KR100969703B1 - Vaccum pump and vaccum container having the same - Google Patents

Abstract

PURPOSE: A vacuum pump and a vacuum container including the same are provided to improve the vacuum degree of the inside of the vacuum container by discharging air remained in the vacuum container to the outside. CONSTITUTION: A vacuum pump(10) comprises a case(20) wherein a first vent is formed in a lower layer of the case, a piston which is vertically movably combined with the case and comprises a second vent, a first switching member(12) which switches the first vent according to the up and down motion of the first switching member, a second switching member(14) which switches the second vent according to the up and down motion of the second switching member, an elastic member(17) which is included between the case and the piston and supplies elastic force to the piston, a first separation preventing member(40) which prevents the separation of the piston, a second separation preventing member(50) which prevents the separation of the first switching member, and a third separation preventing member(60) which prevents the separation of the second switching member.

Description

Vacuum pump and vacuum container having same {Vaccum pump and vaccum container having the same}

The present invention relates to a vacuum pump and a vacuum container having the same, and more particularly, to a vacuum pump and a vacuum container having the same to discharge the air in the vacuum container to the outside to make a vacuum state inside the vacuum container.

In general, various kinds of foods such as vegetables and fish are easily oxidized due to contact with other harmful substances such as oxygen or microorganisms contained in the air when they come into contact with the outside and become rotten.

In addition, in the case of fermented food, the fermentation and ripening rate of the food proceeds too fast as the breeding of microorganisms is further activated, resulting in poor preservation. On the other hand, in order to delay the fermentation and decay of food is the key to blocking the outside air, the proposed vacuum vessel for this.

1 is a view schematically showing an example of a conventional vacuum container.

Referring to FIG. 1, the conventional vacuum container 1 includes a sealing member 4 provided in a main body 2, a cover 3, and a hole formed in the cover 3 to seal the inside of the main body 2.

When the vacuum container 1 presses the sealing member 4 in a state in which the cover 3 is covered with the main body 2, the sealing member 4 is in close contact with a hole provided in the cover 3 and the main body 2 is closed. It is to seal the inside. When the cover 3 is opened, the sealing member 4 is pulled to release the close contact between the sealing member 4 and the holes provided in the cover 3.

However, even if the conventional vacuum container 1 as described above closes the inside of the main body 2 by pressing the sealing member 4 to close the hole, the main body 2 is formed by the air present in the main body 2. There is a problem that the food accommodated in the corruption.

The present invention is to solve the problems as described above, and provides a vacuum pump and a vacuum container having the same to discharge the air remaining in the vacuum container to the outside.

Vacuum pump according to the present invention comprises a case having a first outlet in the lower film; A piston coupled to the case so as to be movable up and down, and having a second outlet at an upper layer thereof; A first opening / closing member which opens and closes the first outlet port according to the vertical movement of the piston; A second opening / closing member which opens and closes the second discharge port according to the vertical movement of the piston; An elastic member provided between the case and the piston to provide an elastic force to the piston; A first release preventing member coupled to an upper portion of the case to prevent the piston from being separated; A second departure preventing member provided inside the case to prevent the first opening / closing member from being separated; A third release preventing member coupled to an upper portion of the piston to prevent the second opening and closing member from being separated; And a first packing member coupled to a lower portion of the case.

On the other hand, the vacuum container according to the present invention; A lid provided to open and close the main body and having a receiving part in which a third outlet is formed; A sealing member coupled to the third outlet to seal the inside of the main body; And a vacuum pump selectively coupled to the accommodation part to discharge the air inside the main body to the outside, wherein the vacuum pump comprises: a case having a first outlet at a lower film; A piston coupled to the case so as to be movable up and down, and having a second outlet at an upper layer thereof; A first opening / closing member which opens and closes the first outlet port according to the vertical movement of the piston; A second opening / closing member which opens and closes the second discharge port according to the vertical movement of the piston; An elastic member provided between the case and the piston to provide an elastic force to the piston; A first release preventing member coupled to an upper portion of the case to prevent the piston from being separated; A second departure preventing member provided inside the case to prevent the first opening / closing member from being separated; A third release preventing member coupled to an upper portion of the piston to prevent the second opening and closing member from being separated; And a first packing member coupled to the lower portion of the case and coupled to the accommodation portion.

