body (;! 〇), a pacifier (20), and a cover (30); and the like: a disk body (40) having a radial partition (4) through which the cover is unit (30) is fixed between the base (2 2 ) of the teat (20) and the mouth (12) to separate the milk, and the center of the disc (40) is integrally formed with an axial sleeve (42) The first part (42a) extends toward the nipple (20), the second part (42b) extends toward the bottle body (1 〇), the center is formed with a receiving portion (43), and the sleeve (42) is located at the sleeve (42) The base end of the first portion (42a) is formed with a plurality of air guiding holes (44); a plug portion (50) is received in the receiving portion (43), and has an air flow path connecting the bottle body (1 〇) (A) is received inside the air guiding hole (44); and has a milk liquid flow path (Μ) communicating between the bottle body (10) and the teat (20). 2 · a liquid-water split bottle structure consisting of a bottle body (10), a teat (20) and a cover portion (30); characterized in that: a disk body (40), There is a radial partition (4 1 ), which is fixed between the base (22 ) of the teat (20) and the mouth (12) via the cover (30) to separate the milk, and the body (40) is integrally integrated Forming an axial sleeve (42) extending toward the nipple (20), the sleeve (42) is M310710 The heart is formed with a receiving portion (43), and a plurality of air guiding holes (44) are formed at a base end of the sleeve (42); a plug portion (50) is received in the receiving portion (43) , having an air flow path (A) communicating with the bottle body (1 并) and receiving inside the air guiding hole (44); and having a milk liquid flow path (Μ) communicating with the bottle body (1 〇) and Between the pacifiers (2 0 ). 3) The bottle structure of the liquid-gas split as described in claim 1 of the patent scope, The outer diameter of the upper end of the first portion (42 2 a) of the sleeve (42) is in close contact with the inner side of the teat (20), and a flange portion (43a) protruding toward the inner side is formed at the top end of the receiving portion (43). . 4. The bottle structure of the liquid-gas split as described in claim 2, wherein the outer diameter of the sleeve (42) is in close contact with the inner side of the teat (20), and a tip is formed at the top of the receiving portion (43). a flange portion (43a) that protrudes inwardly. The liquid-gas split bottle structure according to claim 3, wherein the top surface of the partition plate (4 1 ) forms a concave recess ( 4 1 a ), on its outer circumference is formed a ring-shaped joint (45) located at a higher plane between the base (22) of the teat (20) and the mouth (12). 6. The liquid-water split bottle structure according to claim 5, wherein the air guiding hole (44) is at the same plane height as the recess (41a). 7. The liquid-water split bottle structure according to claim 6, wherein a plurality of one-way flap valves (22a) are formed on the base (22) of the teat (20). M310710.*·( - . - : ; 凸 bulging in the recess (41a). 8. The liquid-water split bottle structure according to claim 7, wherein the plug portion (5〇) comprises a first disc member (51) and a a two-disc structure (5 2 ), which is connected together via a plurality of hollow cylinders (5 3 ), and each hollow cylinder (5 3 ) has a central aperture (5 3 丨) The top of the first disc member (5 1 ) and the second disc member (52) a bottom portion; and, at a center of the bottom of the second disc member (52), a cylinder (52 1) is extended downward, and the center includes a central aperture (52) extending through the second disc member (52) Between the top of the bottle and the bottle (1〇). 9. The liquid-water split bottle structure according to claim 8, wherein an outer diameter of the first disc member (5 1 ) and the second disc member (52) and the sleeve (42) The inner diameter of the receiving portion (43) is closely connected, and the top of the first disc member (5 1 ) abuts against the inner side of the top flange portion (43 a ) of the receiving portion (43 ), and the second disc member (52 ) It is about the same height plane as the radial partition (4 1 ) of the disk body (40). The bottle structure of the liquid-gas split according to claim 9, wherein a bottom cover (54) is included at a lower end of the cylinder (52 1) at the bottom of the second disc member (52) , sleeved and closed at the bottom end of the second portion (42b) of the sleeve (42). 1 1 . The bottle structure of the liquid-gas split as described in claim 10, wherein the second portion (42b) of the sleeve (42) is adjacent to the base of the partition (41) M310710 rr彳丨: .丨......—:........................ 1 end 'forms a plurality of diversion holes (4 6 ). 1 2 ·If applying for a patent The bottle structure of the liquid-gas split according to the above item 1, wherein the lower end of the cylinder (521) extends toward the bottom of the bottom cover (54) - one end portion (5 2 3 ). The bottle-and-gas structure of the liquid-gas split according to the item 12, further comprising an air guiding tube (6〇), the upper end of which is connected to the end portion (52 3 ) of the cylindrical body (521), and the lower end is connected to a one-way Valve valve (6丨). #1 4 The bottle structure of the liquid-gas split as described in claim 8 further includes an air guide tube (60), the upper end of which is coupled to the cylinder (521) On the end (5 23 ), a one-way flap valve (όι ) is connected to the lower end.