CN214712043U

CN214712043U - Glass heating container

Info

Publication number: CN214712043U
Application number: CN202021415501.3U
Authority: CN
Inventors: 程克勇; 李寿林
Original assignee: Fujian Huilun Infant And Child Articles Co ltd
Current assignee: Fujian Huilun Infant And Child Articles Co ltd
Priority date: 2020-06-29
Filing date: 2020-07-17
Publication date: 2021-11-16
Anticipated expiration: 2030-07-17
Also published as: CN111972993A; CN212438272U; CN214341743U; CN111759160A; CN111956066A; CN214128137U; CN111870120A; CN212788241U

Abstract

The utility model relates to a glass heating container, its characterized in that: the glass heating container comprises a glass cup body and a glass cup bottom integrated with the glass cup body, and the flatness tolerance of the bottom surface of the glass cup bottom is 0.02-0.30 mm; the utility model discloses glass heating container reasonable in design, cost of manufacture are low, easily sell, and can not produce electromagnetic radiation, can immerse the aquatic washing completely simultaneously to and heating efficiency is high.

Description

Glass heating container

The technical field is as follows:

the utility model relates to a glass heating container made of glass, which is mainly used for heating water and is used as a milk adjusting device, a health preserving kettle, an electric heating kettle, a tea boiling device and other application products.

Background art:

the existing kettles on the market at present have a variety of forms, such as stainless steel kettles, glass kettles, IH heating milk mixing kettles, full glass kettles and the like, but the kettles all have more or less defects:

heating components of stainless steel kettles and glass kettles are arranged at the bottom of a kettle body, the bottom of the kettle body is generally made of stainless steel materials which are contacted with water, the surface of the kettle body needs to be polished, and the polishing process is difficult to avoid dust brought in after polishing, so that rusts with different degrees can be caused to appear in the heating process to pollute the water; since the water is usually weakly alkaline, Ca (HCO) is contained therein₃)₂Dirt such as incrustation scale and the like generated after the kettle body is heated is easy to deposit on the heating plate, the kettle body cannot be completely put into water for thorough cleaning, and the drinking water quality cannot be guaranteed due to the dirt carried by the kettle body all the year round.

The IH heating milk mixing device is characterized in that a magnetic conductive material is fixed on the bottom of a glass cup body, so that liquid in the glass cup is electromagnetically heated through a base with an electromagnetic heating function, and the IH heating milk mixing device has the following defects: electromagnetic radiation can be generated during electromagnetic heating, the nursing bottle can bring physical injury to pregnant women and infants, the nursing bottle is not suitable for the requirements of nursing bottles in the field of mother and infant products on human health, the manufacturing cost is high by adopting the electromagnetic heating technology, and the wide use and the sale of products are restricted.

As another example, the whole glass kettle is made of whole glass, so that the whole glass kettle is beautiful and is purchased by customers due to the love to the appearance of the kettle, but tests show that the whole glass kettle needs more than one hour for heating 1200ml of water from 25 ℃ to 100 ℃, and the heating efficiency is extremely low.

The electric ceramic furnace is used for heating by utilizing an electric ceramic furnace like the existing full-glass kettle, the surface heating temperature of the electric ceramic furnace is up to more than 500 ℃, the surface emits strong red light radiation, the milk regulator is particularly not suitable for the requirements of the milk regulator in the field of mother and infant products on the health of human bodies under the requirement of dim light at night, the heat efficiency is low, and the temperature can not be accurately controlled.

The invention content is as follows:

in view of the above-mentioned a great deal of deficiencies of the prior art, the utility model aims to provide a glass heating container, this glass heating container reasonable in design, low in manufacturing cost, easily sale, and can not produce electromagnetic radiation, can immerse the aquatic washing completely simultaneously to and heating efficiency is high.

The utility model discloses glass heating container, its characterized in that: the glass cup comprises a glass cup body and a glass cup bottom integrated with the glass cup body, wherein the flatness tolerance of the bottom surface of the glass cup bottom is 0.02-0.30 mm.

