JP2013116757A - Desktop server - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a desktop server using a PET bottle, which can effectively cool drinking water in the PET bottle to drink and can be manufactured at low cost by making the structure simple.SOLUTION: The desktop server is provided with a bottle stand 7 that holds the PET bottle 3 containing drinking water 4 in a state that an opening 9 side is downward, and a cock 11 that is attached to the opening 9 of PET bottle 3 in place of a cap, wherein a cylindrical Peltier 36 that encircles the periphery of PET bottle 3 and cools the drinking water 4 in the PET bottle 3 is provided for the bottle stand 7.

Description

  The present invention relates to a desktop server using a plastic bottle.

A desktop server that uses plastic bottles is equipped with a bottle stand that holds the plastic bottles containing drinking water with the mouth side facing downward, and is replaced with a cap at the mouth of the plastic bottle. (For example, Patent Documents 1 to 3).
This type of conventional desktop server has not been adapted to cool drinking water in a plastic bottle held by a bottle stand (for example, Patent Documents 1 to 3).

JP 2009-120221 A JP 2011-168333 A JP2003-104496A

Therefore, the conventional desktop server using a plastic bottle cannot drink cooled drinking water.
Therefore, a cooling pipe is spirally arranged on the outer periphery of the PET bottle held by the bottle stand, and the cooling water is allowed to flow through the cooling pipe so that the drinking water in the PET bottle held by the bottle stand is cooled. However, in this case, the structure of the cooling device is very complicated, and the manufacturing cost of the desktop server increases, which makes it impractical.
In view of the above problems, the present invention provides a desktop server using a plastic bottle that can cool and drink the drinking water in the plastic bottle and can be manufactured inexpensively with a simple structure. The purpose is that.

Specific means for solving the problems in the present invention are as follows.
The technical means of the present invention that solves this technical problem includes a bottle stand 7 that holds a plastic bottle 3 in which drinking water 4 is stored with its mouth 9 facing downward. It is a desktop server provided with a cock 11 that is attached to the mouth 9 in exchange for a cap,
The bottle stand 7 is provided with a cylindrical Peltier 36 that surrounds the outer periphery of the plastic bottle 3 and cools the drinking water 4 in the plastic bottle 3.
Further, according to another technical means of the present invention, the cylindrical Peltier 36 has an upper cylindrical portion 38 into which the body portion 13 of the plastic bottle 3 is fitted, and a tapered shape downward from the lower end of the upper cylindrical portion 38. And an engaging tube portion 39 that is engaged with the shoulder portion 14 of the plastic bottle 3 from above, and the cylindrical Peltier 36 is shouldered from the body portion 13 of the plastic bottle 3 held by the bottle stand 7. The inner periphery of the upper cylinder part 38 and the engagement cylinder part 39 is used as the heat absorption surface 36a of the cylindrical Peltier 36, and the upper cylinder part 38 and the engagement cylinder part are formed. The outer peripheral surface 39 is a heat generating surface 36 b of the cylindrical Peltier 36.
Further, according to another technical means of the present invention, the bottle stand 7 has a cylindrical bottle support portion 17 that fits and holds the plastic bottle 3, and the bottle support portion 17 is arranged along the inner peripheral surface 17 a of the bottle support portion 17. A cylindrical peltier 36 is disposed, and the bottle stand 7 is configured to hold the plastic bottle 3 via the cylindrical peltier 36.
Further, according to another technical means of the present invention, the lower end of the engagement tube portion 39 of the cylindrical Peltier 36 is opened and attached to the mouth portion 9 and the mouth portion 9 of the plastic bottle 3 held by the bottle stand 7. The cup 11 that protrudes downward from the bottle support part 17 and the cylindrical peltier 36 and receives the drinking water 4 of the plastic bottle 3 below the lower end opening 42 of the engaging cylinder part 39 of the cylindrical peltier 36. There is a point that a tray 45 for placing 44 is provided.
