JP6418370B2 - Quantitative polar - Google Patents

Description

  The present invention relates to a quantitative polar.

  As a tool for measuring and pouring a fixed amount of liquid, a fixed amount polarizer attached to the mouth of a container containing liquid is used. The metering polar has a ball that is a valve element inside the cylindrical liquid passage. When the liquid is poured into the cup while tilting the container containing the liquid, the poured liquid reaches a predetermined amount. Then, a structure is used in which the liquid passage is closed by the balls (see Patent Documents 1 and 2).

US Pat. No. 5,961,008 US Pat. No. 8,251,262

  In the conventional quantitative polar as described above, when the liquid is poured and the passage for the liquid is blocked by the ball, the liquid is caused by the surface tension of the liquid between the base of the spout and the opening of the tip of the spout. There was a problem that remained. If the liquid remains in the spout in this way, there is a problem that the amount of liquid actually poured becomes less than a predetermined amount, and if left in a state where the liquid remains, also in terms of hygiene It becomes a problem.

  Accordingly, an object of the present invention is to provide a quantitative polar body in which no liquid remains in the inside of the spout in order to solve the above problems.

  The metering polar of the present invention is a metering polar for attaching a fixed amount of liquid in the container attached to the mouth of the container, the main body, a valve connected to the rear end of the main body, and the container The main body has a pouring spout for pouring liquid from an opening at the tip, a liquid passage tube that connects the pouring spout and the valve and serves as a liquid passage, and one end of the packing. A vent pipe connected to the outside of the container and serving as an air passage, a collar portion located at a connection point between the spout and the liquid passage pipe, and having a surface in close contact with the packing, and moving in the liquid passage pipe And a first valve body disposed so as to close the liquid passage pipe by contacting a first valve seat provided in the liquid passage pipe, and the valve includes a connection portion with the main body, the liquid Between the passage tube and the inside of the container. A first passage serving as a liquid passage; a second passage serving as an air passage connecting the other end of the vent pipe and the interior of the container; and a first passage that moves in the first passage. A second valve body disposed so as to close the first passage by contacting a second valve seat provided therein, and for the air through which air passes in addition to the opening at the tip, at the spout An opening is provided.

  And the said opening for air is made into the slit shape connected from the opening of the at least 1 air hole provided in the side surface of the said spout, or the front end of the said spout.

  The valve further includes a third valve body that moves in the second passage and closes the second passage by contacting a third valve seat provided at the other end of the vent pipe.

  A protective convex portion is provided around the opening of the vent pipe in the collar portion of the main body.

  The packing is in close contact with a cylindrical main body covering the outer peripheral surface of the main body with a predetermined space, an annular rib formed on the outer peripheral surface of the cylindrical main body, and a flange portion of the main body. It has a surface, and is composed of a bowl-shaped connecting portion provided at the tip of the cylindrical main body, and the annular rib is in close contact with the inner surface of the mouth of the container.

  The cover further includes a cover that covers the mouth of the container, and the cover includes a substantially cylindrical cover portion that covers the mouth of the container, and the main body and the packing are attached to an opening on a distal end side of the cover portion. To be formed.

  The metering polar of the present invention is a metering polar for attaching a fixed amount of liquid in the container attached to the mouth of the container, the main body, a valve connected to the rear end of the main body, and the container The main body has a pouring spout for pouring liquid from an opening at the tip, a liquid passage tube that connects the pouring spout and the valve and serves as a liquid passage, and one end of the packing. A vent pipe connected to the outside of the container and serving as an air passage, a collar portion located at a connection point between the spout and the liquid passage pipe, and having a surface in close contact with the packing, and moving in the liquid passage pipe And a first valve body disposed so as to close the liquid passage pipe by contacting a first valve seat provided in the liquid passage pipe, and the valve includes a connection portion with the main body, the liquid Between the passage tube and the inside of the container. A first passage serving as a liquid passage; a second passage serving as an air passage connecting the other end of the vent pipe and the interior of the container; and a first passage that moves in the first passage. A second valve body disposed so as to close the first passage by contacting a second valve seat provided therein, and for the air through which air passes in addition to the opening at the tip, at the spout By providing an opening, it is possible to prevent the liquid from remaining in the spout after a certain amount of liquid has been poured, thereby allowing a more precise amount of liquid to be poured. It becomes possible to keep the mouth clean.