Furthermore, the flatness tolerance of the bottom surface of the glass cup bottom is 0.03mm-0.08mm, and the thickness of the glass cup bottom is 1.0-2.2 mm.

Furthermore, the requirement of the flatness tolerance of the bottom surface of the glass cup is met by grinding with water.

Furthermore, the bottom surface of the glass cup bottom is ground flat by a water mill and then is subjected to sand blasting treatment.

Furthermore, the bottom surface of the glass cup is coated with a coating with heat-conducting metal powder.

Furthermore, a heat-conducting metal film layer is bonded or sintered on the bottom surface of the glass cup bottom.

Furthermore, a groove is formed in the bottom surface of the glass cup bottom, a heat conduction metal plate is bonded in the groove, and the thickness of the heat conduction metal plate is larger than the depth of the groove.

Furthermore, a heat-conducting metal plate is bonded on the bottom surface of the glass cup bottom, the flatness tolerance of the bottom surface of the heat-conducting metal plate is 0.02-0.30mm, and the flatness tolerance of the bottom surface of the glass cup bottom is more than 0.01 mm.

Furthermore, the lower part of the glass heating container is sunk into a base with a sunk groove for heating, the bottom of the sunk groove is provided with an electric heating body attached to the bottom surface of the glass heating container, the flatness tolerance of the surface, attached to the bottom surface of the glass heating container, of the electric heating body is 0.02-0.30mm, and the smoothness of the surface, attached to the bottom surface of the glass heating container, of the electric heating body is more than 5 grades.

Furthermore, the electric heating body comprises an aluminum substrate and an electric heating pipe which is arranged on the lower surface of the aluminum substrate in a spiral shape, and the upper surface of the aluminum substrate is attached to the bottom surface of the glass heating container.

Furthermore, the electric heating body comprises a die-casting aluminum plate and an electric heating pipe, wherein the surface of the die-casting aluminum plate is coated with teflon, and the upper surface of the die-casting aluminum plate is attached to the bottom surface of the glass heating container.

Furthermore, an NTC temperature-sensing controller and a travel switch are arranged on the side wall of the concave groove, the NTC temperature-sensing controller and the travel switch are electrically connected with a controller positioned in the base, and the controller is electrically connected with an electric heating tube of the electric heating body; the groove depth of the concave groove is 10-120 mm; the power of the electric heating tube of the electric heating body is between 150 and 1500W.

The utility model discloses glass heating container's manufacturing method, glass heating container includes glass cup body and the glass cup bottom of the cup that forms an organic whole with glass cup body, the flatness tolerance of glass cup bottom surface is 0.02-0.30mm, and during the preparation, glass heating container makes the body according to the shape requirement, and the bottom surface of this glass heating container body is flat, carries out the terrazzo with the bottom surface of this glass heating container body and grinds the level to make the flatness tolerance of this bottom surface at 0.02-0.30mm, and the thickness of control glass cup bottom is at 1.0-2.0 mm.

After the bottom surface of the glass heating container is ground flat and cleaned by a water mill, a coating with heat-conducting metal powder is sprayed by sand, brushed or silk-screen printed on the bottom surface; or a heat-conducting metal film layer is bonded or sintered on the bottom surface; or the bottom surface is bonded with a heat-conducting metal plate by using heat-conducting silica gel.

The bottom surface of the bottom of the manufactured glass cup is provided with a groove, a prefabricated heat-conducting metal plate is bonded in the groove by using heat-conducting silica gel, the thickness of the heat-conducting metal plate is larger than the depth of the groove, the diameter of the heat-conducting metal plate is equivalent to that of the groove, and the flatness tolerance of the bottom surface of the heat-conducting metal plate is 0.02-0.30 mm.