Another technical means of the present invention is that the cock 11 attached to the mouth portion 9 of the plastic bottle 3 includes a cock main body 28 that is externally attached to the mouth portion 9 so as to protrude downward, and an outer side of the cock main body 28. And an operation lever 29 located in the direction, a spout 30 is formed at the lower end of the cock body 28, and the engagement cylinder 39 of the cylindrical Peltier 36 is a shoulder of the PET bottle 3 held by the bottle stand 7. This is in that it surrounds from the upper end of the portion 14 to the vicinity of the mouth portion 9 of the shoulder portion 14 located immediately above the operation lever 29.
In addition, another technical means of the present invention is configured such that an air suction pipe 33 is provided in the cock main body 28 in a vertically penetrating manner, and external air is sucked into the PET bottle 3 through the air suction pipe 33. There is in point.
Another technical means of the present invention is that the cylindrical bottle support portion 17 is formed in a tapered shape so as to be gradually narrowed upward, and as the outer peripheral surface 17b thereof goes upward, the cylindrical axis A The bottle support 17 and the cylindrical Peltier 36 are arranged in a vertical direction so that the upper part of the PET bottle 3 held on the bottle stand 7 protrudes upward from the bottle support 17 and the cylindrical Peltier 36. The length is set to be shorter than the length of the plastic bottle 3.

According to the first aspect, the drinking water in the plastic bottle can be cooled effectively by the Peltier effect by the cylindrical Peltier and can be beveraged. A cylindrical Peltier can be easily configured by forming a Peltier element or a metal plate having a Peltier effect into a cylindrical shape, and the cylindrical Peltier has a very simple configuration and is used for circulating a cooling medium. Such a movable part becomes unnecessary, and the entire desktop server can be manufactured with a simple structure and at a low cost.
And since it cools using a Peltier effect, a movable part like when circulating a cooling medium becomes unnecessary, and it can cool the drinking water in a PET bottle, without producing a noise.
According to claim 2, the upper cylinder part and the engagement cylinder part of the cylindrical Peltier can be effectively cooled from the trunk part to the shoulder part of the plastic bottle held by the bottle stand, and in particular, the plastic bottle. It is also possible to have the endothermic surface of the cylindrical Peltier's engaging cylinder part run along almost the entire area of the outer peripheral surface of the body of the bottle, and the drinking water in the PET bottle can be effectively drained by a cooling means with an extremely simple structure. It can be cooled, and power saving effect can be expected.
According to the third aspect, the bottle stand or the bottle support portion comes into contact with the plastic bottle held by the bottle stand via the cylindrical peltier, and thus contacts the plastic bottle to hold the plastic bottle. It is possible to make all of the portions to be the endothermic surface of the cylindrical Peltier, and extremely efficiently cool the drinking water in the PET bottle or the PET bottle to be cooled.
According to claim 4, it becomes possible to pour out the drinking water cooled by the cylindrical Peltier straight from the mouth of the plastic bottle held by the bottle stand, and the entire desktop server is simple and structured. Can be made simple.
Moreover, when the drinking water poured out from the mouth part of the plastic bottle is received by the cup, it is possible to receive the drinking water scattered by the tray, and it is possible to prevent the surroundings of the desktop server from getting wet by the scattered drinking water.
According to the fifth aspect of the present invention, it is possible to efficiently cool the shoulder portion of the plastic bottle and the entire drinking water in the shoulder portion with the engaging cylindrical portion of the cylindrical peltier, and from the mouth portion of the plastic bottle held by the bottle stand. Cooling water just before being dispensed can be cooled well.
According to the sixth aspect of the present invention, when the cock outlet is opened to pour out the drinking water from the PET bottle, the outside air is sucked into the PET bottle held by the bottle stand through the air suction pipe. It is possible to smoothly pour the drinking water in the plastic bottle from the spout without any pulsation.
According to the seventh aspect, the bottle support part or the bottle stand can be formed into a stable shape with the lower side greatly widened, and the PET bottle has its mouth side facing downward regardless of the shape and size of the PET bottle. Can be held stably.
In addition, since the vertical length of the bottle support and the cylindrical Peltier is shorter than the PET bottle that is the object to be held by the bottle stand, the height of the bottle stand or the entire desktop server can be reduced. The server can be made small and compact.