According to the vacuum pump and the vacuum container according to the present invention, the degree of vacuum inside the vacuum container can be increased by discharging the air remaining in the vacuum container to the outside.

1 is a view schematically showing an example of a conventional vacuum container,
2 is an exploded perspective view of a vacuum pump according to an embodiment of the present invention,
3 and 4 are cross-sectional views showing the operation of the vacuum pump according to FIG.
5 is a view showing a state in which the vacuum pump is mounted in a vacuum container according to an embodiment of the present invention,
6 is a view showing another embodiment of the first opening and closing member pressing portion,
7 is an exploded perspective view of a vacuum container equipped with a vacuum pump according to an embodiment of the present invention,
8 is an enlarged view of the sealing member shown in FIG.
9 is a view showing a state in which the vacuum pump is mounted on the bottle according to an embodiment of the present invention,
10 is a view showing a second packing member.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the present invention is not limited to the embodiments described herein but may be embodied in other forms. Rather, the embodiments introduced herein are provided to ensure that the disclosed subject matter is thorough and complete, and that the spirit of the invention will be fully conveyed to those skilled in the art.

Figure 2 is an exploded perspective view of a vacuum pump according to an embodiment of the present invention.

2, the vacuum pump 10 according to an embodiment of the present invention is the case 20, the piston 30, the first opening and closing member 12, the second opening and closing member 14, the sealing member 16 ), The elastic member 17, the first separation preventing member 40, the second departure preventing member 50, the third departure preventing member 60, and the first packing member 70 may be made.

A first outlet 21 is provided below the case 20, and a second outlet 31 is provided above the piston 30.

The piston 30 is coupled to the case 20 so as to be movable, and the elastic member 17 is provided between the case 20 and the piston 30 to provide elastic force to the piston 30.

The first opening and closing member 12 opens and closes the first outlet 21 according to the shanghai movement of the piston 30, and the second opening and closing member 14 is the second outlet opening (according to the shanghai movement of the piston 30). 31) Open and close.

The sealing member 16 is coupled to the outer circumferential surface of the piston 30 to seal the inner space of the piston 30, namely, the pump chamber of the piston 30. However, the sealing member 16 may be omitted.

The first release preventing member 40 is coupled to the upper portion of the case 20 to prevent the piston 30 from being separated from the case 20.

The second departure preventing member 12 is provided inside the case 20 to prevent the first opening and closing member 12 from being separated.

The third release preventing member 60 is coupled to the upper portion of the piston 30 to prevent the second opening and closing member 14 is separated.

The first packing member 70 is coupled to the lower portion of the case 20 to seal the mounting portion when the vacuum pump 10 is mounted in the vacuum container to discharge the air in the vacuum container to the outside.

Hereinafter, the operation of the vacuum pump 10 according to an embodiment of the present invention will be described schematically with reference to FIGS. 3 and 4.

3 and 4 is a cross-sectional view of the coupling of the vacuum pump according to Figure 2, Figure 3 is a view showing the piston lowered state, Figure 4 is a view showing the piston raised state.

As shown in FIG. 3, when the user pushes the piston 30 and the piston 30 descends, the space of the pump chamber 11 formed by the piston 30 and the case 20 is reduced.

At this time, the air present in the pump chamber 11 should be discharged to the outside through the first outlet 21 or the second outlet 31, as shown in Figure 3, in this case the first outlet 21 is the first Since it is blocked by the opening and closing member 12, the air present in the pump chamber 11 is discharged to the outside through the second discharge port (31).

In addition, as shown in Figure 4, if the user does not press the piston 30, the piston 30 is raised again by the elastic force of the elastic member 17, the space of the pump chamber 11 is increased again.

At this time, since the air does not exist in the pump chamber 11, the outside air should be introduced into the pump chamber 11. As shown in FIG. 4, in this case, the second outlet 31 is opened and closed. Since it is blocked by the member 14, outside air flows into the pump chamber 11 through the first outlet 21.

Therefore, if the vacuum pump 10 according to the present invention is mounted in a vacuum container and the mounting portion of the vacuum pump 10 and the vacuum container is sealed by the first packing member 70, as shown in FIG. 4, the piston ( In the case where 30) rises, the air flowing into the pump chamber 11 through the first outlet 21 becomes the air inside the vacuum chamber, so that the air inside the vacuum chamber may be discharged to the pump chamber 11.