The glass heating container of the utility model is ground on the bottom surface of the glass cup bottom to ensure that the flatness tolerance of the bottom surface reaches 0.05mm, thereby ensuring that the surface which has similar flatness tolerance requirements with the electric heating body of the base can be attached to the maximum extent, thereby being beneficial to obviously improving the heating efficiency of the glass heating container; the glass heating container is made of glass on the whole body, does not have any electronic element, and can be immersed into water to be cleaned on the whole body, so that dirt on the glass heating container can be completely removed, and the drinking water quality of people is ensured; meanwhile, the glass heating container does not generate electromagnetic radiation by using an electromagnetic heating technology or infrared radiation generated by an electric ceramic furnace, so that the health of a human body is not influenced, and the glass heating container is simple to manufacture, low in cost and easy to sell, popularize and use; in addition this application is through base electric heat-generating body and the heat-conduction that the bottom of cup is the face contact, and heat conduction area is big and even, has solved current heating kettle or transfer the milk ware and at the in-process of boiling water, because of heating inhomogeneous production air blasting arouses the problem of too big noise.

Description of the drawings:

FIG. 1 is a schematic sectional view of a glass heating vessel according to the present invention;

FIG. 2 is a top view of FIG. 1;

FIG. 3 is an enlarged view of portion A of the first embodiment of FIG. 1;

FIG. 4 is an enlarged view of section A of the second embodiment of FIG. 1;

FIG. 5 is an enlarged view of section A of the third embodiment of FIG. 1;

FIG. 6 is an enlarged view of section A of the fourth embodiment of FIG. 1;

FIG. 7 is an enlarged view of section A of the fifth embodiment of FIG. 1;

FIG. 8 is an enlarged view of section A of the alternate embodiment of FIG. 1;

FIG. 9 is a schematic cross-sectional configuration of the base;

FIG. 10 is a schematic view of a glass heating vessel in the base;

fig. 11 is a control schematic block diagram.

The specific implementation mode is as follows:

the method of the present invention will be described in further detail with reference to examples. It should be noted that the protection scope of the present invention should include, but not be limited to, the technical content disclosed in the present embodiment.

Embodiment 1, the utility model discloses glass heating vessel includes glass cup body 1 and the glass cup bottom 2 that forms an organic whole with the glass cup body, the flatness tolerance of 2 bottom surfaces 3 of glass cup bottom is 0.02-0.30mm, the flatness tolerance of 2 bottom surfaces 3 preferred of glass cup bottom is 0.03mm-0.05 mm, or 0.03-0.08mm, the thickness of 2 bottom surfaces of glass cup of this embodiment is between 1.0-2.2mm, preferred adoption 1.3-1.5mm, the adoption of above-mentioned bottom surface flatness tolerance of glass cup bottom and glass cup bottom thickness is the preferred scheme that obtains through infinite time test, the glass cup bottom surface flatness tolerance value is bigger again, its heating efficiency will be worsened, and the flatness tolerance value is smaller again, the processing degree of difficulty is very big, can produce a large amount of defective products, thereby increase the cost of manufacture.

The main reason that the glass container as a water boiler cannot be widely popularized is that the heating efficiency of the water boiler of the existing glass container is extremely low, namely, as mentioned in the background art, 1200ml of water needs more than one hour for heating from 25 ℃ to 100 ℃, but the problem which cannot be overcome for a long time is overcome by the glass container, so that the glass container is a revolutionary product; the applicant finds through research that the reason that the heating efficiency of the glass container adopting the heating pipe arranged on the bottom surface is low is that the surface of the bottom surface of the glass container is high, low and extremely uneven in microscopic view, the contact between the heating pipe and the bottom surface of the glass container is line contact, the contact area is extremely effective, the heating efficiency is low and uneven, and even if the electric heating body constructed by the application is adopted as a heating source, the contact area between the electric heating body and the bottom surface of the glass container is still limited, and the heating efficiency is still low.

The flatness tolerance of 3 at glass bottom of cup bottom surface 0.05mm, thickness 1.5 mm's this application product passes through the experiment (the heating element who adopts in this experiment is the electric heat-generating body of this application structure) under the same heating power with current full glass kettle etc. condition, 1200ml water of this application heating container dress heats to 100 ℃ from 25 ℃ only need 13 minutes's time, and current full glass kettle dress 1200ml water heats to 100 ℃ needs 60 minutes's time from 25 ℃, the glass heating container of this application structure makes heating efficiency show the improvement.