It is a schematic front sectional drawing of the desktop server which abbreviate | omitted the partial cross section which shows one Embodiment of this invention.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 shows an embodiment of the present invention. In FIG. 1, a small desktop server 1 is configured to be able to drink drinking water 4 using a plastic bottle 3, and the mouth 9 side of the plastic bottle 3 storing the drinking water 4 is directed downward. And a cock stand 11 that is exchanged with a cap at the mouth portion 9 of the plastic bottle 3.
Here, the plastic bottle 3 held by the bottle stand 7 is generally used. For example, a plastic bottle 3 for 2 liters is used, and the plastic bottle 3 has a shoulder portion 14 extending from the trunk portion 13. The mouth portion 9 is protruded through, the shoulder portion 14 is formed in a tapered tube shape that gradually decreases toward the mouth portion 9, and the mouth portion 9 is formed in a small diameter cylindrical shape.
The bottle stand 7 has a cylindrical bottle support portion 17 that holds the plastic bottle 3 fitted therein. The bottle support portion 17 is formed in a cylindrical shape in the vertical direction, and the cylinder axis A is directed in the vertical direction.
As long as the bottle support portion 17 has a cylindrical shape, the bottle support portion 17 may be a cylindrical shape, a quadrangular rectangular tube shape, another polygonal rectangular tube shape, or a deformed cylindrical shape.
The bottle support part 17 has an upper cylinder hole 21 on the upper side and an inclined cylinder hole 22 on the lower side that is tapered downward from the lower end of the upper cylinder hole 21, and the inner peripheral surface 17 a of the bottle support part 17. Is inclined so that its lower side goes downward toward the cylinder axis A.
Both the upper and lower ends of the bottle support portion 17 are open, and the PET bottle 3 is inserted into the bottle support portion 17 from the upper end opening 24 thereof, and the mouth portion 9 of the PET bottle 3 is inserted from the lower end opening 25 of the bottle support portion 17. Protrudes downward.
The cylindrical bottle support portion 17 is formed in a tapered shape so as to be gradually narrowed upward, and is inclined so as to be directed to the cylindrical axis A as its outer peripheral surface 17b goes upward.
The length of the bottle support portion 17 in the vertical direction is set to be approximately half of the length of the 2 liter PET bottle 3, and the upper part of the 2 liter PET bottle 3 held by the bottle stand 7 is the bottle. It protrudes upward from the support part 17.
The cock 11 attached to the mouth portion 9 of the PET bottle 3 includes a cock body 28 that is externally fitted to the mouth portion 9 so as to project downward, and an operation lever 29 that is located on the outer side of the cock body 28. A spout 30 located below the mouth 9 is formed at the lower end of the main body 28.
By rotating the operation lever 29, for example, the valve rod in the cock body 28 moves up and down to open and close the spout 30 of the cock body 28, and the drinking water 4 in the plastic bottle 3 is poured out from the spout 30. Or, the pouring is stopped.
An air suction pipe 33 is provided in the cock main body 28 in a vertically penetrating manner, and external air is sucked into the PET bottle 3 through the air suction pipe 33.
Note that the upper side or the lower side of the air suction pipe 33 may protrude vertically from the cock body 28.
Further, a check valve may be provided at the upper end of the air suction pipe 33, so that the drinking water 4 in the PET bottle 3 enters the air suction pipe 33 and passes through the air suction pipe 33. It is possible to prevent the water 4 from leaking to the outside.
Further, instead of the air suction pipe 33, an air suction hole may be formed in the cock body 28 in a vertically penetrating manner. In this case, a check valve may be provided at the upper end of the air suction hole. Good.
The bottle stand 7 is provided with a cylindrical Peltier 36 that surrounds the outer periphery of the plastic bottle 3 and cools the drinking water 4 in the plastic bottle 3.
The cylindrical Peltier 36 has a cylindrical shape facing in the vertical direction, and its cylindrical axis coincides with the cylindrical axis A of the bottle support portion 17 and faces in the vertical direction.
