• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Pressure device for liquid food container. This invention relates to a pressure device of a liquid food container, and the pressure device is mounted on the container cover. The pressure device includes a pressure head that is connected to actuate a compression part, so that the compression part can actuate first and second anti-leakage valves in pressure and release actions. The valve heads of the anti-leakage valves close and open alternately subject to the pressure and release actions. Therefore, the liquid in the container can be stored in the liquid storage chamber through a liquid suction hole, and then extracted from a liquid outlet through the liquid conduction hole. Therefore, the use of the anti-leakage valves can effectively and accurately control the liquid outside the volume of the liquid and the internal vacuum state, the liquid is blocked in the pressure device without dripping in a vacuum state to achieve an effect leak proof and splash proof. (Machine-translation by Google Translate, not legally binding)
    公开号:ES2720604A1
    申请号:ES201830513
    申请日:2018-05-30
    公开日:2019-07-23
    发明作者:Po-Hsin Lee;Tsung-Hui Chen
    申请人:Horng Chang Metal Ind Co Ltd;
    IPC主号:
    专利说明:

    [0001] Pressure device for liquid food container
    [0002]
    [0003] Background
    [0004]
    [0005] Field of the Invention
    [0006] The invention relates to a pressure device of a liquid food container, in particular a pressure device used as a liquid dosed for dietary food.
    [0007]
    [0008] Description of the related technique
    [0009]
    [0010] A pressure device is often used to extract a variety of liquids in containers. Since the pressure device has the advantages of simple operation and a fixed output flow, etc., the pressure device is widely used in the pumping of liquid containers. Liquid containers and their pressure devices cover a wide variety of applications.
    [0011]
    [0012] However, a pressure device used in the feed category is especially described herein. In the dietary industry, regardless of the preparation, it is necessary to be prices in the dressing (such as syrup or wine, etc.), in the addition of various kinds of ingredients (such as concentrated fruit juice, etc.) or in condiments , since less than a minute will lose its delicious character. Therefore, the pressure device of a vessel is a stricter control. For example, in a feed pump, disclosed in US 5375746, two ball valves are arranged primarily in the valve body. In the pressure procedure, the two valve balls correspond respectively to the opening or closing of an outlet and an inlet under a pressure to form a structure of a pressure pump. However, since the balls roll freely in the ball spaces, it cannot be ensured that the exit and the entrance can be completely blocked. If the balls are not a true sphere, it is difficult for the exit and the entrance to be completely sealed. Because of this, it is easy not to empty inside, so that the liquid leaks from the pipes and therefore splashes around or even splashes back to the nozzle. This is a headache for the user. Since the pressure device is widely used, a pressure device with improved operability characteristics and preventing liquid from remaining in the nozzle is an important issue for those involved in the industry
    [0013]
    [0014] Summary
    [0015]
    [0016] The main purpose of the present invention is to provide a pressure device for a liquid food container, in particular a pressure device for regulating the edible liquid used in the diet, to block the liquid in the vacuum tube so that don't drip
    [0017]
    [0018] The main purpose and effect of the pressure device of a liquid food container of the present invention are achieved by the following specific technical means.
    [0019]
    [0020] The pressure device comprises a pressure head that is connected to actuate a compression part, so that the compression part can actuate the first and second anti-leakage valves in pressure and release actions. The valve heads of the anti-leakage valves close and open alternately subject to the pressure and release actions. Therefore, the liquid in the container can be stored in the liquid storage chamber through the liquid suction hole, and then extracted from the liquid outlet through the liquid conduction hole. Therefore, the use of the anti-leakage valves can effectively and accurately control the liquid outside the volume of the liquid and the internal vacuum state, the liquid is blocked in the pressure device without dripping in a vacuum state to achieve an effect leak proof and splash proof.
    [0021]
    [0022] In the pressure device of a liquid food container according to an embodiment of this invention, the first anti-leakage valve is correspondingly mounted in the liquid suction orifice, in which the first anti-leakage valve comprises a first fixing seat, a first valve stem movably moved is incorporated in the first fixing seat, one end of the first valve stem forms a first valve head, a first elastic element is disposed as a sleeve on the first valve stem, the first Elastic element is located between the first fixing seat and the first valve head, the first valve head can seal the liquid suction hole or be separated from the liquid suction hole.
