TWM317414U - Sprayer structure with constant quantity spaying effect to be used in bottle - Google Patents

Description

M317414 VIII. New description: [New technical field] This creation is about a liquid quantitative injection structure of a bottle, especially a kind of liquid that is directly used by the external force to make the liquid contained in the body of the bottle Evenly sprayed on the outside, and according to the composition of the streamlined components and the special structure design, the bottle can not be contaminated with the tank body, hand, and no leakage. [Prior Art] The so-called "food is not tired, the face is not tired", shows that the food culture has been highly valued by humans since ancient times. Based on the differences in geography, climate, and property 'customities, each ethnic group has its own unique taste for food. The taste and cooking style, therefore, allows the liquid quantitative ejection structure of the bottle to occupy a pivotal position in cooking. Nowadays, the quality of life is improved. Even the small things such as the liquid quantitative ejection structure of the bottle and bottle should pay attention to the design, convenience and practicability. However, for the general liquid bottle 1, please refer to the first figure. The three-dimensional schematic diagram is mainly composed of a bottle body jj and a bottle cap 12, and a bottle mouth 121 is protruded from the bottle cap 12; when the whole assembly is implemented, the bottle body 1丨 is first filled into a liquid, and then the bottle is bottled. The cover j 2 is covered and assembled. When the taste of the food is desired to be cooked and tasted, the liquid bottle can be poured, so that the liquid of the bottle body 11 is discharged from the bottle mouth 121 for the purpose of food preparation, but the liquid bottle 1 is used. However, there are some shortcomings as follows: 1 · When the dumping bottle 1 is finished for food, the liquid is easily flowed down the bottle body 11 by the edge of the bottle mouth 2 j, causing the bottle body and the place Stain and affect the hand cleaning of the next 5 M317414 user. 2. The bottle mouth 121 is easy to accumulate on the circumference of the liquid and dry the wine, and the bottle mouth 121 is blocked and odor is generated, which makes the food being inconvenient and unsanitary. 3. When the bottle cap 1 2 of the liquid bottle 1 is opened and closed due to the addition of liquid, it is inadvertently unscrewed, causing the liquid to overflow when the user dumps. [New content] The main purpose of this creation is to provide a liquid quantitative spray-out structure for bottles and cans, which can directly control the quantitative and uniform spraying of liquids by means of the interlocking method of pressing, without causing ejection. Poor liquid or too much or drip. The liquid quantitative ejection structure of the bottle for the purpose of the invention is mainly divided into a liquid holding chamber and a liquid concentrating chamber by using the upper and lower directions of the bottle body capable of containing the liquid, and the quantitative liquid concentration chamber Dividing into a first paragraph portion and a second paragraph portion, the inner diameter of the first paragraph portion is narrower than the inner diameter of the second portion, and there is a boundary portion between the liquid containing and the liquid concentration chamber, and the boundary portion is partitioned Providing a passage for communicating between the liquid holding chamber and the metering liquid concentration chamber for a linkage member to pass therethrough; the linkage member is formed with a connection temple that can pass through the liquid holding chamber and the connecting rod is provided with a draw The groove is located at the channel, and the linking element is sequentially formed with a first collision portion, a second stop portion and a second stop portion at the corresponding quantitative liquid concentration chamber, and the first stop portion is not yet connected to the component When the pressing action is performed, it just touches the lower end of the channel. If the linking element moves down to the quantitative liquid concentration chamber, it will be away from the channel, and the second stopping portion is provided with a leakproof gasket for the quantitative liquid collection. The inner wall surface of the first section of the M317414 chamber is closely attached to the outer side of the 'third stop portion is provided with a groove'. The inner wall of the groove has a flow passage to the vertical bottom surface, and a resilient gasket is fitted therebetween. During this period, the height of the elastic cymbal is smaller than the upper and lower ends of the groove, so that a gap is left between the elastic gasket and the groove for the