JP2015146929A - Holder for metal heat insulation cup - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a holder for a cup, which can be more easily used by configuring the holder for a metal heat insulation cup, screwed to the outside of the metal heat insulation cup.SOLUTION: A female screw 13 for being screwed to a male screw 24 provided on the outside of a metal heat insulation cup 12 is internally provided. An upper end 9 abutting on a holder stop part 27 provided in the metal heat insulation cup 12 is provided. A holder 1 for the metal heat insulation cup is held by being engaged with the metal heat insulation cup 12 via the female screw 13 and the upper end 9. Thus, the holder 1 for the metal heat insulation cup and the metal heat insulation cup 12 are robustly screwed together to be capable of improving usability.

Description

  The present invention relates to a metal heat insulating cup holder screwed onto the outside of a metal heat insulating cup.

  For example, as disclosed in Patent Document 1 below, a conventional cup holder is formed integrally with a cylindrical peripheral wall and the peripheral wall, and is formed of a bottom wall that supports the bottom of the cup. It is for storing cups, and is not equipped with a mechanism to hold the cup firmly to the holder. For this reason, when there is a gap between the cup and the holder, there is a problem that the cup becomes loose or the cup is detached from the holder when the holder is overturned with the cup stored. there were.

  On the other hand, Patent Document 2 below discloses that water is put into a gap between a cup and a holder, and the water is frozen by heat of a cold-preserving cup holder to stably hold the cup. However, this method can be used only as a cup holder for cold insulation, and cannot be used as a cup holder for heat insulation. Further, since water is used, the method of use is complicated such that the cup or holder gets wet or the water must be discharged after use. Furthermore, when the holder is turned over in a state where the cup is stored, there is a problem that it is not possible to prevent the cup from coming off the holder.

Japanese Patent Application Laid-Open No. 8-215015 JP 2010-148849 A

  Then, an object of this invention is to provide the holder for metal heat insulation cups which hold | maintain a metal heat insulation cup firmly to a holder, and is easier to use.

  The cup holder according to claim 1 is provided with an internal screw threadedly engaged with a male screw provided on the outside of the metal heat insulating cup, and has an upper end portion that comes into contact with a holder stop portion provided on the metal heat insulating cup. And the metal screw and the upper end portion are engaged and held by the metal heat insulating cup.

  The cup holder according to claim 2 is characterized by having a drain hole in the center of the bottom.

  The cup holder according to claim 3 is characterized in that an elastic member is arranged at the bottom.

  The cup holder according to claim 4 is characterized in that the metal heat insulating cup drinking part and the outer surface are flush with each other when abutting against a holder stop provided on the metal heat insulating cup.

  The cup holder according to claim 5 is characterized in that the male screw is provided on a vertical surface when the metal heat insulating cup is placed.

  The cup holder according to claim 6 is characterized in that a water drainage portion is provided at the upper end portion.

  According to the invention of claim 1, a female screw is provided inside, screwed into a male screw provided on the outside of the metal heat insulating cup, and brought into contact with a holder stop provided on the metal heat insulating cup, The fitting between the metal heat insulating cup and the metal heat insulating cup holder is robust.

  According to the second aspect of the present invention, since the drain hole is provided in the center of the bottom portion, it is difficult for water to collect even if the metal heat insulating cup holder is attached.

  According to invention of Claim 3, the impact at the time of mounting on a table etc. can be relieve | moderated by arrange | positioning the elastic member in the bottom part.

  According to the fourth aspect of the present invention, when the metal heat insulating cup drinking mouth portion and the outer surface are flush with each other when the holder stop portion provided on the metal heat insulating cup is brought into contact with the holder, there is no backlash. The appearance is stable and there is no step and the appearance is good.

  According to the invention of claim 5, since the male screw provided in the metal heat insulating cup is provided on the vertical surface when the cup is placed, the shape of the screw portion is easily obtained and the dimension is stabilized.

  According to the sixth aspect of the present invention, the metal heat insulating cup holder is provided with the water drainage portion at the upper end portion, so that the metal heat insulating cup holder can be washed and dried in an inverted state with the metal heat insulating cup holder attached. And the water accumulated between the metal insulation cups can be discharged.

It is sectional drawing which shows Example 1 of this invention. It is sectional drawing which shows Example 2 of this invention. It is sectional drawing which shows Example 3 of this invention. It is a principal part expanded sectional view same as the above. It is a perspective view and the principal part enlarged view same as the above.

  Preferred embodiments of the present invention will be described with reference to the accompanying drawings. The embodiments described below do not limit the contents of the present invention described in the claims. In addition, all of the configurations described below are not necessarily essential requirements of the present invention.

  FIG. 1 shows a first embodiment of the present invention, and a metal heat insulating cup holder 1 is composed of a bottomed cylindrical main body 2 and a substantially annular gripping portion 3.

  The main body 2 includes an upper opening 4, a cylindrical portion 5 that gradually decreases in diameter toward the lower side, and a circular flat plate-like bottom portion 6, and has a cross-sectionally inverted U-shape.

  The grip portion 3 is connected to the outer surface 7 of the cylindrical portion 5 at two locations, upper and lower, and one upper surface 8 of the grip portion 3 is flush with the upper end portion 9 that is the upper end surface of the cylindrical portion 5. The other of the parts 3 is located slightly below the center of the cylindrical part 5 in the height direction. Further, an upper concave portion 10 and a lower concave portion 11 that are recessed toward the grip portion 3 are formed on the inner surface of the portion of the metal heat insulating cup holder 1 where the grip portion 3 is formed.

  On the inner surface of the cylindrical portion 5, a female screw 13 that is a screwed portion with the metal heat insulating cup 12 is formed. In this embodiment, the female screw 13 is formed at a height of about 2/3 from the bottom 6 of the metal heat insulating cup holder 1, but above the half of the height of the metal heat insulating cup holder 1. If it is provided in. Further, the upper end portion 9 that is the upper end surface of the cylindrical portion 5 is inclined downward toward the inside of the cylindrical portion 5.

  The grip part 3, the cylindrical part 5 and the bottom part 6 are integrally molded with a synthetic resin such as ABS resin, and the cylindrical part 5 and the bottom part 6 are formed to have a substantially constant thickness (about 2 to 3 mm). However, the center of the outer bottom surface of the bottom 6 is concave upward. This makes it possible to stably place the metal heat insulating cup holder 1 even if the bottom portion 6 of the metal heat insulating cup holder 1 expands and deforms downward due to heat.

  The metal heat insulating cup 12 has a double structure in which an outer container 14 and an inner container 15 accommodated in the outer container 14 are joined at respective upper opening portions, and the outer container 14 and the inner container 15 are connected to each other. A vacuum heat insulating layer 16 is formed in the gap. The outer container 14 and the inner container 15 are both formed of stainless steel (for example, SUS304). In addition, the plate | board thickness of the outer container 14 and the inner container 15 is about 0.5 mm.