    [0023]
    [0024] In the pressure device of a liquid food container according to an embodiment of This invention, the second anti-leakage valve is correspondingly mounted in the liquid conduction orifice, in which the second anti-leakage valve comprises a second fixing seat, a second valve stem moved in a mobile manner is incorporated in the second safety seat. fixing, one end of the second valve stem forms a second valve head, a second elastic element is disposed as a sleeve on the second valve stem, the second elastic element is located between the second fixing seat and the second head of valve, the second valve head can seal the liquid conduction hole or be separated from the liquid conduction hole.
    [0025]
    [0026] Brief description of the drawings
    [0027]
    [0028] Figure 1 is a three-dimensional exploded view of a first embodiment of the present invention.
    [0029]
    [0030] Figure 1 is an exploded perspective view of a leakage valve according to the first embodiment of the present invention.
    [0031]
    [0032] Figure 3 is a schematic view of the leakage valve assembly according to the first embodiment of the present invention.
    [0033]
    [0034] Figure 4 is an overall cross-sectional view of the first embodiment of the present invention.
    [0035]
    [0036] Figure 5 is a partial cross-sectional view of the first embodiment of the present invention.
    [0037]
    [0038] Figure 6 is a schematic cross-sectional diagram of the downward pressure operation according to the first embodiment of the present invention.
    [0039]
    [0040] Figure 7 is a cross-sectional view of the recovery operation according to the first embodiment of the present invention.
    [0041]
    [0042] Figure 8 is an overall cross-sectional view of a second embodiment of the present invention.
    [0043]
    [0044] Figure 9 is a schematic cross-sectional diagram of the downward pressure operation. according to the second embodiment of the present invention.
    [0045]
    [0046] Figure 10 is a cross-sectional view of the recovery operation according to the second embodiment of the present invention.
    [0047]
    [0048] Figure 11 is a schematic diagram of the upper and lower positioning elements of the present invention.
    [0049]
    [0050] Detailed description
    [0051]
    [0052] First, please refer to figures 1 and 4-5. A pressure device is installed on a cover B of a container A. The pressure device comprises a pressure head 1, a compression part 2, a liquid storage chamber 3, a first leakage valve 4, a second leakage valve 5 and a liquid outlet 6.
    [0053]
    [0054] The pressure head 1 is fixed in a mobile manner on the cover B and is to be pressed by a user, so that the pressure head 1 moves with respect to the cover B to activate the liquid outlet.
    [0055]
    [0056] The compression part 2 is correspondingly assembled at one end of the pressure head 1, and a plunger 21 and a main elastic part 22. So that the compression part 2 can be actuated by the pressure head 1 to allow the main elastic part 22 shows a compression-release action and actuates the piston 21 to move it.
    [0057]
    [0058] The liquid storage chamber 3 is disposed within the pressure device and is provided with a liquid suction hole 31 and a liquid conduction hole 32 at both ends thereof. The first leakage valve 4 is correspondingly mounted in the liquid suction hole 31, in which the first leakage valve 4 includes a first fixing seat 41. A first valve stem 42, which can move in a mobile manner, is incorporated in the first fixing seat 41. A first elastic element 43 is disposed as a sleeve on the first valve stem 42 and located between the first fixing base 41 and a first valve head 421. The first valve head 421 it can correspondingly seal the liquid suction hole 31 or be separated from the liquid suction hole 31. The second leakage valve 5 is correspondingly mounted in the conduction orifice of liquid 32 and has a second fixing seat 51. A second valve stem 52 is movably incorporated in the second fixing seat 51. The end of the second valve stem 52 forms a second valve head 521. A second elastic element 53 is disposed as a sleeve on the second valve stem 52 and located between the second fixing seat 51 and the second valve head 521. The second valve head 521 can correspondingly seal the liquid conduction hole 32 or be separated from the liquid conduction hole 32.
    [0059]
    [0060] The liquid outlet 6 is connected to the second leakage valve 5 and communicates with the liquid conduction orifice 32. The liquid outlet 6 is used to export the liquid into the container A. When actually implemented, the pressure device of a liquid food container in this invention is mainly used for various fields, such as adding a sugar solution to beverages, concentrates, adjusting the dosage of wine for a cocktail, etc., which can extract the liquid in the container, and the Liquid may be contained in different types of containers. Below are some examples.