linkage element to be lowered or raised. Producing a downward movement or an upward movement, and capable of controlling the opening and closing of the flow passage of the groove, and the linkage member is pressed at the lower end with an elastic member, and the other end of the elastic member is pressed with a pressure contact member, the bottom of the pressure contact member A fitting portion is provided on the side, and the fitting portion is formed in the liquid outlet hole at the bottom of the quantitative liquid concentration chamber. According to this, in order to directly press the interlocking element, the first to third stopping portions of the interlocking member are moved downward, so that the first stopping portion is disengaged from the passage, and the second blocking portion is separated from the quantitative liquid concentration chamber. The first passage portion is in contact with each other to form a communication between the passage and the second stopping portion, so that the liquid in the liquid containing chamber can flow into the quantitative liquid concentration chamber, and the third blocking portion is formed into a closed state at the second portion. Part of the liquid stops at the third stop until the interlocking element returns to rise, so that the third #stop is formed in an open state, and a portion of the liquid stopped at the third stop passes through the third stop. The portion flows to the bottom of the quantitative liquid concentration chamber. When the interlocking member is subjected to the pressing operation, a part of the liquid is sprayed out to the liquid outlet hole along the gap of the pressing member. [Embodiment] The present invention relates to a liquid quantitative ejection structure for a bottle and a bottle, and the technical means thereof and the above-mentioned object and effect are described as the best embodiment, and the drawings are as follows: M317414 First, please Referring to the second to seventh figures, the design of the bottle and can used in the present invention utilizes a bottle body 2 capable of containing liquid, which can be divided into a liquid holding chamber above and below the bottle body 2. 21. The liquid concentration chamber 22 is defined. The quantitative liquid concentration chamber 22 is divided into a first section 221 and a second section 222. The inner diameter of the first section 221 is narrower than the inner diameter of the second section 222. An air hole 223 is defined in the inner wall surface; and a partitioning portion 23 is defined between the liquid containing chamber 21 and the metering liquid concentration chamber 22, and the partitioning portion 23 is provided with a liquid φ holding chamber 21 and a metered liquid. The channel 231 is connected to the channel 231. The channel 231 is provided with a soft pad 232. The outside of the soft pad 232 is in close contact with the channel 231, and the upper and lower ends are respectively exposed to the liquid containing chamber 21 and the quantitative liquid concentration chamber. 22, soft pad 232 The inner side is provided with a through hole 233 for the passage of a linking member 3 therebetween, and the liquid containing chamber 21 is formed with a receiving inlet 211 for allowing the liquid to be contained therein. The cover 211 is sleeved with a cover body 24, and the cover body 24 has a through hole 241. The through hole 241 is fitted with a pressing member 25 and protrudes at the end of the Lu for convenient pressing operation. The lower end of the pressing member 25 (toward the direction of the quantitative liquid concentration chamber 22) is provided with a linking member 3 which is formed with a through-hole 233 from the soft pad 232 through the liquid containing chamber 21 of the can body 2. The connecting rod 31 is coupled to the pressing member 25 at one end of the receiving inlet 211, and the connecting rod 31 is provided with a recess 311. The recess 311 is located at the soft negative rubber 232, and the linking member 3 is disposed. A first stop portion 32, a second stop portion 33 and a third stop portion 34 are sequentially formed at the corresponding quantitative liquid concentration chamber 22, and the first stop M317414 is blocked when the interlocking member 3 is not depressed. , which just resists the lower end of the soft pad 232, can prevent The liquid in the body holding chamber 21 flows into the metering liquid concentration chamber 22, and when the interlocking member 3 is pressed down, the liquid concentration chamber 22 is moved to away from the soft rubber pad 232 so as to be in the liquid containing chamber 21. The liquid flows into the metering liquid concentration chamber 22, and the second stopper portion 33 is provided with a leakage preventing washer 331 on the outer side so as to be in close contact with the inner