  The outer container 14 has a bottomed cylindrical shape with an upper part opened to a wide mouth, and is formed of a cylindrical outer cylinder part 17 and a shallow cylindrical outer bottom part 18 joined to the lower part of the outer cylinder part 2. It has a part structure.

  The outer cylinder part 17 has a four-stage structure including a first joint part 19, a drinking mouth part 20, a vertical surface part 21, and an outer cylinder body part 22 from the upper side. The diameter of each step portion is such that the first joint portion 19> the drinking mouth portion 20> the vertical surface portion 21> the outer cylinder body portion 22.

  The 1st junction part 19 is a junction part with the inner container 15, and is formed narrowly. Moreover, the 1st junction part 19 is formed so that a diameter may become the same from upper direction to the downward direction.

  The drinking mouth part 20 is a part that comes into contact with the mouth when the user drinks the beverage in the cup together with the first joint part 19, and has a sufficient width for the mouth to contact. Further, the drinking mouth part 20 is gradually reduced in diameter toward the lower side.

  In addition, the mouth surface 23 which is the outer surface of the mouth portion 20 is formed to be flush with the outer surface 7 in a state where the metal heat insulating cup 12 is screwed into the metal heat insulating cup holder 1. ing. Therefore, there is no problem that a finger is caught on the step between the metal heat insulating cup holder 1 and the metal heat insulating cup 12 during use, and the usability is improved and the metal heat insulating cup holder 1 and the metal heat insulating cup 12 are improved. And the design of the appearance is improved. In addition, as shown in FIG. 1, the 1st junction part 19 and the drinking mouth part 20 are parts which appear in an external appearance, without being covered with the metal heat insulating cup holder 1.

  The vertical surface portion 21 is formed with a male screw 24 that is a screwed portion with the metal heat insulating cup holder 1. When the male screw 24 and the female screw 13 formed on the metal heat insulating cup holder 1 are screwed together, the metal heat insulating cup 12 is firmly fitted to the metal heat insulating cup holder 1.

  Further, the vertical surface portion 21 is formed so as to have the same diameter from above to below. That is, when the metal heat insulating cup 12 is placed on a table or the like, a surface perpendicular to the bottom surface 25 of the metal heat insulating cup 12 and a placement surface (not shown) such as a table is formed. As a result, the shape of the male screw 24 is easily produced during manufacturing, and the dimensions are stabilized, so that productivity can be improved. Moreover, the male screw 24 with high dimensional accuracy can be formed, and the screwing accuracy with the metal heat insulating cup holder 1 can be increased.

  A second joint portion 26 that is in contact with the outer bottom portion 18 and joined by welding is formed at the lower end portion of the outer cylinder body portion 22. In addition, the outer cylinder body portion 22 is gradually reduced in diameter toward the lower side, but is gradually increased in diameter from a slightly upper portion of the second joint portion 26.

  A holder stop portion 27 that abuts on the upper end portion 9 of the metal heat insulating cup holder 1 is formed at a connection portion between the drinking mouth portion 20 and the vertical surface portion 21. The holder stop portion 27 has a function of positioning the metal heat insulating cup 12 by contacting the upper end portion 9 when the metal heat insulating cup 12 is screwed into the metal heat insulating cup holder 1.

  The holder stop portion 27 is inclined downward toward the inner side of the outer container 14, and the upper end portion 9 and the holder stop portion 27 have an inclination angle corresponding to each other so as to come into contact with more surfaces. By contacting these two inclined surfaces, the metal heat insulating cup holder 1 and the metal heat insulating cup 12 can be stably engaged.

  A connecting portion between the vertical surface portion 21 and the outer cylindrical body portion 22 is formed with a body inclined portion 65 that is inclined downward toward the inside of the outer container 14, and the metal heat insulating cup 12 is provided with a holder for the metal heat insulating cup. When fitting 1, the convex portion 67 of the female screw 13 does not rub against the lower portion 66 of the vertical surface.

  The outer bottom portion 18 has a shallow cylindrical shape with an open top, the side surface 29 has an upper and lower two-stage configuration, and the upper upper step portion 30 is formed smaller in diameter than the lower lower step portion 31. . The upper stage part 30 is fitted inside the outer cylinder part 17. Between the upper step portion 30 and the lower step portion 31, a receiving portion 32 that receives the second joint portion 26 that is the lower end portion of the outer cylinder portion 17 is formed, and after the outer bottom portion 18 is fitted into the outer cylinder portion 17. The second joint portion 26 and the receiving portion 32 are joined by welding. Further, the bottom corner portion 33, which is a continuous portion from the side surface 29 to the bottom surface 25 of the outer bottom portion 18, has an outwardly convex R shape.

  Concentric concave portions are formed on the bottom surface 25 of the outer bottom portion 18 in three upper and lower stages. A vacuum sealing material 36 is disposed in the small-diameter recess 34 formed in the central portion of the bottom surface 25, and a small hole-like exhaust hole 35 is formed in the central portion. The exhaust hole 35 communicates with the gap between the outer container 14 and the inner container 15, and after evacuating the gap through the exhaust hole 35, the exhaust hole 35 is sealed with a vacuum sealing material 36, thereby providing vacuum insulation. Layer 16 is formed. As the vacuum sealing material 36, for example, a metal brazing material or a glass brazing material made of an alloy of Sn or Sn and Ag, Cu, Ni, Bi, or Zn is used.

  On the outside of the small-diameter concave portion 34, a medium-diameter concave portion 37 larger in diameter than the small-diameter concave portion 34 is formed. The medium-diameter concave portion 37 has a function of increasing the rigidity of the bottom surface 25 of the outer bottom portion 18 and preventing the vacuum sealing material 36 from flowing out during vacuum processing.

  A getter 38 is disposed on the surface of the medium-diameter concave portion 37 on the side of the vacuum heat insulating layer 16, and the getter 38 adsorbs gas generated from the inside of the vacuum heat insulating layer 16. The getter 38 may be disposed anywhere in the vacuum heat insulating layer 16 as long as the getter 38 is not positioned to block the exhaust hole 35.

  A large-diameter recess 39 having a diameter larger than that of the intermediate-diameter recess 37 is formed outside the intermediate-diameter recess 37. The large-diameter concave portion 39 functions as an attachment portion of the protection plate 40 that enhances the rigidity of the bottom surface 25 of the outer bottom portion 18 and protects the vacuum sealing material 36 from an external impact or the like.

  The protective plate 40 has a disk shape having a diameter larger than that of the medium-diameter concave portion 37 and smaller than that of the large-diameter concave portion 39, and the thickness thereof is thinner than the depth of the large-diameter concave portion 39. The protective plate 40 is formed of the same material as the outer bottom portion 18 and is joined to the large-diameter recess 39 with a heat-resistant adhesive so as to completely close the small-diameter recess 34 and the medium-diameter recess 37. Thereby, even if the metal heat insulating cup 12 is washed with water, the vacuum sealing material 36 does not come into contact with water, and the deterioration of the vacuum sealing material 36 due to water can be prevented.