When the user presses the piston 30 again, the air inside the vacuum chamber introduced into the pump chamber 11 through the first outlet 21 is discharged to the outside.

Therefore, when the user repeatedly presses the piston 30, all the air inside the vacuum chamber is discharged to the outside through the pump chamber 11, and thus the inside of the vacuum container may be in a high vacuum state.

5 is a view showing a state in which a vacuum pump is mounted in a vacuum container according to an embodiment of the present invention.

As shown in FIG. 5, in the vacuum pump 10 according to the present invention, the first packing member 70 is coupled to a receiving part 124 (see FIG. 7) provided in the cover 120 of the vacuum container 100. Can be mounted.

In addition, by repeatedly pressing the piston 30 in the mounted state, the air present in the main body 110 of the vacuum container 100 is discharged to the outside, thereby making the inside of the main body 110 vacuum.

Hereinafter, the configuration of a vacuum pump according to an embodiment of the present invention will be described in detail with reference to FIGS. 2 to 4.

The case 20 has a form in which the upper side is opened, and the piston 30 has a form in which the lower side is opened. Accordingly, the pump chamber 11 may be formed by inserting the opened lower side of the piston 30 into the opened upper side of the case 20, and the piston 30 is inserted into the case 20. Shanghai dong becomes possible.

A lower layer 22 is formed below the case 20, a first discharge port 21 is provided on the lower layer 22, and an upper layer 32 is formed on the piston 30. The second outlet 31 may be provided in the membrane 32.

A case protrusion 24 protruding a predetermined length below the lower layer 22 of the case 20 may be formed. In addition, the case 20 may further include an extension 25 extending further a predetermined length corresponding to the length of the case protrusion 24.

The first release preventing member 40 is coupled to the upper portion of the case 20 when the first release preventing member 40 is coupled to the upper portion of the case 20 while being inserted into the opened upper side of the case 20. A locking protrusion 36 is formed to protrude outwardly so that the locking protrusion 36 is formed. A coupling groove 37 to which the sealing member 16 is coupled may be formed in the locking protrusion 36.

On the other hand, the first opening and closing member 12 is the length portion 121 is inserted into the first outlet 21, and the first outlet 21 when the length portion 121 is inserted into the first outlet (21) It may include a wing portion 122 covering the.

Here, the length portion 121 is to be aligned to the position where the first opening and closing member 12 opens and closes the first outlet 21, the size of the cross section of the length portion 121 is the first outlet 21 It is formed smaller than the size. This is to allow the air flowing into the pump chamber 11 through the first outlet 21 to be smoothly introduced without being disturbed by the length 121. The area of the wing 122 may be changed in various ways depending on the design.

Similarly, the second opening and closing member 14 has a length 141 inserted into the second outlet 31 and a second outlet 31 when the length 141 is inserted into the second outlet 31. It may include a wing portion 142 covering the.

Here, the length part 141 is to be aligned to the position where the second opening and closing member 14 opens and closes the second outlet 31, the size of the cross section of the length portion 141 is the second outlet 31 It is preferably formed smaller than the size of). This is for the air discharged to the outside through the second discharge port 31 is smoothly discharged without being disturbed by the length portion 141.

The wings 122 and 142 may be formed to have a downward slope toward the outside. This is to allow the first and second opening and closing members 12 and 14 to smoothly open and close the first and second outlets 21 and 31 according to the shanghai movement of the piston 30, respectively.

In detail, since the first outlet 21 is provided in the lower part of the case 20, and the second outlet 31 is provided in the upper part of the piston 30, when the piston 30 descends, the pump chamber ( 11) in order for the air in the outside to be discharged from the top toward the first discharge port 21, from the bottom toward the second discharge port 31. At this time, the first outlet 21 is blocked by the wing portion 122 of the first opening and closing member 12 by the flow of air as described above, the second outlet 31 of the second opening and closing member 14 It is not blocked by the wing 142. Therefore, when the piston 30 descends, the air in the pump chamber 11 is discharged to the outside only through the second discharge port 31.