wall surface of the first passage portion 221 of the quantitative liquid concentration chamber 22, the third A groove 341 is defined in the outer side of the stopping portion 34. The inner wall of the groove 341 is provided with a flow channel 342 at a vertical bottom surface φ, and the groove 341 is embedded with an elastic spacer 35 therebetween, and the elastic pad is embedded therein. The height of the piece 35 is smaller than the upper and lower ends of the groove 341, so that a gap is left between the elastic piece 35 and the groove 341, so that when the interlocking element 3 is lowered or raised, the elastic spacer 35 will be concave. A downward movement or an upward movement occurs between the grooves 341, and the flow passage 342 of the control groove 341 is opened and closed, and the elastic member 36 is pressed at the lower end of the interlocking member 3, and the other end of the elastic member 36 is pressed with a pressure contact member 37. The bottom side of the pressure contact element 37 is sequentially provided with a gear portion 371 and a moving portion 372. The fulcrum portion 3 71 has a proper spacing of the pressure contact member 37 at the bottom 224 of the φ metering liquid concentration chamber 22, and the gear portion 371 just abuts against the bottom edge of the metering liquid concentration chamber 22, which is just right for the fitting portion 372. The bottom of the embedded quantitative liquid concentration chamber 22 is provided with a liquid outlet hole 225: the bottom portion 224 of the quantitative liquid concentration chamber 22 can be combined with the quantitative liquid concentration chamber 22 to form a separate screw-proof leakage prevention design to facilitate the linkage element 3, the bottom 224 of the metering liquid concentration chamber 22 can be inserted into the narrowing portion 233 of the boundary portion 23 with the soft pad 232, and the connecting rod 31 of the linking member 3 can be inserted into the liquid containing chamber 21. M317414 In addition, for the construction of the bottle and can used in the present invention, a base 4 which can be smoothly placed on the fixed portion can be further designed, and the base 4 is formed with an accommodating space 41 for allowing the above-mentioned bottle body 2 to be quantified. The orientation of the liquid concentration chamber 22 is interposed therebetween to facilitate positioning of the can body 2 at the fixed place where it is to be placed. In addition, please refer to the fifth to seventh figures. When the creation is to be used after assembly, the handle body is held by the hand and the pressing member 25 is pressed down, so that the linkage of the connection is made. The first stop portion 32 of the element 3 is away from the through hole 233 of the glue #塾 232 located at the boundary portion 23, and the second stop portion 33 is away from the first passage portion 221 of the quantitative liquid concentration chamber 22, so that the liquid is contained. The liquid in the chamber 21 will flow into the second stopper portion 33 along with the through hole 233 of the soft pad 232. At this time, the elastic spacer 35 originally at the lower end of the groove 341 of the third stopper portion 34 is subjected to the interlocking member 3 The pressure movement is also shifted to the upper end of the groove 341, and the flow path 342 on the groove 341 is blocked, so that part of the liquid stays at the through hole 233 to the second stop portion 33; until the pressing member 25 is released. The elastic member 36, which is originally subjected to the crushing and gathering elastic force, supports the interlocking member 3 due to the pressure release, so that the interlocking member 3 is raised to return the first stopper portion 32 to the blocking through hole 233, and the second stopper is stopped. The portion 33 also returns to the first passage portion 221 of the blocking quantitative liquid concentration chamber 22 to make the liquid in the liquid containing chamber 21 A portion of the liquid of the liquid concentration chamber 22 is partitioned, and the elastic spacer 35 on the third stopper portion 34 is also displaced to the lower end of the recess 341 during the ascending of the interlocking member 3, so that the recess 341 is The flow passage 342 is formed in an open state, so that a portion of the liquid originally located at the second stopper portion 33 can smoothly flow into the bottom portion 224 of the quantitative liquid concentration chamber 22 through the open flow passage 342, and then pass through the next M317414 pressure. Actuating, causing the interlocking member 3 to press against the elastic member 36. During the process, a pressure against the pressing member 37 is generated to allow a portion of the liquid stored in the bottom portion 224 of the metering liquid