  The inner container 15 has a bottomed cylindrical one-piece structure whose upper part opens to a wide mouth, and a third joint part 41 joined to the first joint part 19 of the outer container 14 by welding is formed at the upper end portion thereof. Is formed. The third joint portion 41 has substantially the same width as the first joint portion 19 and is formed to be parallel to the first joint portion 19 when the inner container 15 is stored in the outer container 14. Further, the diameter of the first joint portion 19 and the diameter of the third joint portion 41 are adjusted so as to come into contact when the inner container 15 is stored in the outer container 14.

  An inclined portion 42 that is reduced in diameter downward is formed on the lower side of the third joint portion 41, and a storage portion 43 having a substantially U-shaped cross section for storing beverages is formed on the lower side thereof. Yes. The diameter of the inclined portion 42 is smaller than the diameter of the drinking mouth portion 20 of the outer container 14, and the diameter of the accommodating portion 43 is larger than the diameters of the vertical surface portion 21 and the outer cylinder body portion 22 of the outer container 14. Is also formed small. Further, the length of the inner container 15 in the vertical direction is shorter than the length of the outer cylinder portion 17 in the vertical direction. Therefore, the outer container 14 and the inner container 15 are not in contact with each other than the joint portion between the first joint portion 19 and the third joint portion 41.

  Here, the manufacturing method of the metal heat insulating cup 12 will be described in detail. First, the inner container 15 is accommodated from the upper opening portion of the outer cylinder part 17, and the mouth end face 44 that is the upper end face of the inner container 15 and the mouth end face 45 that is the upper end face of the outer cylinder part 17 are aligned. The joint 19 and the third joint 41 are joined by welding. Next, the outer base 18 that has been joined to the getter 38 by welding is fitted into the lower opening portion of the outer cylinder 17, the second joint 26 is brought into contact with the receiving portion 32, and joined by welding. Thereafter, the gap between the outer container 14 and the inner container 15 is evacuated through the exhaust hole 35, and the exhaust hole 35 is sealed with a vacuum sealing material 36 to form the vacuum heat insulating layer 16. Finally, the protective plate 40 is joined to the large-diameter concave portion 39 with a heat-resistant adhesive, whereby the metal heat insulating cup 12 is completed.

  Next, the usage method of the metal heat insulating cup holder 1 will be described in detail. First, when the metal heat insulating cup 12 is stored in the metal heat insulating cup holder 1 and the metal heat insulating cup 12 is turned into the metal heat insulating cup holder 1 while being held while holding the metal heat insulating cup holder 1, The female screw 13 of the metal heat insulating cup holder 1 is engaged with the male screw 24 of the metal heat insulating cup 12. When the holder stop portion 27 of the metal heat insulating cup 12 is brought into contact with the upper end portion 9 of the metal heat insulating cup holder 1, the metal heat insulating cup 12 is fitted into the metal heat insulating cup holder 1. In this state, in the metal heat insulating cup 12, only the male screw 24 and the holder stop portion 27 are in contact with the metal heat insulating cup holder 1, and other portions of the outer cylindrical portion 17 and the outer bottom portion 18 are It does not contact the metal heat insulating cup holder 1.

  In this state, the user can pour and drink any beverage on the metal heat insulating cup 12. Since the metal heat insulating cup 12 has heat insulation properties, the beverage is kept at a low temperature when a cold beverage is put therein, and the beverage is kept at a high temperature when a warm beverage is put therein. Moreover, since the holding part 3 is formed in the metal heat insulating cup holder 1, the user can drink beverages by holding the holding part 3. Moreover, the impact to the metal heat insulation cup 12 at the time of mounting on mounting surfaces, such as a table, can be relieve | moderated by the holder 1 for metal heat insulation cups.

  After use, the metal heat insulating cup 12 can be easily removed from the metal heat insulating cup holder 1 and can be cleaned and dried separately. When removing the metal heat insulating cup 12 from the metal heat insulating cup holder 1, the metal heat insulating cup holder 1 is held and pulled out while rotating the metal heat insulating cup 12 in the opposite direction. That's fine.

  As described above, in this embodiment, the female screw 13 that engages with the male screw 24 provided on the outside of the metal heat insulating cup 12 is provided inside, and the holder stop portion 27 provided on the metal heat insulating cup 12 includes Since it has the upper end part 9 to contact | abut and is engaged with the said metal heat insulation cup 12 in the said internal thread 13 and the said upper end part 9, it fits with the metal heat insulation cup holder 1 and the metal heat insulation cup 12 Becomes robust.

  Further, in this embodiment, when the metal heat insulating cup 12 abuts on the holder stop portion 27 provided on the metal heat insulating cup 12, the metal heat insulating cup 12 and the outer surface (outer surface 7) are flush with each other. Therefore, there is no backlash, the fitting is stable, and there is no step and the appearance is beautiful.

  Further, in this embodiment, the male screw 24 is provided on a vertical surface (vertical surface portion 21) when the metal heat insulating cup 12 is placed, so that the shape of the male screw 24 is easy to appear and the dimensions are stable. To do.

  The metal heat insulating cup 12 may have other shapes as long as it can be screwed onto the metal heat insulating cup holder 1. Further, the metal heat insulating cup 12 can be used alone as a heat insulating cup without being screwed to the metal heat insulating cup holder 1.

  FIG. 2 shows a second embodiment of the present invention, in which the same parts as those in the first embodiment are denoted by the same reference numerals, and detailed description thereof is omitted. In this embodiment, a drain hole 46 is formed in the bottom 6 of the metal heat insulating cup holder 1.

  The drain hole 46 is formed in a circular shape at the center portion of the bottom 6 of the metal heat insulating cup holder 1 and penetrates the inside and outside of the metal heat insulating cup holder 1. In the present embodiment, the diameter of the drain hole 46 is about half of the diameter of the bottom portion 6, but the size of the diameter can be changed as appropriate, and the shape of the drain hole 46 can also be changed as appropriate. is there.

  The end 47 of the bottom 6 where the drain hole 46 is formed has a substantially inverted U-shaped cross section.

  By providing the drain hole 46 in the bottom portion 6 as in the present embodiment, even if a liquid such as water enters the hollow portion 28, it can be easily discharged from the drain hole 46. Therefore, even if washing is performed with the metal heat insulating cup holder 1 fitted to the metal heat insulating cup 12, water does not easily accumulate in the hollow portion 28. In addition, since air can enter and exit from the drain hole 46, the hollow portion 28 can be quickly dried with air.

  As described above, in this embodiment, since the drain hole 46 is provided at the center of the bottom portion 6, it is difficult for water to collect in the hollow portion 28 even if the metal heat insulating cup holder 1 is attached.

  3-5 shows Example 3 of this invention, attaches | subjects the same code | symbol to the same part as the said Example 1 and 2, and abbreviate | omits the detailed description and explains in full detail. In this embodiment, an elastic member 48 is fitted to the bottom portion 6 and a drainage portion 49 is formed on the upper end portion 9.