The cylindrical Peltier 36 may be a cylindrical shape, a square rectangular tube shape, or another polygonal rectangular tube shape as long as the bottle support portion 17 is cylindrical. It may be present and has a cylindrical shape corresponding to the inner peripheral surface 17 a of the bottle support portion 17.
The cylindrical Peltier 36 includes an upper cylindrical portion 38 into which the body portion 13 of the plastic bottle 3 is fitted, and a tapered portion inclined downward from the upper cylindrical portion 38 so that the shoulder portion 14 of the plastic bottle 3 is engaged from above. And the inner peripheral surface of the upper cylindrical portion 38 and the engaging cylindrical portion 39 is the heat absorbing surface 36a of the cylindrical peltier 36, and the upper cylindrical portion 38 and the engaging cylindrical portion 39 are The outer peripheral surface is a heat generating surface 36 b of the cylindrical peltier 36.
Here, the cylindrical Peltier 36 is formed by forming a Peltier element having a Peltier effect, a metal plate, or the like into a cylindrical shape. This Peltier effect is the effect of heat absorption and release at the junction when different metals are joined and a voltage is applied. When two different metals are joined in series electrically and a direct current is passed, This is a phenomenon in which heat absorption and heat generation other than Joule heat occurs, and a temperature difference is created from voltage.
That is, when a current is passed through two different types of metals or semiconductors (N-type and P-type) joined at two points, the current also transports heat when moving from one contact point to the other. Is cooled and the other is warmed.
A Peltier element is a thermoelectric conversion device that has the effect of transferring heat from one surface to the other by passing a direct current, and is a semiconductor element that can perform cooling, heating, and temperature control. .
The operation principle of the Peltier element is that when a current is passed through the PN junction, an endothermic phenomenon occurs at the junction from N to P, and a heat dissipation phenomenon occurs at the junction from P to N. By flowing, heat is transported from the low temperature side (endothermic side) to the high temperature side (exothermic side).
When the shoulder portion 14 of the plastic bottle 3 is engaged with the engagement cylindrical portion 39 of the cylindrical Peltier 36 from above, the downward movement of the plastic bottle 3 held by the bottle stand 7 is restricted.
The upper and lower ends of the cylindrical Peltier 36 are open, and the cylindrical Peltier 36 has an upper end opening 41 and a lower end opening 42.
The cylindrical Peltier 36 is disposed along the inner peripheral surface 17a of the bottle support 17 and is fixed to the inner peripheral surface 17a of the bottle support 17 by an appropriate fixing means such as an adhesive. 36 is configured to hold the PET bottle 3 through the pipe 36, and the cylindrical Peltier 36 is configured to surround the outer periphery of the PET bottle 3 held by the bottle stand 7 from the body portion 13 to the shoulder portion 14. Has been.
The length of the cylindrical Peltier 36 in the vertical direction is set to be about half of the length of the 2 liter PET bottle 3 as in the case of the bottle support portion 17, and the length for the 2 liter held by the bottle stand 7 is set. The upper part of the PET bottle 3 protrudes upward from the cylindrical Peltier 36.
The engagement cylinder portion 39 of the cylindrical Peltier 36 surrounds from the upper end of the shoulder portion 14 of the plastic bottle 3 held by the bottle stand 7 to the vicinity of the mouth portion 9 of the shoulder portion 14 located immediately above the operation lever 29. ing.
The lower end of the engagement cylinder part 39 of the cylindrical Peltier 36 is opened, and the mouth part 9 of the plastic bottle 3 held by the bottle stand 7 and the cock 11 attached to the mouth part 9 are connected to the bottle support part 17 and A receiving tray 45 for placing a cup 44 for receiving the drinking water 4 of the plastic bottle 3 is provided below the lower end opening 42 of the engaging cylinder portion 39 of the cylindrical Peltier 36 that protrudes downward from the cylindrical Peltier 36. .
In addition, what is necessary is just to form the bottle stand 7, the bottle support part 17, the saucer 45, etc. integrally with a synthetic resin. Moreover, the bottle support part 17 may be formed in the hollow shape which has a cavity between the internal peripheral surface 17a and the outer peripheral surface 17b, and may be formed in the solid shape which does not have a cavity inside.