Through tests, the heating container is filled with 1200ml of water and heated from 25 ℃ to 100 ℃ under the same conditions, the water boiling time is increased, and the water boiling time with the flatness tolerance of 0.02, 0.03, 0.04, 0.05, 0.08, 0.10, 0.13, 0.15, 0.18, 0.20, 0.25, 0.30, 0.40 and 0.50 mm is respectively 11.8 minutes, 12 minutes, 12.4 minutes, 13 minutes, 14.7 minutes, 16.9 minutes, 19.8 minutes, 22.7 minutes, 26.1 minutes, 29.3 minutes, 33.5 minutes, 38 minutes, 44.6 minutes and 51.3 minutes, so the flatness tolerance of 0.03-0.08mm is preferably adopted.

The whole body of the glass heating container is made of glass, and the glass heating container can be immersed into water for cleaning without any electronic element (the electronic element is positioned in the base, and the specific structure of the base is described in detail below), so that the dirt on the glass heating container can be completely removed, and the drinking water quality of people is ensured; meanwhile, the glass heating container does not generate electromagnetic radiation or infrared radiation generated by an electric ceramic furnace without using an electromagnetic heating technology, and does not have health influence on human bodies, and the glass heating container is simple to manufacture, low in cost and easy to sell, popularize and use; in addition this application is through base electric heat-generating body and the heat-conduction of bottom of cup for the face contact, heat conduction area is big and even, can be covered with tiny bubble at glass bottom of cup internal surface in the heating process, the noise that produces when tiny bubble explodes is less, and the electric heating pipe that current generally adds hot water kettle or transfers the milk ware is the ring form and fixes at the bottom of cup, make its heating concentrate on the round of ring, the bubble of production also concentrates on the round of this ring, at the in-process of heating up water, will produce the air blasting of great bubble because of heating inhomogeneous at the round of ring, arouse too big noise.

In order to realize the flatness tolerance of the bottom surface 3 of the glass cup bottom 2, the requirement of the flatness tolerance of the bottom surface of the glass cup bottom is realized by grinding with a water mill, the water mill can be used for grinding the bottom surface of the glass cup by continuously dripping water on a grinding disc rotating at a high speed to the surface of the grinding disc, manually or by a mechanical hand, the bottom surface of the glass cup is pressed on the surface of the grinding disc, the flatness tolerance of the bottom surface of the glass cup bottom reaches the requirement after grinding for a certain time, and the grinding of the bottom surface 3 of the glass cup bottom can also be realized by other modes.

The difference between the embodiment 1-1 and the embodiment 1-1 is that the most economical appearance surface can be obtained by sand blasting after the water grinding and flattening of the bottom surface 3 of the glass cup bottom 2, the granularity of sand blasting of the bottom surface of the glass cup bottom is between 0.01 and 0.1mm, and the sand blasting treatment can obtain the most economical appearance and stability requirements on the premise of not causing excessive damage to the heat conduction performance.

Example 2, this example 2 differs from example 1 in that, after the bottom surface 3 of the glass cup bottom 2 is ground flat and cleaned (cleaned with water and alcohol), a coating 4 with a heat-conducting metal powder, which may be a metal aluminum powder or a metal copper powder, is coated on the bottom surface of the glass cup, the coating 4 with the heat-conducting metal powder is coated by screen printing, the coating 4 is a high temperature resistant paint containing the heat-conducting metal powder, which is commercially available, and the heat-conducting metal powder is mixed into the coating 4, and the thickness of the coating 4 is 0.005-0.05 mm; the heating efficiency can be further improved by coating the coating 4 with the heat-conducting metal powder on the ground bottom surface 3 of the glass cup bottom 2, and the same test as the example 1 is carried out, namely 1200ml of water filled in the glass heating container of the invention is heated from 25 ℃ to 100 ℃ for only about 12 minutes, the heating efficiency is improved by about 8-30% compared with the example 1, the example 2 also has the same other advantages as the example 1, a ground surface is formed on the bottom surface of the glass container by grinding the bottom surface with water and the like in the example, the flatness tolerance of the bottom surface is 0.03-0.05, and the roughness is higher than that before grinding, the firmness of the silk-screen printing coating 4 is also improved.