  The elastic member 48 includes a side wall portion 50 that fits to the outer surface 7 of the metal heat insulating cup holder 1 and a bottom wall portion 51 that fits to the bottom portion 6 of the metal heat insulating cup holder 1. It has a shallow cylindrical shape. Moreover, the connection part of the side wall part 50 and the bottom wall part 51 has an outwardly convex R shape. In the present embodiment, the bottom wall portion 51 serves as a ground contact surface with a mounting surface (not shown) such as a table, and the metal heat insulating cup holder 1 does not contact the table or the like in the mounted state. The elastic member 48 is integrally formed of a soft material such as an elastomer.

  A first rib 52 that engages with the outer surface 7 of the metal heat insulating cup holder 1 is formed on the inner surface of the upper end of the side wall 50. The first rib 52 has a substantially rectangular cross section, and a chamfered portion 53 is formed at an upper corner portion.

  Further, a second rib 54 that is engaged with the outer surface 7 of the metal heat insulating cup holder 1 is formed on the inner surface of the side wall 50 and slightly below the first rib 52. The second rib 54 has a substantially rectangular cross section.

  Further, a third rib 55 that engages with the bottom 6 of the metal heat insulating cup holder 1 is formed at the central portion of the inner surface of the bottom wall 51. The third rib 55 has a substantially rectangular cross section.

  A step portion 57 having a two-step structure is formed at a corner portion below the end portion of the bottom wall portion 51. On the other hand, the corner portion on the upper side of the end portion of the bottom wall portion 51 has a right-angle portion 63 having a right-angle cross section.

  In the present embodiment, a fitting portion 58 for fitting the elastic member 48 is formed on the lower portion of the outer surface 7 of the metal heat insulating cup holder 1. The fitting portion 58 is formed smaller in diameter than the outer side surface 7, and the outer diameter of the side wall portion 50 is smaller than the outer diameter of the outer side surface 7 even when the elastic member 48 is fitted.

  The fitting portion 58 is formed with a first recess 59, a second recess 60, and a third recess 61 that engage with the first rib 52, the second rib 54, and the third rib 55 of the elastic member 48, respectively. Further, a right angle receiving portion 64 that receives the right angle portion 63 of the elastic member 48 is formed. The elastic member 48 is firmly fitted to the fitting portion 58 of the metal heat insulating cup holder 1 by these three engagement concave portions 59, 60, 61 and the right angle receiving portion 64.

  Next, the drainage part 49 formed in the upper end part 9 of the metal heat insulating cup holder 1 will be described in detail. The drainage portion 49 is formed by cutting out a part of the upper end portion 9 into a horizontally-long rectangular shape, and in a state where the metal heat insulating cup holder 1 and the metal heat insulating cup 12 are screwed together, the outside and the hollow portion 28. And communicate with.

  In the present embodiment, the drainage portion 49 is formed in a portion (180 ° opposite side) facing the grip portion 3, but can be appropriately changed to any position on the circumference of the upper end portion 9. Further, the shape and size of the drainage portion 49 can be changed as appropriate, and a plurality of drainage portions 49 may be provided.

  As described above, since the water drainage part 49 communicates with the outside and the hollow part 28, when the metal heat insulating cup holder 1 and the metal heat insulating cup 12 are washed in a screwed state, By mounting, the water accumulated in the hollow portion 28 can be discharged to the outside. Moreover, the inside and the inside of the hollow part 28 can be dried quickly because air enters and exits from the drain hole 46 and the drain part 49.

  In addition, the difference from the first and second embodiments will be described. In this embodiment, the bottom of the outer bottom portion 18 is prevented so that the outer bottom portion 18 of the metal heat insulating cup 12 does not contact the metal heat insulating cup holder 1. The corner 33 has a convex shape inward.

  In the present embodiment, the upper surface 8 of the grip portion 3 is not flush with the upper end portion 9, and the upper surface 8 is located slightly below the upper end portion 9. Furthermore, the upper recessed part 10 and the lower recessed part 11 are not formed in the attachment part of the holding | grip part 3, The parts other than the internal thread 13 are formed in planar shape in the inner side surface of the holder 1 for metal heat insulation cups.

  Further, in this embodiment, an inclination is formed on the end lower surface 62 which is the lower portion of the end 47, and the thickness of the end 47 becomes thinner toward the tip.

As described above, in this embodiment, the elastic member 48 is disposed on the bottom portion 6 so that the impact is reduced when the elastic member 48 is placed on a table or the like.
Further, in this embodiment, since the upper end portion 9 has the water drainage portion 49, even when the metal heat insulating cup holder 1 is worn and washed and dried in an inverted state, the metal heat insulating cup is provided. The water accumulated between the holder 1 and the metal heat insulating cup 12 can be drained.

  In addition, this invention is not limited to the said Example, A various deformation | transformation implementation is possible within the range of the summary of this invention. For example, it is possible to appropriately change the capacity of the container by changing the height and diameter of the metal heat insulating cup holder and the metal heat insulating cup. A plurality of drain holes may be provided.

1 Metal insulation cup holder 6 Bottom 7 Outer side (outer side)
9 Upper end portion 12 Metal heat insulating cup 13 Female screw 20 Drinking mouth portion 21 Vertical surface portion (vertical surface)
24 Male thread 27 Holder stop portion 46 Drain hole 48 Elastic member 49 Drain portion

  The present invention relates to a metal heat insulating cup holder screwed onto the outside of a metal heat insulating cup.

  For example, as disclosed in Patent Document 1 below, a conventional cup holder is formed integrally with a cylindrical peripheral wall and the peripheral wall, and is formed of a bottom wall that supports the bottom of the cup. It is for storing cups, and is not equipped with a mechanism to hold the cup firmly to the holder. For this reason, when there is a gap between the cup and the holder, there is a problem that the cup becomes loose or the cup is detached from the holder when the holder is overturned with the cup stored. there were.

  On the other hand, Patent Document 2 below discloses that water is put into a gap between a cup and a holder, and the water is frozen by heat of a cold-preserving cup holder to stably hold the cup. However, this method can be used only as a cup holder for cold insulation, and cannot be used as a cup holder for heat insulation. Further, since water is used, the method of use is complicated such that the cup or holder gets wet or the water must be discharged after use. Furthermore, when the holder is turned over in a state where the cup is stored, there is a problem that it is not possible to prevent the cup from coming off the holder.

Japanese Patent Application Laid-Open No. 8-215015 JP 2010-148849 A

  Then, an object of this invention is to provide the holder for metal heat insulation cups which hold | maintain a metal heat insulation cup firmly to a holder, and is easier to use.