  By providing a protective convex part around the opening of the vent pipe on the collar part of the main body, it is possible to prevent the vent pipe from being blocked with a finger during the operation of pouring the liquid and to pour the liquid more smoothly. Is possible.

It is a perspective view of the fixed amount polar of a 1st embodiment of the present invention. It is sectional drawing of the fixed quantity polar state of the state attached to the container. (A) is a side view of a main body, (b) is a front view of a main body. It is a perspective view of packing. (A) is a front view of a cover, (b) is a rear view of a cover. It is a perspective view of the fixed-quantity polar of the state which has poured the liquid. It is a perspective view of the fixed amount polar of a 2nd embodiment of the present invention.

  The quantitative polar 1, 1 'of the present invention will be described below in detail with reference to the drawings. FIG. 1 is a perspective view of a metering polar 1 according to the first embodiment of the present invention, and FIG. 7 is a perspective view of a metering polar 1 'according to a second embodiment.

  As shown in FIGS. 1, 2, and 6, the quantitative polarizer 1 according to the first embodiment of the present invention is used to bring the quantitative polarizer 1 into close contact with a main body 2, a valve 3 connected to the main body 2, and a container 50. The packing 4 and the cover 2 are fixed to the main body 2 and the packing 4 and cover the mouth 51 of the container 50, and a predetermined amount of liquid in the container 50 is poured. The amount poured at a time can be changed as appropriate, but when it is intended to pour whiskey or the like, it is generally 30 ml.

  The main body 2 has a shape in which a cylinder is bent, and a pouring spout 6 into which liquid is poured from the opening at the tip of the bent cylinder, and the pouring spout 6 and the valve 3 to send the liquid to the spout 6. A cylindrical liquid passage tube 7 serving as a liquid passage, and formed in parallel with the liquid passage tube 7, one end of which is connected to the outside of the container 50 and serves as an air passage, and is also a cylindrical ventilation tube 8 The disc-shaped flange 9 having a surface in close contact with the packing 4 and located in the connecting portion between the pouring spout 6 and the liquid passage tube 7 and the liquid passage tube 7 are movably disposed. It comprises a spherical first valve body 10.

  The liquid passage pipe 7 has a first valve seat 11 which is an inclined surface so that an inner diameter thereof becomes smaller toward the spout 6 at a connection portion with the spout 6. On the opposite side, a connecting pipe portion 13 having an inner diameter increased by a step is formed. The inner diameter of the liquid passage tube 7 is set such that the first valve body 10 can move, and the gap between the inner surface of the liquid passage tube 7 and the first valve body 10 is reduced. When the first valve body 10 contacts the first valve seat 11 in the liquid passage pipe 7, the liquid passage pipe 7 is closed and the movement of the liquid to the spout 6 is stopped.

  The shape of the first valve body 10 is not limited to a spherical shape, and may be a shape other than a spherical shape as long as it can move in the liquid passage tube 7. Further, the shape of the first valve seat 11 is not limited to an inclined surface, and the liquid passage pipe 7 is closed when the first valve body 10 comes into contact with the first valve body 10 so that the passage of the liquid can be prevented. It may be sufficient and can be changed according to the shape of the first valve body 10. Further, the position at which the liquid passage pipe 7 is closed by the first valve body 10 and the first valve seat 11 is not limited, and can be set as appropriate in the liquid passage pipe 7.

  As shown in FIG. 2, two liquid passage openings 12 are formed on the side surface of the liquid passage tube 7 near the pouring spout 6 so as to face each other, and from the liquid passage opening 12, The liquid in the container 50 flows into the liquid passage pipe 7. The vent pipe 8 is provided at the other end connected to the valve 3 side with a third valve seat 14 that is inclined so that the inner diameter increases toward the valve 3.

  The spout 6 is provided with an air opening in addition to the opening at the tip. In the present embodiment, a circular air hole 15 is provided on the side surface near the base of the spout 6 as shown in FIGS. The number, shape, size, and position of the air holes 15 are not particularly limited, and can be changed as appropriate.