In embodiment 3, a heat conductive metal film is bonded or sintered to the bottom surface of the glass cup.

The difference between the embodiment 3 and the embodiment 1 is that after the bottom surface 3 of the glass cup bottom 2 is ground flat and cleaned, the bottom surface of the glass cup bottom is bonded or sintered with a heat-conducting metal film layer 5, the bonding can adopt heat-conducting silica gel K, the surface of the heat-conducting metal film layer 5 is coated with heat-conducting silica gel during manufacturing, or the bottom surface of the glass cup bottom is coated with heat-conducting silica gel, and then the heat-conducting metal film layer 5 is attached to the heat-conducting silica gel and extruded flat; or the heat-conducting metal film layer 5 is directly sintered on the bottom surface 3 of the glass cup bottom 2 by heating, the heat-conducting metal film layer 5 is bonded or sintered on the bottom surface of the glass cup bottom, the heat-conducting metal film layer 5 can be a copper film layer, an aluminum film layer, a silver film layer and the like, the thickness of the heat-conducting metal film layer is 0.005-0.5mm, the heat-conducting metal film layer 5 is preferably sintered on the bottom surface of the glass cup bottom in the embodiment, and the flatness tolerance of the rear surface of the mounted film layer can be better ensured by the mode; similarly, the scheme of the embodiment 3 for sintering the heat-conducting metal film layer 5 on the bottom surface of the glass cup bottom is the same as that of the embodiment 1, and the same test is adopted in the embodiment 1, namely 1200ml of water filled in the glass heating container of the present invention is heated from 25 ℃ to 100 ℃ for about 12 minutes, the heating efficiency is improved by about 8% -30% compared with the embodiment 1, the embodiment 3 is equivalent to the embodiment 2, the embodiment 3 also has the same advantages as the embodiment 1, the frosted surface is formed on the bottom surface by the water grinding and leveling of the bottom surface of the glass container, the flatness tolerance of the bottom surface is 0.03-0.05, and the roughness is higher than that before the frosting, so that the firmness of connection between the heat-conducting metal film layer 5 and the bottom surface is also improved.

In the embodiment 4, the bottom surface of the glass cup is provided with the groove 6, the heat-conducting metal plate 14 is bonded in the groove, the thickness of the heat-conducting metal plate is larger than the depth of the groove, the flatness tolerance of the bottom surface of the heat-conducting metal plate is 0.03-0.05mm, the flatness tolerance of the groove 6 is not required, when manufacturing, namely, a glass blank body with a groove 6 is manufactured in advance, a heat-conducting metal plate with the bottom surface flatness tolerance of 0.03-0.05mm is manufactured in advance, the shape and the size of the heat-conducting metal plate are equivalent to those of the groove, heat-conducting silica gel is coated on the heat-conducting metal plate, the heat-conducting metal plate coated with the heat-conducting silica gel is pressed into the groove 6, the thickness of the bottom of the glass body of the embodiment can be 1.3-2.2 mm, the thickness of the heat-conducting metal plate is 1.5-3.3 mm, the embodiment 4 adopts the same test as the embodiment 1, that is, 1200ml of water in the glass heating container of the present application is heated from 25 ℃ to 100 ℃ for only about 13-15 minutes.