The cup holder according to claim 1 is used for a metal heat insulating cup formed with a drinking mouth portion having a width sufficient to abut the mouth when a user drinks a beverage, and is formed of a synthetic resin. A metal heat insulating cup holder, comprising therein a female screw that is screwed into a male screw provided on an outer surface of the metal heat insulating cup that is vertical when the metal heat insulating cup is placed , the holder stop portion provided below the spout portion of the metallic heat-insulating cups have an upper end abutting the metal by being engaged with and held by the metallic heat insulating cup in said female screw the upper portion A hollow portion is formed in the gap with the heat-insulating cup, and the drinking mouth portion and the outer surface are flush with each other in the engaged and held state, the outer peripheral portion of the outer bottom surface of the bottom portion is formed in a flat shape, and the center portion of the bottom portion that but has become a concave upward And butterflies.

The cup holder according to claim 2 is used for a metal heat insulating cup formed with a drinking mouth portion having a width sufficient to abut the mouth when a user drinks a beverage, and is made of a synthetic resin. A metal heat insulating cup holder, comprising therein a female screw that is screwed into a male screw provided on an outer surface of the metal heat insulating cup that is vertical when the metal heat insulating cup is placed, The metal heat insulating cup has an upper end portion that comes into contact with a holder stop portion provided below the mouthpiece portion, and is engaged with and held by the metal heat insulating cup at the female screw and the upper end portion. A hollow portion is formed in the gap with the heat-insulating cup, and the drinking mouth portion and the outer surface are flush with each other in the engaged and held state, and includes a side wall portion fitted to the outer surface and a bottom wall portion fitted to the bottom portion. A shallow cylindrical shape with open top and bottom Characterized Rukoto comprises a resilient member.

Cup holder of claim 3, characterized in that it has a drain hole in the bottom center.

Cup holder of claim 4 is characterized that you have had a drain portion to the upper portion.

According to the invention of claim 1, a female screw is provided inside, screwed into a male screw provided on the outside of the metal heat insulating cup, and brought into contact with a holder stop provided on the metal heat insulating cup, The fitting between the metal heat insulating cup and the metal heat insulating cup holder is robust. In addition, when contacting the holder stop portion provided on the metal heat insulating cup, the metal heat insulating cup drinking mouth and the outer surface are flush with each other, so there is no backlash and the fitting is stable, and There is no step and the appearance is good. Further, since the male screw provided in the metal heat insulating cup is provided on the vertical surface when the cup is placed, the shape of the screw portion is easily obtained and the dimensions are stabilized.

According to the invention of claim 2, a female screw is provided inside, screwed into a male screw provided outside the metal heat insulating cup, and abutted with a holder stop portion provided in the metal heat insulating cup, The fitting between the metal heat insulating cup and the metal heat insulating cup holder is robust. In addition, when contacting the holder stop portion provided on the metal heat insulating cup, the metal heat insulating cup drinking mouth and the outer surface are flush with each other, so there is no backlash and the fitting is stable, and There is no step and the appearance is good. Moreover, the impact at the time of mounting on a table etc. can be relieved by arrange | positioning the elastic member in the bottom part. Further, since the male screw provided in the metal heat insulating cup is provided on the vertical surface when the cup is placed, the shape of the screw portion is easily obtained and the dimensions are stabilized.

According to the third aspect of the present invention, since the drain hole is provided at the center of the bottom, it is difficult for water to collect even when the metal heat insulating cup holder is attached.

According to the invention of claim 4 , by having a water draining portion at the upper end portion, even when the metal heat insulating cup holder is attached and washed and dried upside down, the metal heat insulating cup holder And the water accumulated between the metal insulation cups can be discharged.

It is sectional drawing which shows Example 1 of this invention. It is sectional drawing which shows Example 2 of this invention. It is sectional drawing which shows Example 3 of this invention. It is a principal part expanded sectional view same as the above. It is a perspective view and the principal part enlarged view same as the above.

  Preferred embodiments of the present invention will be described with reference to the accompanying drawings. The embodiments described below do not limit the contents of the present invention described in the claims. In addition, all of the configurations described below are not necessarily essential requirements of the present invention.

  FIG. 1 shows a first embodiment of the present invention, and a metal heat insulating cup holder 1 is composed of a bottomed cylindrical main body 2 and a substantially annular gripping portion 3.

  The main body 2 includes an upper opening 4, a cylindrical portion 5 that gradually decreases in diameter toward the lower side, and a circular flat plate-like bottom portion 6, and has a cross-sectionally inverted U-shape.

  The grip portion 3 is connected to the outer surface 7 of the cylindrical portion 5 at two locations, upper and lower, and one upper surface 8 of the grip portion 3 is flush with the upper end portion 9 that is the upper end surface of the cylindrical portion 5. The other of the parts 3 is located slightly below the center of the cylindrical part 5 in the height direction. Further, an upper concave portion 10 and a lower concave portion 11 that are recessed toward the grip portion 3 are formed on the inner surface of the portion of the metal heat insulating cup holder 1 where the grip portion 3 is formed.

  On the inner surface of the cylindrical portion 5, a female screw 13 that is a screwed portion with the metal heat insulating cup 12 is formed. In this embodiment, the female screw 13 is formed at a height of about 2/3 from the bottom 6 of the metal heat insulating cup holder 1, but above the half of the height of the metal heat insulating cup holder 1. If it is provided in. Further, the upper end portion 9 that is the upper end surface of the cylindrical portion 5 is inclined downward toward the inside of the cylindrical portion 5.

  The grip part 3, the cylindrical part 5 and the bottom part 6 are integrally molded with a synthetic resin such as ABS resin, and the cylindrical part 5 and the bottom part 6 are formed to have a substantially constant thickness (about 2 to 3 mm). However, the center of the outer bottom surface of the bottom 6 is concave upward. This makes it possible to stably place the metal heat insulating cup holder 1 even if the bottom portion 6 of the metal heat insulating cup holder 1 expands and deforms downward due to heat.

  The metal heat insulating cup 12 has a double structure in which an outer container 14 and an inner container 15 accommodated in the outer container 14 are joined at respective upper opening portions, and the outer container 14 and the inner container 15 are connected to each other. A vacuum heat insulating layer 16 is formed in the gap. The outer container 14 and the inner container 15 are both formed of stainless steel (for example, SUS304). In addition, the plate | board thickness of the outer container 14 and the inner container 15 is about 0.5 mm.

  The outer container 14 has a bottomed cylindrical shape with an upper part opened to a wide mouth, and is formed of a cylindrical outer cylinder part 17 and a shallow cylindrical outer bottom part 18 joined to the lower part of the outer cylinder part 2. It has a part structure.

  The outer cylinder part 17 has a four-stage structure including a first joint part 19, a drinking mouth part 20, a vertical surface part 21, and an outer cylinder body part 22 from the upper side. The diameter of each step portion is such that the first joint portion 19> the drinking mouth portion 20> the vertical surface portion 21> the outer cylinder body portion 22.

  The 1st junction part 19 is a junction part with the inner container 15, and is formed narrowly. Moreover, the 1st junction part 19 is formed so that a diameter may become the same from upper direction to the downward direction.

  The drinking mouth part 20 is a part that comes into contact with the mouth when the user drinks the beverage in the cup together with the first joint part 19, and has a sufficient width for the mouth to contact. Further, the drinking mouth part 20 is gradually reduced in diameter toward the lower side.