On the contrary, when the piston 30 rises, in order for the external air to flow into the pump chamber 11, the piston 30 faces the first outlet 21 from the bottom and the second outlet 31 from the top. At this time, the first outlet 21 is not blocked by the wing portion 122 of the first opening and closing member 12 by the flow of air as described above, the second outlet 31 is the second opening and closing member 14 It is blocked by the wing 142 of. Therefore, when the piston 30 rises, external air flows into the pump chamber 11 only through the first discharge port 21.

Therefore, when the wing portions 122 and 142 have downward inclination toward the outside, the action of the wing portions 122 and 142 as described above may be more smoothly performed.

On the other hand, the second departure preventing member 50 is provided on the upper portion of the first opening and closing member 12 to prevent the first opening and closing member 12 is separated from the first outlet 21.

To this end, a support part 23 supporting the second departure preventing member 50 is provided in the case 20, and the support part 23 has a lower layer 22 in a form surrounding the first outlet 21. ) May be protruded upwards, and the locking jaw 51 caught by the supporter 23 may protrude outward from an outer circumferential surface of the second separation preventing member 50. In addition, an end of the elastic member 17 may be supported on the upper surface of the locking step 51.

Accordingly, the second release preventing member 50 has a lower surface of the locking jaw 51 supported by the support 23, and an upper surface of the second release preventing member 50 is supported by the elastic force of the elastic member 17. It can be firmly located in.

The second release preventing member 50 has a hollow hole 52 in the center thereof, an extension 53 extending a predetermined length below the locking jaw 51, and a predetermined length extending above the locking jaw 51. Protrusions 54 may be formed.

The hollow hole 52 (see FIG. 2) is for allowing the air introduced through the first discharge port 21 to smoothly flow into the pump chamber 11, and the protrusion 54 has an elastic member 17 inserted therein. As to be supported by the locking jaw 51, an air flow path groove 55 may be formed in the protrusion 54.

A second departure preventing part 56 may be provided at the end of the extension part 52 such that the first opening / closing member 12 is not separated into the pump chamber 11 through the hollow hole 52.

The length of the extension part 52 is the support part 23 so that the distance between the end of the extension part 52 and the first opening / closing member 12 is maintained at a predetermined distance when the locking jaw 51 is supported by the support part 23. It is preferably formed smaller than the height of. This is because when the extension part 52 compresses the first opening / closing member 12, the first opening / closing member 12 may not open or close the first outlet 21 smoothly.

On the other hand, the third release preventing member 60 is coupled to the upper portion of the piston 30 to prevent the second opening and closing member 14 is separated from the second outlet (31).

A coupling protrusion 63 is formed at a predetermined position of the third release preventing member 60, and a coupling protrusion groove 34 corresponding to the coupling protrusion 63 is formed at the upper layer 32 of the piston 30. Can be.

In the upper membrane 32 of the piston 30, a length 141 is inserted into the second discharge port 31 provided on the bottom thereof, and a seating groove 33 is formed in which the second opening / closing member 14 is seated. The third release preventing member 60 may be formed to protrude downward to be inserted into the seating recess 33.

Therefore, the second opening and closing member 14 has a length 141 is inserted into the second outlet 31 is seated in the seating groove 33, the third release preventing member 60 is coupled to the upper portion of the piston 30 In this case, the third departure preventing part 61 is prevented from being separated from the second outlet 31.

The length of the third departure prevention part 61 is the end of the third departure prevention part 61 and the second opening and closing member 14 when the third departure prevention member 60 is coupled to the upper portion of the piston 30. It is preferable that the spacing is formed smaller than the depth of the seating groove 33 so as to maintain a predetermined distance. This is because when the third release preventing part 61 compresses the second opening / closing member 14, the second opening / closing member 14 may not open or close the second outlet 31 smoothly.

An air flow path groove 35 may be formed at an upper portion of the piston 30, and an air flow path groove 62 may be formed at the third separation prevention portion 61. Then, the air introduced into the seating groove 33 through the second outlet 31 may be smoothly discharged to the outside through the air flow path grooves 35 and 62.

On the other hand, the vacuum pump 10 according to an embodiment of the present invention is fixed to the piston 30 is lowered by being caught by the first release preventing member 40 when the piston 30 rotates a predetermined angle in the state in which the piston 30 is lowered. It may be made by further comprising a fixing portion to be.