According to the above embodiment, when the plastic bottle 3 is set on the bottle stand 7, the cap 11 is externally attached by screwing or the like by replacing the cap with the mouth 9 of the plastic bottle 3 in which the drinking water 4 is stored. At the same time, the plastic bottle 3 is inserted from the upper end opening 24 of the bottle support portion 17 with the mouth portion 9 facing downward, and the plastic bottle 3 is fitted and held in the bottle support portion 17. The mouth portion 9 of the PET bottle 3 and the cock 11 attached to the mouth portion 9 may be protruded downward, and the PET bottle 3 in which the drinking water 4 is stored is the bottle stand 7 with the mouth portion 9 side facing downward. Easy and stable to hold.
When drinking the drinking water 4 in the plastic bottle 3 in which the drinking water 4 is stored, the cup 44 is placed on the tray 45 and the operation lever 29 of the cock 11 is rotated to open the spout 30 of the cock 11. For example, the drinking water 4 in the plastic bottle 3 cooled by the cylindrical Peltier 36 from the spout 30 is poured into the cup 44, and the cooled drinking water 4 can be easily consumed.
And in the said embodiment, since the cylindrical peltier 36 which encloses the outer periphery of the plastic bottle 3 and cools the drinking water 4 in the plastic bottle 3 is provided in the bottle stand 7, the peltier effect is obtained by the cylindrical peltier 36. Thus, the drinking water 4 in the plastic bottle 3 can be cooled effectively and can be beveraged.
The cylindrical Peltier 36 can be easily configured by forming a Peltier element having a Peltier effect, a metal plate, or the like into a cylindrical shape. The cylindrical Peltier 36 has a very simple configuration, and a cooling medium is used. The movable part as in the case of circulation is not necessary, and the entire desktop server 1 can be manufactured with a simple structure and at a low cost.
And since it cools using a Peltier effect, a movable part like when circulating a cooling medium becomes unnecessary, and the drinking water 4 in the plastic bottle 3 can be cooled, without producing a noise.
Further, the cylindrical Peltier 36 has an upper cylindrical portion 38 in which the body portion 13 of the plastic bottle 3 is fitted, and a shoulder portion 14 of the plastic bottle 3 that is inclined downwardly from the lower end of the upper cylindrical portion 38. And a cylindrical peltier 36 that surrounds the outer periphery from the body 13 to the shoulder 14 of the plastic bottle 3 held by the bottle stand 7. The inner peripheral surfaces of the upper cylindrical portion 38 and the engaging cylindrical portion 39 are the heat absorbing surfaces 36a of the cylindrical peltier 36, and the outer peripheral surfaces of the upper cylindrical portion 38 and the engaging cylindrical portion 39 are the heat generation of the cylindrical peltier 36. Since the surface 36b is provided, the upper cylinder portion 38 and the engagement cylinder portion 39 of the cylindrical Peltier 36 effectively extend from the body portion 13 to the shoulder portion 14 of the plastic bottle 3 held by the bottle stand 7. It can be cooled, and in particular, the cylindrical pen on the outer peripheral surface of the barrel 13 of the PET bottle 3 The heat absorption surface 36a of the engagement tube portion 39 of the chain 36 can be made to extend over substantially the entire region, and the drinking water 4 in the plastic bottle 3 can be effectively cooled by a cooling means having a very simple structure, thereby saving power. The effect can also be expected.
Further, the bottle stand 7 has a cylindrical bottle support portion 17 that fits and holds the plastic bottle 3, and the cylindrical Peltier 36 is disposed along the inner peripheral surface 17 a of the bottle support portion 17. 7 is configured to hold the plastic bottle 3 via the cylindrical peltier 36, the bottle stand 7 to the bottle support portion 17 are connected to the plastic bottle 3 held by the bottle stand 7 via the cylindrical peltier 36. Therefore, in order to hold the PET bottle 3, it is possible to make all of the portions that contact the PET bottle 3 as the heat absorbing surface 36a of the cylindrical Peltier 36, so that the cooling object can be cooled very efficiently. The drinking water 4 in a certain PET bottle 3 thru | or PET bottle 3 can be cooled.