  An annular rib 16 for fixing the packing 4 is provided on the outer peripheral surface of the main body 2 as shown in FIG. Further, as shown in FIG. 3, two engagement protrusions 17 for detachably fixing the valve 3 are provided on the outer peripheral surface of the liquid passage tube 7 of the main body 2 at positions facing each other. .

  As shown in FIG. 3, a protective convex portion 18 is formed on the front surface of the flange portion 9 at a position adjacent to the opening of the vent pipe 8 so as to protrude forward, and the protective convex portion. 18 is disposed at a position above the opening of the vent pipe 8 as shown in FIG. 3B when the fixed amount polar 1 is moved so that the vent pipe 8 is horizontal. When the liquid is poured using the metering polar 1, the protective projection 18 prevents the finger of the hand holding the metering polar 1 from blocking the air flow in the vent tube 8 by closing the opening of the vent tube 8. It is provided for the purpose of preventing.

  The valve 3 includes a connection portion 19 to the main body 2, a first passage 20 that connects the liquid passage pipe 7 and the inside of the container 50 to serve as a liquid passage, the other end of the vent pipe 8, and the container 50. A second passage 21 serving as an air passage, a spherical second valve body 22 movably arranged in the first passage 20, and a movement in the second passage 21. It is comprised from the spherical 3rd valve body 23 made. The inner diameter of the first passage 20 is not constant but is partially changed, and the second valve body 22 moves in a partial section of the first passage 20. Similarly, the inner diameter of the second passage 21 is not constant but is partially changed, and the third valve body 23 moves in a partial section of the second passage 21.

  The connecting portion 19 includes an outer cylindrical body 24 that contacts the outer peripheral surface of the liquid passage tube 7 of the main body 2 from the outside, and an inner cylindrical body 25 that contacts the inner peripheral surface of the liquid passage tube 7 of the main body 2 from the inner side. The end of the first passage 20 is located inside the inner cylindrical body 25. The inner cylindrical body 25 is formed shorter than the outer cylindrical body 24, and the engaging projection 17 of the main body 2 is inserted into the side surface of the outer cylindrical body 24 as shown in FIG. Two engaging openings 26 to be joined are formed at positions corresponding to the engaging protrusions 17 of the main body 2, and the valve 3 and the main body 2 are engaged by the engagement of the engaging protrusions 17 and the engaging openings 26. Are detachably fixed to each other, the liquid passage pipe 7 and the first passage 20 are connected, and the vent pipe 8 and the second passage 21 are connected.

  An end portion of the first passage 20 protrudes into the inner cylindrical body 25 to form a first holding portion 27, and the inner diameter of the first holding portion 27 is large enough to hold the first valve body 10. The size and shape. Here, the first holding portion 27 has a rectangular cylindrical shape, but may have another shape as long as the first valve body 10 can be held. The first valve body 10 moves between the first valve seat 11 of the liquid passage pipe 7 and the first holding portion 27. A gap is formed between the outer peripheral surface of the first holding part 27 and the inner peripheral surface of the inner cylindrical body 25.

  The first passage 20 is formed with a second valve seat 28 that is an inclined surface that is inclined so that the inner diameter decreases toward the first holding portion 27, and differs depending on the second valve seat 28. It is divided into locations having two inner diameters. In the first passage 20, with the second valve seat 28 as a boundary, the holding portion 27 side has an inner diameter smaller than the inner side of the container 50, and the second valve body 22 can move to the larger inner diameter. Is arranged. When the second valve body 22 contacts the second valve seat 28 in the first passage 20, the first passage 20 is closed and the movement of the liquid to the liquid passage pipe 7 is stopped. The shape of the second valve body 22 can be other than a spherical shape like the first valve body 10, and the shape of the second valve seat 28 is also other than an inclined surface, similar to the first valve seat 11. It is sufficient that the first passage 20 can be closed when the second valve body 22 is in contact with the second valve seat 28, and the position where the second valve body 22 is closed can be changed as appropriate.