In detail, the fixing part is a guide protrusion 38 formed in the longitudinal direction on the outer circumferential surface of the piston 30 and a guide groove 41 formed on the inner circumferential surface of the first release preventing member 40 to correspond to the guide protrusion 38. It can be made, including). Here, the length of the guide protrusion 38 may be formed shorter than the length of the piston 30, that is, from the lower end of the piston 30 to a predetermined portion of the upper end.

Therefore, when the piston 30 descends, the guide protrusion 38 slides along the guide groove 41, and when the piston 30 descends to the end, the upper end of the guide protrusion 38 is below the guide groove 41. Since the piston 30 is rotated in the state, the guide protrusion 38 is caught by the first release preventing part 40, so that the piston 30 may be fixed.

On the other hand, the vacuum pump 10 according to an embodiment of the present invention, when the piston 30 is lowered, the first opening and closing member pressurizing portion for pressing the first opening and closing member 12 to compress the first outlet 21 It can be made to include more.

In detail, the first opening / closing member pressurizing portion extends downwardly from the upper film 32 of the piston 30, and the pressurizing protrusion 39 and the piston 30 are provided with a second outlet 31 at the center thereof. When descending, it may include a pressing member 80 that is pressed by the pressure protrusion 39 to compress the first opening and closing member 12.

Therefore, the first outlet 21 can be more firmly blocked by the first opening and closing member 12 when the piston 30 is lowered.

The first opening and closing member pressing portion may be provided to compress the first outlet 21 by pressing the first opening and closing member 12 when the piston 30 is lowered until it can be fixed in the lowered state. This may be achieved by appropriately adjusting the length of the pressure protrusion 39 and the pressing member 80.

Although the first opening / closing member pressurizing portion may be provided to press the first opening / closing member 12 to press the first outlet 21 even while the piston 30 is lowered, in this case, the pressing member 80 is frequently used. Since the opening and closing member 12 is compressed, the first opening and closing member 12 may be damaged, which is undesirable.

On the other hand, the pressing member 80 is inserted into the hollow hole 52 of the second separation preventing member 50 may be mounted to the case 20 so as to be movable shanghai, in this case the hollow hole 81 in the center It is formed, the lower portion may be formed in the pressing member air flow path 82 in the longitudinal direction. This is to allow the air introduced into the first inlet 21 to flow smoothly into the pump chamber 11.

An inclined portion 83 having an upward inclination toward the inner side of the pressing member 80 may be formed to correspond to the wing portion 122 of the first opening / closing member 12.

Then, when the crimping member 80 compresses the wing 122 of the first opening / closing member 12, not only can the damage of the wing 122 be prevented, but also the wing 122 can be more effectively It can be crimped.

6 is a view showing another embodiment of the first opening and closing member pressing unit according to the present invention.

Referring to FIG. 6, when the first opening / closing member pressurizing unit according to the present embodiment lowers the piston 30 and rotates the first release preventing member 40 to be engaged with the first release preventing member 40, the pressing member 80 is rotated. It may further comprise a cam portion for moving down a predetermined distance.

In detail, the cam portion may include a first cam portion 391 formed at the lower end of the pressurizing protrusion 39 and a second cam portion 84 formed at the upper end of the pressing member 80 to correspond to the first cam portion 391. It can be made, including.

Therefore, according to the present embodiment, when the piston 30 is lowered and rotated by a predetermined angle so as to be locked to the first release preventing part 40 so as to be fixed, the pressure protrusion part 30 further presses the crimping member 80. By pressing, the first opening / closing member 12 may be further compressed by the pressing member 80, and thus the first outlet 21 may be further sealed.

On the other hand, although not shown in the drawings, the first opening and closing member pressing portion according to the present invention is not made of the pressing projection portion 39 and the pressing member 80 as in the above embodiment, the lower film 22 of the case 20 It may be provided between the second separation preventing member 50 and the elastic member for pressing the first opening and closing member 12 when the piston 30 is lowered.

7 is a perspective view showing a vacuum container according to an embodiment of the present invention, Figure 8 is an enlarged view of the sealing member 130 shown in FIG.