Moreover, the lower end of the engagement cylinder part 39 of the cylindrical Peltier 36 is opened, and the mouth part 9 of the plastic bottle 3 held by the bottle stand 7 and the cock 11 attached to the mouth part 9 are used as the bottle support part. 17 and a cylindrical peltier 36, and a receiving tray 45 for placing a cup 44 for receiving the drinking water 4 of the plastic bottle 3 is provided below the lower end opening 25 of the engaging cylindrical portion 39 of the cylindrical peltier 36. Therefore, the drinking water 4 cooled by the cylindrical Peltier 36 can be poured straight out from the mouth 9 of the plastic bottle 3 held on the bottle stand 7, and the entire desktop server 1 can be removed. It can be simple and easy to structure.
In addition, when the drinking water 4 poured out from the mouth portion 9 of the plastic bottle 3 is received by the cup 44, the drinking water 4 scattered by the cup 45 can be received by the receiving tray 45. It can prevent getting wet.
The cock 11 attached to the mouth 9 of the plastic bottle 3 includes a cock main body 28 that is externally fitted to the mouth 9 so as to protrude downward, and an operation lever 29 that is located outside the cock main body 28. The spout 30 is formed at the lower end of the cock main body 28, and the engagement cylinder 39 of the cylindrical Peltier 36 is located immediately above the upper end of the shoulder 14 of the plastic bottle 3 held by the bottle stand 7. Since it surrounds up to the vicinity of the mouth portion 9 of the shoulder portion 14 positioned above, the shoulder portion 14 of the PET bottle 3 and the entire drinking water 4 in the shoulder portion 14 are covered by the engaging tube portion 39 of the tubular Peltier 36. The cooling water can be efficiently cooled, and the cooling water just before being poured out from the mouth portion 9 of the plastic bottle 3 held on the bottle stand 7 can be well cooled.
Further, the cock body 28 is provided with an air suction pipe 33 penetrating vertically, and the outside air is sucked into the PET bottle 3 through the air suction pipe 33, so that the spout 30 of the cock 11 is provided. When opening and pouring the drinking water 4 of the plastic bottle 3, the outside air is sucked into the plastic bottle 3 held by the bottle stand 7 through the air suction pipe 33. The drinking water 4 in the bottle 3 can be smoothly poured out without pulsating.
In addition, the cylindrical bottle support portion 17 is formed in a tapered shape so as to be gradually narrowed upward, and the outer peripheral surface 17b is inclined so as to be directed toward the cylindrical axis A as it goes upward. The bottle support portion 17 to the bottle stand 7 can be formed in a stable shape with the lower side greatly widened, and the PET bottle 3 is stable with its mouth 9 side facing downward regardless of the shape and size of the PET bottle 3. Can be held in.
Further, the length of the bottle support 17 and the cylindrical Peltier 36 in the vertical direction is such that the upper part of the 2 liter PET bottle 3 held on the bottle stand 7 protrudes upward from the bottle support 17 and the cylindrical Peltier 36. Since the length is set to be shorter than the length of the 2 liter PET bottle 3, the bottle support portion 17 and the cylindrical Peltier 36 are located above and below the 2 liter PET bottle 3 to be held by the bottle stand 7. Since the length in the direction is shortened, the height of the bottle stand 7 or the entire desktop server 1 can be reduced, and the desktop server 1 can be made small and compact.
In the above embodiment, the 2 liter PET bottle 3 is held on the bottle stand 7 with the mouth 9 facing downward, but is held by the bottle stand 7 to the bottle support 17. The PET bottle 3 is not limited to a 2 liter PET bottle, and the bottle stand 7 to the bottle support portion 17 may hold a 4 liter PET bottle larger than the 2 liter PET bottle. Moreover, you may make it hold | maintain a PET bottle smaller than the PET bottle for 2 liters.
In this case, the size of the bottle stand 7 to the bottle support portion 17 may be changed in accordance with the size of the plastic bottle 3 to be held, and for example, the tube hole of the bottle support portion 17 is set to be large in advance. In addition, the plastic bottle 3 having various sizes and shapes may be held.