  In addition, the mouth surface 23 which is the outer surface of the mouth portion 20 is formed to be flush with the outer surface 7 in a state where the metal heat insulating cup 12 is screwed into the metal heat insulating cup holder 1. ing. Therefore, there is no problem that a finger is caught on the step between the metal heat insulating cup holder 1 and the metal heat insulating cup 12 during use, and the usability is improved and the metal heat insulating cup holder 1 and the metal heat insulating cup 12 are improved. And the design of the appearance is improved. In addition, as shown in FIG. 1, the 1st junction part 19 and the drinking mouth part 20 are parts which appear in an external appearance, without being covered with the metal heat insulating cup holder 1.

  The vertical surface portion 21 is formed with a male screw 24 that is a screwed portion with the metal heat insulating cup holder 1. When the male screw 24 and the female screw 13 formed on the metal heat insulating cup holder 1 are screwed together, the metal heat insulating cup 12 is firmly fitted to the metal heat insulating cup holder 1.

  Further, the vertical surface portion 21 is formed so as to have the same diameter from above to below. That is, when the metal heat insulating cup 12 is placed on a table or the like, a surface perpendicular to the bottom surface 25 of the metal heat insulating cup 12 and a placement surface (not shown) such as a table is formed. As a result, the shape of the male screw 24 is easily produced during manufacturing, and the dimensions are stabilized, so that productivity can be improved. Moreover, the male screw 24 with high dimensional accuracy can be formed, and the screwing accuracy with the metal heat insulating cup holder 1 can be increased.

  A second joint portion 26 that is in contact with the outer bottom portion 18 and joined by welding is formed at the lower end portion of the outer cylinder body portion 22. In addition, the outer cylinder body portion 22 is gradually reduced in diameter toward the lower side, but is gradually increased in diameter from a slightly upper portion of the second joint portion 26.

  A holder stop portion 27 that abuts on the upper end portion 9 of the metal heat insulating cup holder 1 is formed at a connection portion between the drinking mouth portion 20 and the vertical surface portion 21. The holder stop portion 27 has a function of positioning the metal heat insulating cup 12 by contacting the upper end portion 9 when the metal heat insulating cup 12 is screwed into the metal heat insulating cup holder 1.

  The holder stop portion 27 is inclined downward toward the inner side of the outer container 14, and the upper end portion 9 and the holder stop portion 27 have an inclination angle corresponding to each other so as to come into contact with more surfaces. By contacting these two inclined surfaces, the metal heat insulating cup holder 1 and the metal heat insulating cup 12 can be stably engaged.

  A connecting portion between the vertical surface portion 21 and the outer cylindrical body portion 22 is formed with a body inclined portion 65 that is inclined downward toward the inside of the outer container 14, and the metal heat insulating cup 12 is provided with a holder for the metal heat insulating cup. When fitting 1, the convex portion 67 of the female screw 13 does not rub against the lower portion 66 of the vertical surface.

  The outer bottom portion 18 has a shallow cylindrical shape with an open top, the side surface 29 has an upper and lower two-stage configuration, and the upper upper step portion 30 is formed smaller in diameter than the lower lower step portion 31. . The upper stage part 30 is fitted inside the outer cylinder part 17. Between the upper step portion 30 and the lower step portion 31, a receiving portion 32 that receives the second joint portion 26 that is the lower end portion of the outer cylinder portion 17 is formed, and after the outer bottom portion 18 is fitted into the outer cylinder portion 17. The second joint portion 26 and the receiving portion 32 are joined by welding. Further, the bottom corner portion 33, which is a continuous portion from the side surface 29 to the bottom surface 25 of the outer bottom portion 18, has an outwardly convex R shape.

  Concentric concave portions are formed on the bottom surface 25 of the outer bottom portion 18 in three upper and lower stages. A vacuum sealing material 36 is disposed in the small-diameter recess 34 formed in the central portion of the bottom surface 25, and a small hole-like exhaust hole 35 is formed in the central portion. The exhaust hole 35 communicates with the gap between the outer container 14 and the inner container 15, and after evacuating the gap through the exhaust hole 35, the exhaust hole 35 is sealed with a vacuum sealing material 36, thereby providing vacuum insulation. Layer 16 is formed. As the vacuum sealing material 36, for example, a metal brazing material or a glass brazing material made of an alloy of Sn or Sn and Ag, Cu, Ni, Bi, or Zn is used.

  On the outside of the small-diameter concave portion 34, a medium-diameter concave portion 37 larger in diameter than the small-diameter concave portion 34 is formed. The medium-diameter concave portion 37 has a function of increasing the rigidity of the bottom surface 25 of the outer bottom portion 18 and preventing the vacuum sealing material 36 from flowing out during vacuum processing.

  A getter 38 is disposed on the surface of the medium-diameter concave portion 37 on the side of the vacuum heat insulating layer 16, and the getter 38 adsorbs gas generated from the inside of the vacuum heat insulating layer 16. The getter 38 may be disposed anywhere in the vacuum heat insulating layer 16 as long as the getter 38 is not positioned to block the exhaust hole 35.

  A large-diameter recess 39 having a diameter larger than that of the intermediate-diameter recess 37 is formed outside the intermediate-diameter recess 37. The large-diameter concave portion 39 functions as an attachment portion of the protection plate 40 that enhances the rigidity of the bottom surface 25 of the outer bottom portion 18 and protects the vacuum sealing material 36 from an external impact or the like.

  The protective plate 40 has a disk shape having a diameter larger than that of the medium-diameter concave portion 37 and smaller than that of the large-diameter concave portion 39, and the thickness thereof is thinner than the depth of the large-diameter concave portion 39. The protective plate 40 is formed of the same material as the outer bottom portion 18 and is joined to the large-diameter recess 39 with a heat-resistant adhesive so as to completely close the small-diameter recess 34 and the medium-diameter recess 37. Thereby, even if the metal heat insulating cup 12 is washed with water, the vacuum sealing material 36 does not come into contact with water, and the deterioration of the vacuum sealing material 36 due to water can be prevented.

  The inner container 15 has a bottomed cylindrical one-piece structure whose upper part opens to a wide mouth, and a third joint part 41 joined to the first joint part 19 of the outer container 14 by welding is formed at the upper end portion thereof. Is formed. The third joint portion 41 has substantially the same width as the first joint portion 19 and is formed to be parallel to the first joint portion 19 when the inner container 15 is stored in the outer container 14. Further, the diameter of the first joint portion 19 and the diameter of the third joint portion 41 are adjusted so as to come into contact when the inner container 15 is stored in the outer container 14.