7 and 8, the vacuum container 100 according to an embodiment of the present invention is sealed to seal the body 110, the cover 120, the third outlet 122 formed in the cover 120 The member 130 may be configured to include a vacuum pump 10 that is selectively mounted to the receiving portion 124 provided in the cover 120 to discharge the air inside the main body 110 to the outside.

Here, the configuration of the vacuum pump 100 is substantially the same as the configuration of the vacuum pump 10 as described above.

An edge portion of the receiving portion 124 may be provided with a coupling groove 126 in which the first packing member 70 of the vacuum pump 10 is mounted. Then, the inside of the receiving part 124 may be sealed, so that the pumping by the vacuum pump 10 can be made more effectively.

The sealing member 130 is provided between the engaging portion 132 is inserted into the third outlet 122, the handle portion 136 protruding upward, and between the handle portion 136 and the locking portion 132. And may include a wing part 134 covering the third outlet 122.

Therefore, when the user presses the handle 136, the wing 134 is in close contact with the bottom of the receiving portion 124 to seal the third outlet 122, the user pulls the handle 136, the wing ( Close contact between the 134 and the receiving part 124 is released, and the third outlet 122 is opened.

Hereinafter, the operation of discharging the air inside the vacuum vessel 100 by the vacuum pump 10 of the present invention to the outside will be described.

First, the user presses the handle part 136 so that the wing part 134 comes into close contact with the bottom of the receiving part 124. Then, the inside of the vacuum container 100 is sealed with the outside. Then, the first packing member 70 of the vacuum pump 10 is mounted in the coupling groove 126 and pumped.

When the piston 30 is repeatedly pressed, the case protrusion 24 pushes the center portion of the sealing member 130, thereby effectively fluttering the wing 134 of the sealing member 130. However, the case protrusion 24 may not press the center portion of the sealing member 130.

When the piston 30 is repeatedly pressed, the wing part 134 flaps due to the pressure difference, and the air remaining in the vacuum container 100 is contained in the accommodation part 124, the first outlet 21, and the second outlet. Exit 31 through 31. That is, when the piston 30 rises, the pressure in the pump chamber 11 is lowered so that the air in the accommodating part 124 flows into the pump chamber 11 through the first discharge port 21. Then, the pressure of the receiving portion 124 is lowered so that the air inside the vacuum vessel 100 pushes the wing 134 and is present in the receiving portion 124.

The thickness t of the wing 134 may be 1.3 mm to 1.8 mm. When the thickness t of the wing portion 134 is smaller than 1.3 mm, the sealing member 130 has a weak force for pressing the bottom of the receiving portion 124 to maintain the vacuum state inside the vacuum container 100 for a long time. If the thickness t is greater than 1.8 mm, the wing 134 may not be effectively fluttered by the pumping of the vacuum pump 10.

That is, when the pumping of the vacuum pump 10, the wing portion 134 and the receiving portion 124 should be released in close contact with the air in the body 110 can be more smoothly introduced into the receiving portion 124, the experiment of the present inventors According to the present invention, when the thickness t of the wing portion 134 is 1.3 mm to 1.8 mm, the wing portion 134 is fluttered more effectively by the pumping of the vacuum pump 10, so that the air in the main body 110 It can be seen that the flow into the receiving portion 124 more smoothly. In addition, when the thickness t of the wing 134 is 1.3 mm or more, the sealing member 130 may sufficiently press the bottom of the receiving portion 124 to maintain the vacuum state inside the vacuum container 100 for a long time.

In this way, if all the air remaining in the vacuum container 100 is taken out, the interior of the vacuum container 100 maintains a high vacuum state, and thus can effectively prevent food corruption.

In addition, an air flow path groove 138 may be formed between the wing portion 134 and the locking portion 132 so that air in the main body 110 flows into the receiving portion 124 more smoothly. The size of the air flow path groove 138 may be appropriately changed depending on the size of the sealing member 130 or the thickness t of the wing portion 134.

The vacuum pump 10 according to the present invention is mounted on the vacuum container 100 to make the inside of the vacuum container 100 in a vacuum state, and repeatedly presses the piston 30 to high vacuum state inside the vacuum container 100. After it is made, the piston 30 can be stored in a reduced state by fixing the lowered state.