  A protrusion for holding the second valve body 22 on the inner peripheral surface of the first passage 20 having the larger inner diameter so that the second valve body 22 does not come out of the first passage 20. Three second holding portions 29 having a shape are formed at equal intervals in the circumferential direction, and the second valve body 22 includes the second valve seat 28 and the second holding portion inside the first passage 20. 29 can be moved. Further, two openings 30 are formed on the side surfaces of the first passage 20 at positions facing each other. The opening 30 is an opening through which liquid and air pass, so that the second valve body 22 can move smoothly, and when the liquid has been poured and the container 50 is upright, The liquid remaining in the liquid passage tube 7 can be smoothly returned to the container 50.

  The second passage 21 has a step 31 formed in the middle, and is divided into locations having two different inner diameters by the step 31. In the second passage 21, the vent pipe 8 side has a larger inner diameter than the inner side of the container 50 with the step 31 as a boundary, and the third valve body toward the step 31 has a larger inner diameter. A third holding part 32 that holds the head 23 is formed. The third valve body 23 is disposed so as to be movable between the third valve seat 14 of the vent pipe 8 and the third holding portion 32 inside the larger inner diameter of the second passage 21. When the third valve body 23 contacts the third valve seat 14 in the second passage 21, the second passage 21 is closed and the air flow from the vent pipe 8 is blocked. The shape of the third valve body 23 can be other than a spherical shape like the first valve body 10, and the shape of the third valve seat 14 is also other than the inclined surface like the first valve seat 11. It is sufficient that the vent pipe 8 can be closed when the third valve body 23 is in contact with the third valve seat 14.

  A hole 43 is formed between the second valve seat 28 and the holding portion 27 on the side surface of the first passage 20 of the valve 3 to connect the first passage 20 and the outside. Depending on the size of the hole 43, the moving speed of the first valve body 10 changes, and the fixed quantity that the fixed quantity polarizer 1 can pour at a time changes. When the hole 43 is made larger, the movement of the first valve body 10 becomes faster, so that the quantification becomes smaller. When the hole 43 is made smaller, the movement of the first valve body 10 becomes slower, and the quantification becomes larger. Thus, by changing the size of the hole 43, it is possible to change the fixed quantity of the fixed quantity polar 1.

  As shown in FIG. 4, the packing 4 includes a cylindrical main body 33 shaped to cover the main body 2 at a predetermined interval from the outer peripheral surface of the main body 2, and an outer peripheral surface of the cylindrical main body 33. The ring-shaped four ribs 34 and the hook-shaped connecting portion 35 connected to the cover 5 are formed of resin. Since there is a space between the inner peripheral surface of the cylindrical main body 33 and the outer peripheral surface of the main body 2, the liquid can pass through the liquid passage opening 12 of the main body 2.

  The annular rib 34 is formed such that the rib 34 located closest to the connecting portion 35 has a larger outer diameter and thickness than the other three ribs 34. When the four ribs 34 are in close contact with the inner surface of the mouth 51 of the container 50, the fixed quantity polarizer 1 is fixed to the container 50 and sealed. The packing 4 is fixed to the main body 2 by the rib 16 of the main body 2 being in close contact with the inner peripheral surface of the cylindrical main body 33, and the inner peripheral surface of the cylindrical main body 33 and the main body 2. A gap having a predetermined interval is formed between the outer peripheral surface of the first and second outer surfaces.

  As shown in FIG. 4, the connecting portion 35 has a plurality of circular arcs 36 formed on the outer periphery of the ridge, and the surface of the connecting portion 35 (on the opposite side to where the cylindrical main body 33 is located). On the other hand, an annular convex portion 37 having a surface inserted into the opening of the cover 5 and in close contact with the flange portion 9 of the main body 2 is formed.

  As shown in FIG. 5, the cover 5 has a substantially cylindrical cover portion 38 that covers the mouth 51 of the container 50, and one end of the substantially cylindrical shape of the cover portion 38 is the same as the inner diameter of the cover portion 38. The opening 51 is inserted through the opening, and the other end is formed with an opening having a smaller inner diameter than the opening at the one end at the center. A joint portion 39 to which the packing 4 is attached is formed.