    [0061]
    [0062] Example 1:
    [0063]
    [0064] Please refer to figures 1-7. The pressure head 1 is provided with a rod part 11 that penetrates the cover B. One end of the rod part 11 is correspondingly incorporated in an outer tube 7, and one end of the outer tube 7 is locked to the cover B. The compression part 2 is correspondingly assembled inside the outer tube 7. The piston 21 of the compression part 2 is provided with a driving rod 23. One end of the driving rod 23 is locked to the head of pressure 1, and the drive rod 23 is provided with an upper positioning element 24 and a lower positioning element 25. A main elastic element 22 is arranged as a sleeve outside the actuating rod 23 and located between the upper placement 24 and lower positioning element 25. The other end of the outer tube 7 blocks a connection seat 8. The liquid storage chamber 3 is á arranged in the connecting seat 8. The connecting seat 8 has a first opening 81 corresponding to the first fixing seat 41 of the first leakage valve 4. A first conduit 44 between the first fixing seat 41 and the first opening 81 is communicates with the liquid storage chamber 3. The liquid suction hole 31 is disposed at the other end of the connection seat 8 in front of the first opening 81. The connection seat 8 has a second opening 82 corresponding to a blocking seat 9. The liquid conduction hole 32 is disposed in the blocking seat 9 and communicates correspondingly with the liquid storage chamber 3. The blocking seat 9 is assembled correspondingly with the second fixing seat 51 of the second leakage valve 5, and the second valve head 521 corresponds to the liquid conduction hole 32 in the locking seat 9. A second conduit 54 between the second fixing seat 51 and the second opening 82 communicates with the liquid outlet 6. The liquid outlet 6 is arranged on one side of the cover B, and a flexible tube 10 is arranged as a sleeve on the outside of the locking seat 9. The flexible tube 10 It is connected and leads to the liquid outlet 6.
    [0065]
    [0066] The structures of the first leakage valve 4 and the second leakage valve 5 are substantially the same, and the difference is that the assembly positions are different. Please refer to figures 2-3 and 6-7. An inner thread part a is disposed at an inner diameter of the first opening 81 of the connecting seat 8. The first fixing seat 41 is a seat body with a flattened surface on both sides thereof, and an outer thread part b is arranged outside the first fixing seat 41. When the first fixing seat 41 is locked to the inside diameter of the first opening 81, the first conduit 44 between the first fixing seat 41 and the first opening 81 can be connected with the liquid storage chamber 3. Similarly, an inner thread portion a is disposed at an inner diameter of an opening 91 of the locking seat 9, and the second fixing seat 51 is a seat body having a surface flattened on both sides thereof, and an outer thread portion b is disposed outside the second fixing seat 51. When the second fixing seat 51 is bl orched to the inside diameter of the second opening 82, the second conduit 54 between the second fixing seat 51 and the second opening 82 can be connected to the liquid outlet 6. In addition, each of the first valve head 421 and the second head Valve 521 is a conical seat that can tightly seal the liquid suction hole 31 and the liquid conduction hole 32 using a conical design. In addition, a washer C is disposed respectively outside the first valve head 421 and the second valve head 521 to allow the first valve head 421 and the second valve head 521 to communicate with the suction hole of liquid 31 and the liquid conduction hole 32 to achieve a greater sealing effect, so that no leakage occurs.
    [0067]
    [0068] For the actual operation of Example 1, see Figures 6-7. When cover B initially covers the container A filled with the liquid, the internal space, such as the liquid storage chamber 3, in a vacuum state that can be filled with liquid by repeatedly pressing the pressure head 1. After the head is pressed down of pressure 1, the rod part 11 drives the drive rod 23 and the piston 21 to move in the outer tube 7. When the lower positioning element 25 abuts against a decrease section 71 of the outer tube 7, it squeezes the main elastic element 22 of the compression part 2. The piston 21 pushes the gas in the outer tube 7 through the first conduit 44 and pushes the liquid in the liquid storage chamber 3 towards the second leakage valve 5. Simultaneously at the gas thrust of the liquid, the first valve head 421 of the first valve stem 42 of the first leakage valve 4 can also hermetically seal the hole. or liquid suction 31 so that the liquid in the container A does not go against the flow of the liquid suction hole 31. The liquid in the liquid storage chamber 3 displaces the second valve stem 52 of the second leakage valve 5 to compress the second elastic element 53 to disengage the second valve head 521 from the liquid conduction hole 32. Liquid is conducted out of the liquid outlet 6 through the second conduit 54 and the flexible tube 10 from the conduction hole of liquid 32. On the contrary, after releasing the pressure head 1, the piston 21 is restored by the elastic recovery force of the main elastic element 22 of the compression part 2. Under vacuum suction conditions, the first rod of valve 42 of the first leakage valve 4 is operated to move on the first fixing seat 41 through the first conduit 44. The first element The elastic 43 is compressed to disengage the first valve head 421 from the liquid suction hole 31. At the time this action is performed, the attractive attraction force attracts the second valve stem 52 of the second leakage valve 5 to move back and allow the second valve head 521 to tightly seal the liquid conduction hole 32. At the same time, the liquid in the container A is sucked into the liquid storage chamber 3 from the suction hole of liquid 31 by vacuum suction.