concentration chamber 22 to be along the pressing member 37 and the second passage. The gap between the portions 222 flows out of the liquid outlet hole 225. Secondly, the bottle design of the present invention can be adapted to various liquids. For liquids with larger molecular particles, such as oil, the liquid concentrating chamber 22 can be used to quantify the liquid element 371 to facilitate the interlocking of the element 3. When the elastic force release of the elastic member 37 is restored, the air can be quickly sucked back to facilitate the quantitative liquid concentration chamber 22 to be easily sprayed out. In addition, as shown in the third figure and the fourth figure, when the bottle of the present invention is not used, the combination of the base 4 can be used to dispose the bottle body 2 in the direction of its quantitative liquid concentration chamber 22. In the accommodating space 41 of the base 4, the bottle body 2 can be placed steadily upright at a fixed position, which enhances the convenience of the bottle. Through the above, the liquid quantitative ejection structure of the bottle of the present invention has the following features and effects as compared with the conventional analog product: the first stop portion 32 of the interlocking element 3 is created. The second stopping portion 33 can uniformly control the amount of liquid to be ejected in a stepwise manner, so that the product cannot be controlled because of the inability to control the amount of liquid, so that the use of the liquid in the liquid is too small or too much, and in cooperation During the process of the interlocking action of the external component 3, the metering of the liquid to be ejected next time can be reserved in the quantitative liquid concentration chamber 22, so that the next time the liquid is taken, the interlocking element 3 must be gently controlled once. Under the pressure, the liquid can be quickly exported. 11 M317414 2· The present invention passes through the third blocking portion 34 of the interlocking member 3, and can move along with the movement of the linking member 3 to form a partial flow of liquid between the first blocking portion 32 and the second stopping portion 33. The state of the bottom of the liquid concentration chamber 22 is quantified, and the suction and pressure release characteristics of the elastic member % itself are controlled to control whether the liquid stored in the quantitative liquid concentration chamber 22 is discharged to the liquid outlet hole 225, and the storage is ensured. Some of the liquid in the lower chamber 22 does not leak even if it is not used. • 3. This creation combines the liquid quantitative sprayed structure of the bottle body 2 and the interlocking component 3, which is easy to operate and is easy to assemble and use, and is further pressed by the external force through the interlocking element 3 and the liquid outlet hole The design of the bottle body 2 can be designed according to the consumption demand, and the design of the hand holding and the operation can be changed. Similarly, the liquid holding chamber 22 of the bottle body 2 can be changed into the liquid concentration chamber 22 of the bottle body. Or the combination of separate sets can highlight the convenience and use value of this creation. 4. The creation of the interlocking element 3 is provided with a first blocking portion 32, a second stopping portion 33 to a second blocking portion 34 in the dosing liquid concentration chamber 22, so that the quantitative liquid concentration chamber 22 can be Reserve the metering of the liquid to be ejected next time, so that when the liquid is taken next time, the liquid can be quickly taken out by simply applying a downward pressure control linkage. 5. When the bottle is not in use, it can be combined with a base 4 having a shape that can be smoothly placed on the fixed position, and the base 4 can be used to accommodate the space. 2 The surface of the quantitative liquid concentration chamber 22 is embedded in the valley space 41 of the base 4', and the bottle body 2 can be placed upright and fixed at a fixed position, so that the tank can be conveniently taken and placed. At the same time, it achieves the convenience of 12 M317414 / loss and not dirty hands. In summary, the liquid quantitative ejection structure of the bottle provided by the present invention is not only innovative in terms of design type, but also has an effect on the efficiency of the conventional items, and as a whole, does have The better use of the value of the industry, the innovative design that is not lost, the application of the law, the request for the benefit of the second review, the sudden sense of real feelings. ~ teach patents,

