CN201609278U

CN201609278U - Double-rotating chamber cooling cup

Info

Publication number: CN201609278U
Application number: CN2010201286713U
Authority: CN
Inventors: 佘玲
Original assignee: Chengdu Junfeng Technology Development Co Ltd
Current assignee: Chengdu Junfeng Technology Development Co Ltd
Priority date: 2010-02-11
Filing date: 2010-02-11
Publication date: 2010-10-20
Anticipated expiration: 2020-02-11

Abstract

The utility model relates to a cup, in particular to a double-rotating chamber cooling cup which comprises a bottom cover, a cup casing, a cold water chamber, a hot water chamber, a top cover and isolating sheets. The cup casing is cylindrical, The cold water chamber and the hot water chamber are a pair of spaces in the cup casing, which are in an incense coil shaped on a plane and are filled with each other, the cup casing is an outer wall of two spaces, two spaces are separated by the isolating sheets in a radiated helical form on the plane. The upper end of the cold water chamber is closed and the lower end thereof is opened, the lower end of the hot water chamber is closed and the upper end thereof is opened. Compared with the prior art, the utility model has the advantages that the thermal resistance can be greatly reduced, the cooling efficiency can be improved, and the double-rotating chamber cooling cup has higher health safety.

Description

Bispin chamber cooling cup

Technical field

The utility model relates to a kind of cup, particularly relates to a kind of bispin chamber cooling cup.

Background technology

The applicant has submitted to name to be called the patent application of " bispin chamber cooling cup " on 01 14th, 2009, designed a kind of can the cooling so that the water tumbler of drinking summer rapidly scalding water.The principal character of this utility model is: with a pair of stainless steel, in the plane become incense coil shape, fill out and close the hot water cup and the cold water-cup that form and put into a cup shell mutually.By the hot water in hot water cup and the cold water-cup and cold water mutually in large area indirect heat transfer to reach the effect of quick reduction water temperature.There is following some disadvantage in the said structure feature:

The equal opening of hot water cup and cold water-cup up because the cooling medium be that when drinking water, water tumbler has inclination slightly not through the running water of sterilization, the running water in the cold water-cup pollutes boiling water with regard to entering in the hot water cup easily.

2. in this design bowl cover is not set, is not easy to carry boiling water.Immediately be provided with bowl cover, because the gross area on the top sides edge of heat, cold water-cup is bigger, they are less to the pressure of bowl cover, so bowl cover is difficult to the water tumbler sealing also is difficult to the place suitable for reading of hot water cup and cold water-cup is isolated mutually.

3. why be provided with a glass shell in this design, relation, heat independent of each other, cold water-cup will be fixed as a whole movingly in order to be mutually.But increased the resistance of heat transfer between boiling hot water and the outside air like this, delayed the temperature fall time of boiling hot water.

4. owing to scald the isolation that hot water wall of cup, cold water wall of cup and the air space between the two are arranged between water and the cold water, these three layers of spacer mediums have also increased the resistance of heat transfer between boiling hot water and the cold water greatly, reduce the cooling rate of boiling hot water, also increased cost of manufacture simultaneously.

The utility model content

The present invention provides a kind of bispin chamber cooling cup with higher cooling efficient for solving the deficiencies in the prior art.

The scheme that solves the utility model technical problem is: bispin chamber cooling cup is made of bottom, cup shell, cold water cavity, hot-water cavity, top cover and spacer.The cup shell is that columniform, wall thickness is stainless housing in 0.5-0.8mm, material, cold water cavity and hot-water cavity are to be in a pair of in glass shell to become incense coil shape in the plane and fill out the space of closing mutually, the cup shell is the outer wall in described two spaces, between described two spaces by being that stainless spacer is separated for spiral helicine, the wall thickness of radiation in 0.2-0.4mm, material in the plane.The upper port closed lower mouth of cold water cavity is opened wide, and the lower port closed upper end mouth of hot-water cavity is opened wide.The upper and lower end of spacer is respectively than the upper and lower end indentation 3-5mm of cup shell.Top cover and bottom cover in the top and bottom of cup shell respectively and combine with screw thread with the cup shell respectively.

Adopt such scheme, can reach following effect:

1. when blooming water, earlier cold water is poured in the cold water cavity, covered and to seal off water again behind the bottom and pour in the hot-water cavity, because cold water cavity and hot-water cavity are filled out mutually and closed and have a very big contact area, cold water can fully absorb the heat in the hot water, thereby reaches the effect of fast cooling.

2. owing to only have one deck wall thickness to separate between cold water cavity and the hot-water cavity, compared with prior art, greatly reduce thermal resistance, improved the efficient of cooling at spacer 0.2-0.4mm, stainless steel.

3. because cold water cavity is in opposite both direction with the opening of hot-water cavity, avoid cooling medium to pollute boiling water, compared with prior art had higher healthy and safe property.

Since the upper and lower end of spacer respectively than the upper and lower end indentation 3-5mm of cup shell, this has just guaranteed when screwing bottom and top cover, the interior end of bottom and top cover, only contact with the upper and lower end of cup shell respectively, guarantees to have enough pressure can make bottom and top cover with the space sealing in the cup shell.

5. because the utility model only uses the effect that just can reach rapid refrigeration with the isopyknic running water of boiling water, need not to use electric energy, therefore have the advantage that energy consumption is low, refrigerating efficiency is high, the utility model also has simple in structure simultaneously, the advantage easy to operate, that applicability is strong.

Description of drawings

Fig. 1 is the utility model floor map suitable for reading;

Fig. 2 is the A-A profile of Fig. 1;

Fig. 3 is the B-B profile of Fig. 2.

Among the figure: 1. 2. glasss of shells of bottom, 3. cold water cavities, 4. hot-water cavities, 5. top covers, 6. spacers

The specific embodiment

The invention will be further described below in conjunction with drawings and Examples.

Bispin chamber cooling cup is made of bottom 1, cup shell 2, cold water cavity 3, hot-water cavity 4, top cover 5 and spacer 6.Cup shell 2 is stainless housing for columniform, wall thickness in 0.8mm, material, cold water cavity and hot-water cavity are to be in a pair of in glass shell 2 to become incense coil shape in the plane and fill out the space of closing mutually, cup shell 2 is the outer walls in described two spaces, between described two spaces by being that stainless spacer 6 is separated for spiral helicine, the wall thickness of radiation in 0.4mm, material in the plane.The upper port closed lower mouth of cold water cavity 3 is opened wide, and the lower port closed upper end mouth of hot-water cavity 4 is opened wide.The upper and lower end of spacer 6 is respectively than the upper and lower end indentation 5mm of cup shell 2.Top cover 5 and bottom 1 cover in the top and bottom of cup shell 2 respectively and combine with screw thread with cup shell 2 respectively.

Claims

1. bispin chamber cooling cup, by bottom, the cup shell, cold water cavity, hot-water cavity, top cover and spacer constitute, it is characterized in that: the cup shell is columniform, wall thickness is at 0.5-0.8mm, material is stainless housing, cold water cavity and hot-water cavity are to be in a pair of in glass shell to become incense coil shape in the plane and fill out the space of closing mutually, the cup shell is the outer wall in described two spaces, pass through spiral helicine for radiation in the plane between described two spaces, wall thickness is at 0.2-0.4mm, material is that stainless spacer is separated, the upper port closed lower mouth of cold water cavity is opened wide, the lower port closed upper end mouth of hot-water cavity is opened wide, on the spacer, the lower end is respectively than on the cup shell, lower end indentation 3-5mm, top cover and bottom cover in the top and bottom of cup shell respectively and combine with screw thread with the cup shell respectively.