  The joint portion 39 is used for joining with the main body 2. As shown in FIG. 5 (b), the joint 39 is provided with an unevenness 41 that engages with the unevenness 36 of the packing 4, and the opening of the joint 39 has an annular shape. When the protrusion 37 is inserted and the unevenness 36 of the packing 4 is inserted into the unevenness 41, the packing 4 is brought into close contact with the cover 5. When the liquid passage pipe 7 and the vent pipe 8 of the main body 2 are inserted into the cylindrical main body 33 of the packing 4 and the flange portion 9 and the convex portion 37 are brought into close contact with each other, the main body 2, The packing 4 and the cover 5 are combined. Further, when the valve 3 is attached to the main body 2, the state as shown in FIG. 1 is obtained, and the assembly of the quantitative polar body 1 is completed.

  As described above, the quantitative polar body 1 has the main body 2, the valve 3, the packing 4, and the cover 5 fixed to each other without using an adhesive or the like, and is disassembled and washed. It is possible to clean up every corner even during repeated use.

  The usage method of the fixed quantity polar 1 of this invention is demonstrated. The fixed quantity polarizer 1 is fixed to the mouth 51 of the container 50. At this time, as shown in FIG. 2, the fixed quantity polar body 1 is in a vertically upright state, the first valve body 10 is held by the first holding portion 27, and the second valve body 22 is 2 is held by the holding unit 29, and the third valve body 23 is held by the third holding unit 32.

  From such a state, when the liquid in the container 50 is poured into a cup or the like, the container 50 is tilted. At this time, as shown in FIG. 6, when the axis of the quantitative polarizer 1 is inclined at about 45 degrees obliquely with respect to the horizontal, the amount to be poured becomes more accurate. In this way, when the fixed amount polar 1 is tilted, liquid is poured from the tip of the spout 6, and the second valve body 22 moves in the first passage 20 toward the second valve seat 28, The third valve body 23 moves in the second passage 21 to the third valve seat 14 side, and the first valve body 10 moves in the liquid passage pipe 7 to the first valve seat 11 side. Move to.

  As described above, while the valve bodies 10, 22, and 23 are moving, the liquid in the container 50 passes through the fixed quantity polarizer 1 and is poured from the spout 6 into a cup or the like. The second valve body 22 closes the first passage 20 by contacting the second valve seat 28, the third valve body 23 closes the second passage 21 by contacting the third valve seat 32, Finally, when the first valve body 10 is in contact with the first valve seat 11 to close the liquid passage pipe 7, the flow of the liquid poured by the metering polar 1 is stopped.

  As described above, when the operation of pouring a certain amount of liquid is stopped, in the conventional quantitative polar, the pouring spout 6 through which the liquid has passed is closed by the first valve seat 11, whereby the liquid and air The flow was interrupted, and the liquid did not completely flow out of the spout 6 due to the surface tension of the liquid in the spout 6, and a part of the liquid remained. However, the metering polar 1 of the present invention is provided with the air hole 15 on the side surface of the spout 6, so that air can flow into the spout 6 from the air hole 15. As a result, the surface tension of the liquid in the spout 6 is not affected by the air flowing in from the air holes 15, and the liquid in the spout 6 does not flow out and remain.

  As described above, the fixed quantity polarizer 1 of the present invention can prevent the liquid from remaining in the spout 6 by providing the air hole 15 so that a certain amount of liquid can be poured accurately. Become. Further, it is possible to prevent the inside of the spout 6 from becoming unsanitary due to the residue.

  Next, the fixed amount polar 1 'of the second embodiment will be described. As shown by a broken line in FIG. 7, the fixed amount polar body 1 ′ of the second embodiment has a slit 42 instead of the air hole 15 provided in the spout 6 of the fixed amount polar body 1 of the first embodiment. Is provided.

  As shown in FIG. 7, the fixed amount polar body 1 ′ of the second embodiment includes a main body 2 ′, a valve 3, a packing 4, and a cover 5. The valve 3, the packing 4, and the cover 5 other than the main body 2 ′ are the same as the valve 3, the packing 4, and the cover 5 of the metering polar 1 according to the first embodiment. Therefore, detailed description is omitted.