13 M317414 [Simple diagram of the diagram] The first diagram is a stereoscopic diagram of the prior art. The second diagram is a three-dimensional exploded view of the creation. The third diagram is the three-dimensional appearance of the creation. The fourth diagram is the fifth section of the combination of the creation. The sixth section of the creation is a schematic diagram of the pressure actuation of the creation. The seventh diagram is a schematic diagram of the restoration of the creation. [Main component symbol description] 1 liquid bottle 11 bottle body 12 bottle cap 121 bottle mouth 2 bottle body 21 Liquid holding chamber 22 Quantitative liquid concentration chamber 221 First paragraph portion 222 Second paragraph portion 223 Air hole 224 Bottom portion 225 Liquid outlet hole 23 Interval limit portion 231 Channel 232 Soft pad 233 Through hole 24 Cover body 241 Perforation 25 Pressing member 3 Linking Element 31 Connecting rod 311 Draw 32 First stop part 33 Second stop part M317414 331 Stop leaking ring 34 341 Groove 342 35 Elastic spacer 36 37 Pressure contact element 371 372 Fitting part 4 41 Housing space Three stop section flow path elastic element gear base

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Claims (1)

M317414 IX. Patent application scope: 1. A liquid quantitative discharge structure for a crucible can is divided into a liquid holding chamber and a quantitative liquid concentration chamber in the upper and lower directions of a bottle body, and the quantitative liquid concentration chamber is divided into a first-paragraph portion. In the second paragraph, the inner diameter of the first section is narrower than the inner diameter of the second section, and there is a section between the liquid containing chamber and the quantitative liquid concentration chamber, which is provided at the boundary portion. a passage for communicating between the liquid containment chamber and the dosing liquid and the body concentration chamber for the inter-connecting member to pass therethrough; the interlocking member is formed with a connecting rod that can pass through the liquid containing chamber, and the linking member is in the corresponding quantitative liquid concentration chamber Forming a first stop, a second stop, and a third stop, the first stop is adapted to be in contact with or away from the lower end of the passage, and the second stop is provided with a leakproof washer Adjacent to the inner wall of the first section, the third stop is located in the second section 4 and is provided with a groove having a flow passage, and the groove has an elastic spacer, the height of the elastic spacer is smaller than the groove 'between the upper and lower ends' and the groove There is a gap between them for controlling the opening and closing of the flow path of the groove, and another elastic element under the linkage element, and the other end of the elastic element is pressed with a pressure contact π member, and the pressure contact element is provided with a fitting portion, which is embedded The joint is inserted into the liquid outlet hole provided at the bottom of the quantitative liquid concentration chamber. 2) The liquid quantitative ejection structure of the bottle according to the scope of the patent application, wherein the channel may have a soft rubber pad, the outer side of the soft rubber pad is closely attached to the channel and is provided with a cross-linking component therethrough. Through hole. 3 • The liquid quantitative ejection structure of the bottle according to item 1 of the patent application scope, wherein 16 M317414 may be provided with an air hole in the quantitative liquid concentration chamber. 4. For the liquid quantitative ejection structure of the bottle according to the scope of claim 1, wherein the bottom of the comparison liquid concentration chamber can be combined with the quantitative liquid concentration chamber to form a separate screw-proof leakage prevention combination. 5. If you apply for a patent scope! The liquid quantitative ejection structure of the bottle according to the invention, wherein a position portion is provided between the bottom side and the fitting portion of the pressure contact member for the pressure contact element to the quantitative liquid concentration chamber There is a proper spacing between the bottoms so that the _ gear can interfere with the bottom edge of the metered liquid concentration chamber. 6. The liquid metering structure of the bottle according to claim 1, wherein the four connecting rods are provided with a drawway which is located at the passage. 7. The liquid quantitative dispensing structure of the bottle according to claim 1, wherein the quantitative liquid concentration chamber of the bottle body can be matched with a housing space and can be smoothly placed on the base of the fixing portion for When the bottle body is not in use, it can be embedded and positioned on the base.