As described above, although the vacuum pump 10 according to the present invention may be provided to be used only for the purpose of discharging the air in the vacuum container 100 to the outside, the air existing in the bottle 200 is discharged to the outside. It may be provided so that it can be used also for the purpose.

Hereinafter, another embodiment of a vacuum pump capable of discharging not only the vacuum container but also air inside the bottle to the outside will be described in detail. In this embodiment, since it is basically the same as the structure of the vacuum pump in the said embodiment, the description and the code | symbol about the same structure use the description and the code | symbol in the said embodiment.

9 is a view showing a state in which the vacuum pump is mounted on the bottle according to an embodiment of the present invention, Figure 10 is a view showing a second packing member.

2 to 4, 9 and 10, the vacuum pump 10 according to the present exemplary embodiment further includes a case protrusion 24 protruding a predetermined length below the lower layer 22 of the case 20. can do. The first outlet 21 extends in a central portion of the case protrusion 24. In addition, the third discharge port 91 coupled to the case protrusion part 24 and connected to the first discharge port 21 may further include a second packing member 90. In this case, the first packing member 70 may be used omitted. In addition, the case 20 may further include an extension 25 extending further a predetermined length corresponding to the length of the case protrusion 24.

That is, in the vacuum pump 10 according to the present invention, the length of the case 20 may be formed only up to the lower layer 22, but the extension part 25 may be further formed to correspond to the length of the case protrusion part 24. have. However, the extension part 25 may extend by the length of the case protrusion part 24 and may be shorter or longer than that.

On the other hand, the second packing member 90 is inserted into the spout of the bottle 200 to seal the inside of the bottle 200, the sealing portion 92 is provided with a third outlet 91 in the center, and the case protrusion 24 It may be made to include a coupling groove 93 coupled to the interference fit).

Therefore, in order to use the vacuum pump 10 according to the present invention in the bottle 200, the coupling groove 93 of the second packing member 90 may be coupled to the case protrusion 24 by interference fit. Then, the inside of the bottle 200 can be closed by the sealing part 92 and at the same time can communicate with the first outlet 21 through the third outlet 91, so that the bottle is repeatedly pressed by the piston 30 Air inside the 200 may be discharged to the outside.

An air flow path groove 26 may be formed at a lower end of the case protrusion 24 so that air inside the bottle 200 may be smoothly introduced into the first outlet 21 through the third outlet 91.

The vacuum pump 10 according to the present embodiment can be used very usefully for wine bottles.

In general, the wine bottle left the wine bottle is sealed with a bottle cap such as packing to keep the inside sealed, even in this case there is a risk that the taste and aroma of the wine because the air is present inside the wine bottle. This is because if the air inside the wine bottle is discharged to the outside by using the vacuum pump 10 according to the embodiment to make the vacuum state and then the inside of the wine bottle is sealed, the taste and aroma of the wine can be maintained.

On the other hand, the vacuum pump 10 according to the present invention may further comprise a fixing portion for fixing the piston 30 in the lowered state, in which case the vacuum pump 10 according to the present embodiment functions as a bottle cap Can also be performed.

That is, the second packing member 90 of the vacuum pump 10 according to the present embodiment is coupled to the bottle 200 and by repeatedly pressing the piston 30 all the air present in the bottle 200 to the outside After discharging to make the inside of the bottle 200 in a vacuum state, by rotating so as to be locked to the first separation preventing member 40 in a state in which the piston 30 is lowered, thereby fixing the vacuum pump 10 according to the present embodiment Can be used for bottle caps.

In addition, the vacuum pump 10 according to the present invention pressurizes the first opening and closing member pressurizing portion for pressing the first opening and closing member 12 to press the first outlet 21 when the piston 30 is fixed in the lowered state. It may be further included, in this case, the bottle 200 can be further sealed inside to maintain a vacuum for a long time.