    [0069]
    [0070] Example 2:
    [0071]
    [0072] Please refer to figures 8-10. The pressure head 1 is assembled in a hollow tube 12, one end of the hollow tube 12 penetrates the cover B and is correspondingly incorporated in an outer tube 7, and one end of the outer tube 7 is locked to the cover B. And a liquid storage chamber 3 is formed in the outer tube 7. The end of the hollow tube 12 in the outer tube 7 corresponds to the piston 21 blocking the compression part 2. The liquid conduction hole 32 is disposed in the lower part of the piston 21. The second leakage valve 5 is installed inside the piston 21. The second fixing seat 51 is correspondingly arranged in an opening of the piston 21. The base of the outer tube 7 is correspondingly provided with a base 92. The liquid suction hole 31 is arranged in the lower part of the base 92 and communicates with the interior of the container A. The first leakage valve 4 is mounted inside the base 92, so that the first fixing seat 41 is correspondingly arranged on the base 92. The upper positioning element 24 and lower positioning element 25 are disposed respectively at both ends of the main elastic element 22. The positioning element sup upper 24 is located under the piston 21 and is provided with an upper bore 241 corresponding to the liquid conduction hole 32. The lower positioning element 25 is located above the base 92 and has a lower through hole 251 corresponding to the orifice of liquid suction 31. The liquid outlet 6 is arranged in the hollow tube 12 and communicates with the liquid conduction hole 32.
    [0073]
    [0074] The structures of the first leakage valve 4 and the second leakage valve 5 are substantially the same, and the difference between them is that the assembly locations are different. Please refer to figures 8-10. An inner thread part a is arranged in an inner diameter of an opening of the base 92, and the first fixing seat 41 is a base having a flattened surface on both sides, and an outer thread part b is arranged in the outside of the first fixing seat 41. When the first fixing seat 41 is locked to the inside diameter of the opening, the first conduit 44 between the first fixing seat 41 and the opening can be connected to the liquid storage chamber 3. From Similarly, an inner thread part a is provided in an inner diameter of the plunger opening 21. The second fixing seat 51 is a seat body having a flattened surface on both sides, and an outer thread part b is arranged outside the second fixing seat 51. When the second fixing seat 51 is locked to the inside diameter of the opening, the second conduit 54 between the second ace Fixing seat 51 and the second opening 82 can be connected to the liquid outlet 6. The design of the shape of the valve head is as in Example 1.
    [0075]
    [0076] For actual operation in Example 2, see Figures 8-10. When the cover B initially covers the container A filled with the liquid, the internal space, such as the chamber of liquid storage 3, in a vacuum state that can be filled with liquid by repeatedly pressing the pressure head 1. After pressing the pressure head 1 down, the hollow tube 12 drives the plunger 21 to move in the outer tube 7. When the positioning element 251 abuts against the decrease section 71 of the outer tube 7, the main elastic element 22 of the compression part 2 is pressed. The piston 21 pushes down the liquid in the storage chamber. liquid storage 3 of the outer tube 7 to allow the first valve head 421 of the first leakage valve 4 to seal the liquid suction hole 31 tightly, so that the liquid in the container A does not flow into the orifice of liquid suction 31 and flow back to the liquid storage chamber 3. At the same time, the liquid in the liquid storage chamber 3 is pressed upwardly by the first mere leakage valve 4 in the lower part of the outer tube 7 to pass through the upper perforation 241 in the upper positioning element 24 and move the second valve head 521 upwards to compress the second elastic element 53. Liquid passes to through the second conduit 54 from the hollow tube 12 through the liquid outlet 6 to be driven outward. On the contrary, after the release of the pressure head 1, the piston 21 is restored by the elastic recovery force of the main elastic element 22 of the compression part 2. Under vacuum suction, the first valve stem 42 of the first anti-leakage valve 4 is actuated by the first conduit 44 to move on the first fixing seat 41 and the first elastic element 43 is compressed to disengage the first valve head 421 from the liquid suction hole 31. At the time this action is performed , the recovery severity attracts the second valve stem 52 of the second leakage valve 5 to move back and allow the second valve head 521 to seal the liquid conduction hole 32 tightly.