DESCRIPTION OF SYMBOLS 1 Desktop server 3 Plastic bottle 4 Drinking water 7 Bottle stand 9 Mouth part 11 Cock 13 Body part 14 Shoulder part 17 Bottle support part 17a Inner peripheral surface 17b Outer peripheral surface 28 Cock main body 29 Operation lever 30 Outlet 33 Air suction pipe 36 Cylindrical shape Peltier 36a Heat absorption surface 36b Heat generation surface 38 Upper tube portion 39 Engagement tube portion 42 Lower end opening 44 Cup 45 Receptacle A Tube axis

Claims (7)

A bottle stand (7) is provided for holding the plastic bottle (3) containing the drinking water (4) with the mouth (9) side facing downward, and the mouth (9) of the plastic bottle (3). A desktop server equipped with a cock (11) that is mounted in exchange for a cap,
The bottle stand (7) is provided with a cylindrical peltier (36) that surrounds the outer periphery of the plastic bottle (3) and cools the drinking water (4) in the plastic bottle (3). Desktop server.   The cylindrical peltier (36) is inclined so as to taper downward from the upper cylindrical portion (38) into which the body portion (13) of the plastic bottle (3) is fitted, and from the lower end of the upper cylindrical portion (38). And an engagement cylinder part (39) with which the shoulder part (14) of the plastic bottle (3) is engaged from above, and the cylindrical Peltier (36) is held by the bottle stand (7) It is comprised so that the outer periphery may be surrounded from the trunk | drum (13) of a bottle (3) to a shoulder part (14), and the inner peripheral surface of an upper cylinder part (38) and an engagement cylinder part (39) is cylindrical. The heat absorbing surface (36a) of the Peltier (36) is used, and the outer peripheral surfaces of the upper tube portion (38) and the engaging tube portion (39) are heat generating surfaces (36b) of the cylindrical Peltier (36). The desktop server according to claim 1.   The bottle stand (7) has a cylindrical bottle support portion (17) that holds and holds the plastic bottle (3), and the cylindrical shape extends along the inner peripheral surface (17a) of the bottle support portion (17). The desktop server according to claim 2, characterized in that a Peltier (36) is arranged and the bottle stand (7) is configured to hold the PET bottle (3) via a cylindrical Peltier (36). .   The lower end of the engagement cylinder part (39) of the cylindrical Peltier (36) is opened and attached to the mouth part (9) and the mouth part (9) of the plastic bottle (3) held by the bottle stand (7). The cock (11) is protruded downward from the bottle support (17) and the cylindrical peltier (36), and is below the lower end opening (42) of the engagement cylinder (39) of the cylindrical peltier (36). The desktop server according to claim 3, characterized in that a receiving tray (45) for placing a cup (44) for receiving drinking water (4) of a plastic bottle (3) is provided.   The cock (11) attached to the mouth part (9) of the plastic bottle (3) includes a cock body (28) externally attached to the mouth part (9) so as to project downward, and an outer side of the cock body (28). And an operation lever (29) positioned in the direction, a spout (30) is formed at the lower end of the cock body (28), and the engagement cylinder (39) of the cylindrical Peltier (36) is a bottle stand. It surrounds from the upper end of the shoulder (14) of the plastic bottle (3) held by (7) to the vicinity of the mouth (9) of the shoulder (14) located immediately above the operation lever (29). The desktop server according to any one of claims 2 to 4, wherein   The cock body (28) is provided with an air suction pipe (33) penetrating vertically, and is configured to suck outside air into the plastic bottle (3) through the air suction pipe (33). The desktop server according to claim 5.   The cylindrical bottle support portion (17) is formed in a tapered shape so that it gradually becomes thinner upward, and the outer peripheral surface (17b) is inclined toward the cylindrical axis (A) as it goes upward. The bottle support (17) and the cylindrical Peltier (17) so that the upper part of the PET bottle (3) held by the bottle stand (7) protrudes upward from the bottle support (17) and the cylindrical Peltier (36). The desktop server according to claim 3, wherein the vertical length of 36) is set shorter than the length of the plastic bottle (3).