  An inclined portion 42 that is reduced in diameter downward is formed on the lower side of the third joint portion 41, and a storage portion 43 having a substantially U-shaped cross section for storing beverages is formed on the lower side thereof. Yes. The diameter of the inclined portion 42 is smaller than the diameter of the drinking mouth portion 20 of the outer container 14, and the diameter of the accommodating portion 43 is larger than the diameters of the vertical surface portion 21 and the outer cylinder body portion 22 of the outer container 14. Is also formed small. Further, the length of the inner container 15 in the vertical direction is shorter than the length of the outer cylinder portion 17 in the vertical direction. Therefore, the outer container 14 and the inner container 15 are not in contact with each other than the joint portion between the first joint portion 19 and the third joint portion 41.

  Here, the manufacturing method of the metal heat insulating cup 12 will be described in detail. First, the inner container 15 is accommodated from the upper opening portion of the outer cylinder part 17, and the mouth end face 44 that is the upper end face of the inner container 15 and the mouth end face 45 that is the upper end face of the outer cylinder part 17 are aligned. The joint 19 and the third joint 41 are joined by welding. Next, the outer base 18 that has been joined to the getter 38 by welding is fitted into the lower opening portion of the outer cylinder 17, the second joint 26 is brought into contact with the receiving portion 32, and joined by welding. Thereafter, the gap between the outer container 14 and the inner container 15 is evacuated through the exhaust hole 35, and the exhaust hole 35 is sealed with a vacuum sealing material 36 to form the vacuum heat insulating layer 16. Finally, the protective plate 40 is joined to the large-diameter concave portion 39 with a heat-resistant adhesive, whereby the metal heat insulating cup 12 is completed.

Next, the usage method of the metal heat insulating cup holder 1 will be described in detail. First, when the metal heat insulating cup 12 is stored in the metal heat insulating cup holder 1 and the metal heat insulating cup 12 is turned into the metal heat insulating cup holder 1 while being held while holding the metal heat insulating cup holder 1, The female screw 13 of the metal heat insulating cup holder 1 and the male screw 24 of the metal heat insulating cup 12 are screwed together. When the holder stop portion 27 of the metal heat insulating cup 12 is brought into contact with the upper end portion 9 of the metal heat insulating cup holder 1, the metal heat insulating cup 12 is fitted into the metal heat insulating cup holder 1. In this state, in the metal heat insulating cup 12, only the male screw 24 and the holder stop portion 27 are in contact with the metal heat insulating cup holder 1, and other portions of the outer cylindrical portion 17 and the outer bottom portion 18 are It does not contact the metal heat insulating cup holder 1.

  In this state, the user can pour and drink any beverage on the metal heat insulating cup 12. Since the metal heat insulating cup 12 has heat insulation properties, the beverage is kept at a low temperature when a cold beverage is put therein, and the beverage is kept at a high temperature when a warm beverage is put therein. Moreover, since the holding part 3 is formed in the metal heat insulating cup holder 1, the user can drink beverages by holding the holding part 3. Moreover, the impact to the metal heat insulation cup 12 at the time of mounting on mounting surfaces, such as a table, can be relieve | moderated by the holder 1 for metal heat insulation cups.

  After use, the metal heat insulating cup 12 can be easily removed from the metal heat insulating cup holder 1 and can be cleaned and dried separately. When removing the metal heat insulating cup 12 from the metal heat insulating cup holder 1, the metal heat insulating cup holder 1 is held and pulled out while rotating the metal heat insulating cup 12 in the opposite direction. That's fine.

As described above, in this embodiment, the user uses the metal heat insulating cup 12 formed with the drinking mouth portion 20 having a width sufficient to abut the mouth when the user drinks the beverage, and is formed of a synthetic resin. The metal heat insulating cup holder 1 is a male screw 24 provided on the outer surface (vertical surface portion 21) of the metal heat insulating cup 12 which is vertical when the metal heat insulating cup 12 is placed. A female screw 13 to be screwed therein is provided, and has an upper end portion 9 that comes into contact with a holder stop portion 27 provided below the drinking mouth portion 20 of the metal heat insulating cup 12 , and the female screw 13 and the upper end The hollow portion 28 is formed in the gap with the metal heat insulating cup 12 by being engaged and held with the metal heat insulating cup 12 in the portion 9, and the drinking mouth portion 20 and the outer surface (outer surface) in the engagement holding state. 7) becomes the same, The outer peripheral portion of the outer bottom surface parts 6 are formed in a planar shape, because the central portion of the bottom portion 6 that has become concave upward, robust fitting the metallic heat-insulating cup holder 1 and the metal heat insulating cup 12 It becomes. In addition, there is no backlash, the fitting is stable, and there is no step and a beautiful appearance is obtained. Further, the shape of the male screw 24 is easy to appear, and the dimensions are stabilized.

  The metal heat insulating cup 12 may have other shapes as long as it can be screwed onto the metal heat insulating cup holder 1. Further, the metal heat insulating cup 12 can be used alone as a heat insulating cup without being screwed to the metal heat insulating cup holder 1.

  FIG. 2 shows a second embodiment of the present invention, in which the same parts as those in the first embodiment are denoted by the same reference numerals, and detailed description thereof is omitted. In this embodiment, a drain hole 46 is formed in the bottom 6 of the metal heat insulating cup holder 1.

  The drain hole 46 is formed in a circular shape at the center portion of the bottom 6 of the metal heat insulating cup holder 1 and penetrates the inside and outside of the metal heat insulating cup holder 1. In the present embodiment, the diameter of the drain hole 46 is about half of the diameter of the bottom portion 6, but the size of the diameter can be changed as appropriate, and the shape of the drain hole 46 can also be changed as appropriate. is there.

  The end 47 of the bottom 6 where the drain hole 46 is formed has a substantially inverted U-shaped cross section.

  By providing the drain hole 46 in the bottom portion 6 as in the present embodiment, even if a liquid such as water enters the hollow portion 28, it can be easily discharged from the drain hole 46. Therefore, even if washing is performed with the metal heat insulating cup holder 1 fitted to the metal heat insulating cup 12, water does not easily accumulate in the hollow portion 28. In addition, since air can enter and exit from the drain hole 46, the hollow portion 28 can be quickly dried with air.

  As described above, in this embodiment, since the drain hole 46 is provided at the center of the bottom portion 6, it is difficult for water to collect in the hollow portion 28 even if the metal heat insulating cup holder 1 is attached.

  3-5 shows Example 3 of this invention, attaches | subjects the same code | symbol to the same part as the said Example 1 and 2, and abbreviate | omits the detailed description and explains in full detail. In this embodiment, an elastic member 48 is fitted to the bottom portion 6 and a drainage portion 49 is formed on the upper end portion 9.

  The elastic member 48 includes a side wall portion 50 that fits to the outer surface 7 of the metal heat insulating cup holder 1 and a bottom wall portion 51 that fits to the bottom portion 6 of the metal heat insulating cup holder 1. It has a shallow cylindrical shape. Moreover, the connection part of the side wall part 50 and the bottom wall part 51 has an outwardly convex R shape. In the present embodiment, the bottom wall portion 51 serves as a ground contact surface with a mounting surface (not shown) such as a table, and the metal heat insulating cup holder 1 does not contact the table or the like in the mounted state. The elastic member 48 is integrally formed of a soft material such as an elastomer.