    [0077]
    [0078] The first valve stem 42 of the first anti-leakage valve 4 is operated to move on the first fixing seat 41 through the first conduit 44. The first elastic element 43 is compressed to disengage the first valve head 421 from the orifice. liquid suction 31. At the time this action is performed, the restoring attraction force attracts the second valve stem 52 of the second anti-leakage valve 5 to travel back and allow the second valve head 521 to seal tightly the liquid conduction hole 32. At the same time, the liquid in the container A is sucked into the liquid storage chamber 3 from the liquid suction hole 31 by the vacuum suction. Simultaneously, the liquid in the container A is introduced into the liquid storage chamber 3 from the suction hole of liquid 31 by means of the first conduit 44 and the lower perforation 251 by vacuum suction.
    [0079]
    [0080] Please refer to Figure 11. In addition, notches 242 and 252 are arranged in the upper positioning element 24 and the lower positioning element 25 corresponding to the main elastic element 22, and the notches 242 and 252 are used to position the elastic element main 22.
    [0081]
    [0082] The invention has the following advantages:
    [0083]
    [0084] 1. The present invention uses the design of the valve heads of the first and second anti-leakage valves to completely seal the liquid suction orifice and the liquid conduction orifice to prevent the liquid from flowing back. So in the process of pressure and release, the internal pipes form a vacuum state without fading. This improves the problem that the traditional ball cannot seal the outlet where the dripping phenomenon is sealed, to effectively achieve the anti-drip effect.
    [0085]
    [0086] 2. As indicated above, when the pipes form a state of complete vacuum, subjected to a non-pressure action, vacuum suction can be used to completely absorb the liquid in the pipes. Even if the container is shaken, there will be no dripping or spilling of liquid to prevent the splashing effect.
    [0087]
    [0088] 3. The main elastic element of the present invention can be adjusted by adjusting the thickness and length of the adjustable pressure device.
    权利要求:
    Claims (1)
    [0001]
    A pressure device of a liquid food container, in which the pressure device is mainly installed on a cover of a container, the pressure device comprising a pressure head, a compression part, a liquid storage chamber, a first leakage valve, a second leakage valve, and a liquid outlet, in which
    the pressure head is installed on the cover, in which the pressure head is an element pressed by a user to move with respect to the cover to activate the liquid outlet;
    the compression part is correspondingly assembled at one end of the pressure head and comprises a plunger and a main elastic element, and the compression part can be actuated by means of the pressure head to cause the main elastic element to show a contraction action and actuate the plunger so that it moves;
    the liquid storage chamber is disposed within the pressure device and is provided with a liquid suction hole and a liquid conduction hole at two ends of the liquid storage chamber;
    the first anti-leakage valve is correspondingly mounted in the liquid suction hole, in which the first anti-leakage valve comprises a first fixing seat, a first valve stem movably moved is incorporated in the first fixing seat, a end of the first valve stem forms a first valve head, a first elastic element is disposed as a sleeve on the first valve stem, the first elastic element is located between the first fixing seat and the first valve head, the First valve head can seal the liquid suction hole or be separated from the liquid suction hole;
    the second anti-leakage valve is correspondingly mounted in the liquid conduction orifice, in which the second anti-leakage valve comprises a second fixing seat, a second valve stem movably moved is incorporated in the second fixing seat, a end of the second stem of valve forms a second valve head, a second elastic element is disposed as a sleeve on the second valve stem, the second elastic element is located between the second fixing seat and the second valve head, the second valve head can seal the liquid conduction hole or be separated from the liquid conduction hole; Y
    The liquid outlet is connected to the second leakage valve and communicates with the liquid conduction orifice, and the liquid outlet is used to guide liquid into the container to flow out.