  The main body 2 ′ uses the same structure as that of the main body 2 of the quantitative polarizer 1 of the first embodiment except for the spout 6 ′, and the spout 6 ′ is indicated by a broken line in FIG. In addition, a slit 42 connected to the opening at the tip is provided to the vicinity of the base of the spout 6 '.

  The width, length, position, number, and shape of the slit 42 are not particularly limited and can be appropriately changed.

  By providing the slit 42 in the spout 6 ', it is possible to reliably prevent the liquid from remaining in the spout 6'.

  The amount of liquid to be poured at one time according to the size of the quantitative polar 1, 1 'of the present invention is 30 ml as an example, but it can be changed, and various liquids can be poured as well as whiskey. It can be used for that purpose.

DESCRIPTION OF SYMBOLS 1,1 'Fixed amount polar 2,2' Main body 3 Valve 4 Packing 5 Cover 6 Spout 7 Liquid passage pipe 8 Ventilation pipe 9 Gutter part 10 1st valve body 11 1st valve seat 12 Liquid passage opening 13 Connection pipe part 14th Three valve seats 15 Air holes 16 Ribs 17 Engaging protrusions 18 Protective protrusions 19 Connections 20 First passages 21 Second passages 22 Second valve bodies 23 Third valve bodies 24 Outer cylindrical bodies 25 Inner cylindrical bodies 26 Engagement openings 27 First holding portion 28 Second valve seat 29 Second holding portion 30 Opening 31 Step 32 Third holding portion 33 Cylindrical body 34 Rib 35 Connection portion 36 Concavity and convexity 37 Convex portion 38 Cover portion 39 Joint portion 41 Concavity and convexity 42 Slit 43 Hole 50 container 51 mouth

Claims (7)

A fixed amount polarizer for attaching a fixed amount of liquid in the container, attached to the mouth of the container,
A main body, a valve connected to a rear end of the main body, and a packing for closely attaching the fixed amount polar to the container;
The main body has a pouring spout for pouring liquid from an opening at the tip, a liquid passage pipe for connecting the pouring spout and the valve and serving as a liquid passage, and a passage for serving as an air passage for one end connected to the outside of the container. A trachea, a collar portion located at a connection point between the spout and the liquid passage tube, having a surface in close contact with the packing, and a first valve provided in the liquid passage tube that moves in the liquid passage tube A first valve body arranged to close the liquid passage pipe by contacting the seat;
The valve is connected to the main body, a first passage that connects the liquid passage pipe and the inside of the container and serves as a liquid passage, connects the other end of the vent pipe and the inside of the container, and A second passage serving as a passage, and a second valve disposed so as to close the first passage by moving in the first passage and contacting a second valve seat provided in the first passage Have a body,
In addition to the opening at the tip, the spout is provided with an air opening through which air passes,
A protective projection is provided at a position above the opening of the vent pipe when the quantitative polar body is moved so that the vent pipe is horizontal in order to pour liquid into the collar portion of the main body. Characteristic quantitative polar.   The quantitative polar according to claim 1, wherein the air opening is at least one air hole provided on a side surface of the spout.   The quantitative polar according to claim 1, wherein the air opening has a slit shape connected to an opening at a tip of the spout.   The valve further includes a third valve body that moves in the second passage and closes the second passage by contacting a third valve seat provided at the other end of the vent pipe. The fixed-quantity polar according to any one of claims 1 to 3.   The quantitative polar according to any one of claims 1 to 4, wherein the protective convex portion has a semicircular shape when viewed from the front and has a curved surface.   The packing is in close contact with a cylindrical main body covering the outer peripheral surface of the main body with a predetermined space, an annular rib formed on the outer peripheral surface of the cylindrical main body, and a flange portion of the main body. 6. The structure according to claim 1, wherein the annular rib is in close contact with an inner surface of the mouth of the container. The fixed amount polar according to any one of the above.   The cover further includes a cover that covers the mouth of the container, and the cover includes a substantially cylindrical cover portion that covers the mouth of the container, and the main body and the packing are attached to an opening on a distal end side of the cover portion. The fixed polar body according to claim 6, wherein a joint portion to be formed is formed.