  A first rib 52 that engages with the outer surface 7 of the metal heat insulating cup holder 1 is formed on the inner surface of the upper end of the side wall 50. The first rib 52 has a substantially rectangular cross section, and a chamfered portion 53 is formed at an upper corner portion.

  Further, a second rib 54 that is engaged with the outer surface 7 of the metal heat insulating cup holder 1 is formed on the inner surface of the side wall 50 and slightly below the first rib 52. The second rib 54 has a substantially rectangular cross section.

  Further, a third rib 55 that engages with the bottom 6 of the metal heat insulating cup holder 1 is formed at the central portion of the inner surface of the bottom wall 51. The third rib 55 has a substantially rectangular cross section.

  A step portion 57 having a two-step structure is formed at a corner portion below the end portion of the bottom wall portion 51. On the other hand, the corner portion on the upper side of the end portion of the bottom wall portion 51 has a right-angle portion 63 having a right-angle cross section.

  In the present embodiment, a fitting portion 58 for fitting the elastic member 48 is formed on the lower portion of the outer surface 7 of the metal heat insulating cup holder 1. The fitting portion 58 is formed smaller in diameter than the outer side surface 7, and the outer diameter of the side wall portion 50 is smaller than the outer diameter of the outer side surface 7 even when the elastic member 48 is fitted.

  The fitting portion 58 is formed with a first recess 59, a second recess 60, and a third recess 61 that engage with the first rib 52, the second rib 54, and the third rib 55 of the elastic member 48, respectively. Further, a right angle receiving portion 64 that receives the right angle portion 63 of the elastic member 48 is formed. The elastic member 48 is firmly fitted to the fitting portion 58 of the metal heat insulating cup holder 1 by these three engagement concave portions 59, 60, 61 and the right angle receiving portion 64.

  Next, the drainage part 49 formed in the upper end part 9 of the metal heat insulating cup holder 1 will be described in detail. The drainage portion 49 is formed by cutting out a part of the upper end portion 9 into a horizontally-long rectangular shape, and in a state where the metal heat insulating cup holder 1 and the metal heat insulating cup 12 are screwed together, the outside and the hollow portion 28. And communicate with.

  In the present embodiment, the drainage portion 49 is formed in a portion (180 ° opposite side) facing the grip portion 3, but can be appropriately changed to any position on the circumference of the upper end portion 9. Further, the shape and size of the drainage portion 49 can be changed as appropriate, and a plurality of drainage portions 49 may be provided.

  As described above, since the water drainage part 49 communicates with the outside and the hollow part 28, when the metal heat insulating cup holder 1 and the metal heat insulating cup 12 are washed in a screwed state, By mounting, the water accumulated in the hollow portion 28 can be discharged to the outside. Moreover, the inside and the inside of the hollow part 28 can be dried quickly because air enters and exits from the drain hole 46 and the drain part 49.

  In addition, the difference from the first and second embodiments will be described. In this embodiment, the bottom of the outer bottom portion 18 is prevented so that the outer bottom portion 18 of the metal heat insulating cup 12 does not contact the metal heat insulating cup holder 1. The corner 33 has a convex shape inward.

  In the present embodiment, the upper surface 8 of the grip portion 3 is not flush with the upper end portion 9, and the upper surface 8 is located slightly below the upper end portion 9. Furthermore, the upper recessed part 10 and the lower recessed part 11 are not formed in the attachment part of the holding | grip part 3, The parts other than the internal thread 13 are formed in planar shape in the inner side surface of the holder 1 for metal heat insulation cups.

  Further, in this embodiment, an inclination is formed on the end lower surface 62 which is the lower portion of the end 47, and the thickness of the end 47 becomes thinner toward the tip.

As described above, in this embodiment, the user uses the metal heat insulating cup 12 formed with the drinking mouth portion 20 having a width sufficient to abut the mouth when the user drinks the beverage, and is formed of a synthetic resin. The metal heat insulating cup holder 1 is a male screw 24 provided on the outer surface (vertical surface portion 21) of the metal heat insulating cup 12 which is vertical when the metal heat insulating cup 12 is placed. A female screw 13 to be screwed therein is provided, and has an upper end portion 9 that comes into contact with a holder stop portion 27 provided below the drinking mouth portion 20 of the metal heat insulating cup 12, and the female screw 13 and the upper end The hollow portion 28 is formed in the gap with the metal heat insulating cup 12 by being engaged and held with the metal heat insulating cup 12 in the portion 9, and the drinking mouth portion 20 and the outer surface (outer surface) in the engagement holding state. 7) becomes the same, Kigaimen by Rukoto includes a side wall portion 50 and the bottom 6 the bottom wall 51 shallow cylindrical elastic member 48 of the upper and lower formed an opening from which fits into the fitting (outside surface 7), the table, etc. Reduces shock when placed. Further, the fitting between the metal heat insulating cup holder 1 and the metal heat insulating cup 12 is robust. In addition, there is no backlash, the fitting is stable, and there is no step and a beautiful appearance is obtained. Further, the shape of the male screw 24 is easy to appear, and the dimensions are stabilized.

  Further, in this embodiment, since the upper end portion 9 has the water drainage portion 49, even when the metal heat insulating cup holder 1 is worn and washed and dried in an inverted state, the metal heat insulating cup is provided. The water accumulated between the holder 1 and the metal heat insulating cup 12 can be drained.

  In addition, this invention is not limited to the said Example, A various deformation | transformation implementation is possible within the range of the summary of this invention. For example, it is possible to appropriately change the capacity of the container by changing the height and diameter of the metal heat insulating cup holder and the metal heat insulating cup. A plurality of drain holes may be provided.

1 Metal insulation cup holder 6 Bottom 7 Outer side (outer side)
9 Upper end portion 12 Metal heat insulating cup 13 Female screw 20 Drinking mouth portion 21 Vertical surface portion (vertical surface)
24 Male thread 27 Holder stop
28 Hollow part 46 Drain hole 48 Elastic member 49 Drain part
50 Side wall
51 Bottom wall

Claims (6)

A female screw that engages with a male screw provided on the outside of the metal heat insulating cup is provided inside, and has an upper end portion that contacts a holder stop provided on the metal heat insulating cup, and the female screw and the upper end A metal heat insulating cup holder, wherein the metal heat insulating cup is engaged and held at the portion. The metal heat insulating cup holder according to claim 1, further comprising a drain hole at a bottom center. The cup holder according to claim 1 or 2, wherein an elastic member is disposed at the bottom. The metal heat insulating cup for a metal heat insulating cup according to claim 3, wherein the metal heat insulating cup drinking part and the outer surface are flush with each other when the metal heat insulating cup abuts on a holder stop portion provided on the metal heat insulating cup. holder. The metal heat insulating cup holder according to claim 4, wherein the male screw is provided on a vertical surface when the metal heat insulating cup is placed. The metal heat insulating cup holder according to claim 2, wherein the upper end portion has a drainage portion.

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