    The pressure device according to claim 1, wherein
    the pressure head is provided with a rod part that penetrates the cover, one end of the rod part is correspondingly incorporated in an outer tube, one end of the outer tube is locked to the cover, the compression part is correspondingly assembled inside the outer tube, a piston of the compression part has a drive rod, one end of the drive rod is locked to the pressure head, and the drive rod is provided with an upper positioning element and a lower positioning element, the main elastic element is arranged as a sleeve outside the actuating rod and located between the upper and lower positioning elements;
    a connection seat is locked at the other end of the outer tube, the liquid storage chamber is arranged in the connection seat, the connection seat has a first opening corresponding to the first fixing seat of the first leakage valve, a first conduit between the first fixing seat and the first opening communicates with the liquid storage chamber, the liquid suction hole is disposed at the other end of the connecting seat in front of the first opening, the connecting seat has a second opening corresponding to a blocking seat, the liquid conduction hole is arranged in the blocking seat and communicates correspondingly with the liquid storage chamber, the blocking seat is correspondingly assembled with the second fixing seat of the second leakage valve and the second valve head corresponds to the ori fluid conduction fluid in the locking seat, a second conduit between the second fixing seat and the second opening communicates with the liquid outlet; Y
    The liquid outlet is arranged on one side of the cover, a flexible tube is arranged as a sleeve on the outside of the locking seat, the flexible tube is connected and leads to the liquid outlet.
    The pressure device according to claim 2, wherein an inner diameter of the first opening is provided with an inner thread part, the first fixing seat is a seat body having flattened surfaces on two sides and a thread part outside arranged on the outside of the first fixing seat, the external thread part of the first fixing seat is correspondingly locked with the internal thread part inside the first opening to form the first conduit between the first fixing seat and the first opening, so that the first conduit and the liquid storage chamber communicate with each other.
    The pressure device according to claim 3, wherein an inner diameter of the second opening is provided with an inner thread part, the second fixing seat is a seat body having flattened surfaces on two sides and a thread part outside arranged on the outside of the second fixing seat, the outer thread part of the second fixing seat is correspondingly locked with the inner thread part inside the second opening to form the second conduit between the second fixing seat and the second opening, so that the second conduit and the liquid outlet communicate with each other.
    The pressure device according to claim 4, wherein the first and second valve heads are conical heads, and a washer is provided respectively outside the first and second valve heads.
    The pressure device according to claim 1, wherein the pressure head is assembled in a hollow tube, one end of the hollow tube penetrates the cover and is correspondingly incorporated into an outer tube, one end of the outer tube is locked to the cover, the outer tube forms a liquid storage chamber, the end of the hollow tube in the outer tube corresponds to a piston that blocks the compression part, the liquid conduction hole is disposed in a lower part of the piston, the second leakage valve is installed inside the piston, and the second fixing seat is correspondingly arranged in an opening of the piston, a base is disposed correspondingly in a lower part of the outer tube, the liquid suction hole is arranged in a lower part of the base and communicates with the inside of the container, the first leakage valve is installed inside the base, the first fixing seat is correspondingly arranged in an opening of the base, the main elastic element of the compression part is correspondingly installed in the liquid storage chamber of the outer tube, the upper positioning elements and lower are arranged independently at both ends of the elá element main static, the upper positioning element is located under the plunger and is provided with an upper perforation corresponding to the liquid conduction hole, the lower positioning element is located above the base and has a lower perforation corresponding to the suction hole of liquid, and the liquid outlet is arranged in the hollow tube and communicates with the liquid conduction hole.
    The pressure device according to claim 6, wherein an inner thread part is formed on an inner diameter of the base opening, the first fixing seat is a seat body having flattened surfaces on two sides and a part external thread disposed outside the first fixing seat, when the first fixing seat is locked to the inner diameter of the opening, the first conduit between the first fixing seat and the opening can be connected to the liquid storage chamber .
    The pressure device according to claim 7, wherein an inner thread part is formed in an inner diameter of the plunger opening, the second fixing seat is a seat body having flattened surfaces on two sides and a part of outer thread disposed outside the second fixing seat, when the second fixing seat is locked to the inner diameter of the opening, the second conduit between the second fixing seat and the opening can be connected to the liquid outlet.
    The pressure device according to claim 8, wherein the valve heads First and second are conical heads, and a washer is provided respectively outside the first and second valve heads.
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    同族专利:
    公开号 | 公开日
    FR3077063A3|2019-07-26|
    JP3216426U|2018-05-31|
    TWM559852U|2018-05-11|
    引用文献:
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    法律状态:
    2019-07-23| BA2A| Patent application published|Ref document number: 2720604 Country of ref document: ES Kind code of ref document: A1 Effective date: 20190723 |
    2019-12-12| FA2A| Application withdrawn|Effective date: 20191204 |
    优先权:
    申请号 | 申请日 | 专利标题
    TW107201110U|TWM559852U|2018-01-23|2018-01-23|Edible liquid container pressing device|
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