10: vacuum pump 12: first opening and closing member
14 second opening and closing member 16 sealing member
17: elastic member 20: case
30: piston 40: first release preventing member
50: second departure preventing member 60: third departure preventing member
70: first packing member 80: pressing member
90: second packing member 100: vacuum container
200: bottle

Claims (16)

A case having a first outlet at the lower layer;
A piston coupled to the case so as to be movable up and down, and having a second outlet at an upper layer thereof;
A first opening / closing member which opens and closes the first outlet port according to the vertical movement of the piston;
A second opening / closing member which opens and closes the second discharge port according to the vertical movement of the piston;
An elastic member provided between the case and the piston to provide an elastic force to the piston;
A first release preventing member coupled to an upper portion of the case to prevent the piston from being separated;
A second departure preventing member provided inside the case to prevent the first opening / closing member from being separated;
A third release preventing member coupled to an upper portion of the piston to prevent the second opening and closing member from being separated;
And a first packing member coupled to a lower portion of the case. The method of claim 1,
The first opening and closing member and the second opening and closing member has a length portion inserted into the first outlet and the second outlet, respectively, and the first outlet and the second outlet when the length is inserted into the first outlet and the second outlet Vacuum pump comprising a wing covering the outlet. The method of claim 2,
The vane vacuum pump, characterized in that it has a downward slope toward the outside. The method of claim 1,
The case may include a support part protruding upward from the lower layer to support the second release preventing member, and a locking jaw caught by the support part may protrude outward from an outer circumferential surface of the second release preventing member. Vacuum pump. The method of claim 1,
The upper membrane of the piston is provided with a seating groove in which the second opening and closing member is seated, and the third release preventing member is formed with a third release preventing portion protruding downwards and inserted into the seating groove Pump. The method of claim 1,
When the piston is rotated by a predetermined angle in the lowered state is a vacuum pump characterized in that it further comprises a fixing portion to be locked to the first release preventing member is fixed in the lowered state. The method according to claim 6,
And a first opening / closing member pressurizing portion configured to pressurize the first opening / closing member and press the first opening / closing member when the piston is fixed in a lowered state. The method of claim 7, wherein
The first opening and closing member pressing portion,
A predetermined length extending downwardly from the upper membrane of the piston and having a second discharge port at a central portion thereof;
And a pressurizing member pressurized by the pressurizing protrusion to press the first opening / closing member when the piston is fixed in a lowered state. The method of claim 8,
The lower end of the pressure projection and the upper end of the pressing member, the vacuum pump, characterized in that the cam portion corresponding to each other is formed. The method of claim 1,
And an elastic member provided between the lower membrane of the case and the second release preventing member to press the second opening and closing member when the piston descends. The method of claim 1,
A predetermined length protrudes downwardly from the lower layer of the case, and further includes a case protrusion having a first outlet at the center thereof.
The first packing member is coupled to the case protrusion, the vacuum pump, characterized in that the third outlet is connected to the first outlet. main body;
A lid provided to open and close the main body and having a receiving part in which a third discharge port is formed;
A sealing member coupled to the third outlet to seal the inside of the main body; And
And a vacuum pump selectively coupled to the accommodation part to discharge the air inside the main body to the outside.
The vacuum pump,
A case having a first outlet at the lower layer;
A piston coupled to the case so as to be movable up and down, and having a second outlet at an upper layer thereof;
A first opening / closing member which opens and closes the first outlet port according to the vertical movement of the piston;
A second opening / closing member which opens and closes the second discharge port according to the vertical movement of the piston;
An elastic member provided between the case and the piston to provide an elastic force to the piston;
A first release preventing member coupled to an upper portion of the case to prevent the piston from being separated;
A second departure preventing member provided inside the case to prevent the first opening / closing member from being separated;
A third release preventing member coupled to an upper portion of the piston to prevent the second opening and closing member from being separated;
And a first packing member coupled to a lower portion of the case and coupled to the accommodation portion. The method of claim 12,
The edge portion of the receiving portion is a vacuum container, characterized in that the coupling groove for mounting the first packing member is provided. The method of claim 12,
The sealing member includes a handle portion protruding upward, a catching portion inserted into the third outlet, and a wing portion provided between the handle portion and the catching portion to cover the third outlet,
The thickness of the wing portion is a vacuum vessel, characterized in that 1.3mm to 1.8mm. The method of claim 14,
A vacuum container, characterized in that an air flow path is provided between the wing and the engaging portion. The method of claim 12,
A case protrusion protruding downward from the lower layer of the case and having a first discharge port formed at a central portion thereof;
The case is a vacuum container, characterized in that the predetermined length is further extended to correspond to the length of the case protrusion.

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