Example 5, the heat-conducting metal plate 14 is bonded to the bottom surface 3 of the glass cup, the bonding can be made of heat-conducting silica gel K, the thickness of the bottom surface of the glass blank in this example can be 1.3-2.2 mm, and the thickness of the heat-conducting metal plate is 1.5-3.3 mm, when manufacturing, the bottom surface 3 of the glass cup can be polished or not polished, the heat-conducting metal plate 14 is attached after the heat-conducting silica gel is coated, the flatness tolerance of the bottom surface of the prefabricated heat-conducting metal plate is 0.02-0.05m, and the smoothness of the bottom surface of the heat-conducting metal plate is more than 5 grade (which means the requirement that the smoothness is higher than 5 grade); the flatness tolerance of the bottom surface of the heat conductive metal plate is required to ensure the adhesion to the surface of the electric heating element 9, and the same test as in example 1 was carried out in example 5, in which 1200ml of water contained in the glass heating vessel of this application was heated from 25 ℃ to 100 ℃ for about 13 to 15 minutes.

The heat-conducting metal plate can be an aluminum plate, the glass cup is a water cup or a kettle which is completely made of glass, the water cup which is completely made of glass can be convenient for people to check the hot water condition in the cup, the glass is easy to clean and has better health and environmental protection effects, and the heat-conducting metal plate is considered as the protection range of the application for adding accessories made of other materials on the glass cup body or the glass cup bottom; the heat-conducting metal plate 14 and the aluminum substrate 10 of the electric heating element 9 may be round, and it is convenient to process the aluminum substrate in a round configuration, although other shapes are considered to fall within the scope of the present application,

usually, the glass body 1 and the glass bottom 2 are in fillet transition, that is, the edge of the glass bottom 2 is a fillet, and the heat-conducting coating, the heat-conducting film layer or the heat-conducting plate of the

above embodiments

2, 3 or 5 can extend to the fillet edge of the glass bottom 2, so as to play a certain protection role for the glass container of the present application, but have a certain difficulty in processing the heat-conducting plate, and certainly can not extend to the edge of the glass bottom 2; in order to effectively buffer the impact force generated by side collision, a circle of buffer silica gel ring is added at the round angle of the bottom of the glass cup to protect the glass cup from being damaged.

The glass heating containers of the embodiments 1 to 5 can be used by being placed in a base, the lower part of the glass heating container is placed in a base 8 with a concave groove 7 for heating, the bottom of the concave groove 7 is provided with an electric heating element 9 attached to the bottom surface of the glass heating container, the flatness tolerance of the surface of the electric heating element 9 attached to the bottom surface of the glass heating container is 0.02-0.30mm, the smoothness is more than 5 grade, the better flatness tolerance of the surface of the electric heating element 9 is 0.03-0.05mm, the surface of the electric heating element 9 can be better attached to the bottom surface of the glass cup through the flatness tolerance requirement of the electric heating element 9, the heat of the electric heating element 9 can be better conducted to the glass cup bottom, and the heating efficiency is ensured; the electric heating tube of the existing heating kettle or milk regulator is fixed at the bottom of the glass cup in a circular ring shape, so that the heating is concentrated in one circle of the circular ring, the generated bubbles are also concentrated in one circle of the circular ring, and the air explosion of the larger bubbles generated in one circle of the circular ring due to uneven heating can cause overlarge noise in the water boiling process; this application is the heat-conduction of face and face through electric heat-generating body and bottom of cup, and heat conduction area is big and even, is favorable to reducing the air blasting noise of boiling water bubble.

In order to design reasonably, the electric heating body 9 comprises an aluminum substrate 10 and an electric heating pipe 11 which is arranged on the lower surface of the aluminum substrate and is spirally arranged, and the upper surface of the aluminum substrate 10 is attached to the bottom surface 3 of the glass heating container; the thickness of the aluminum substrate 10 is more than or equal to 2.5mm, the surface is mirror-polished, the flatness tolerance is preferably less than or equal to 0.03mm, the spirally arranged electric heating tube 7 can make the heating more uniform, or the electric heating element comprises a die-cast aluminum plate and an electric heating tube, the surface of the die-cast aluminum plate is coated with Teflon, the upper surface of the die-cast aluminum plate is attached to the bottom surface of the glass heating container, the electric heating tube 7 is a conventional heating element, but the electric heating tube is usually wound into a circular ring shape and fixed on the heating element at present, and the problem that the heating is very non-uniform is existed, namely, the temperature of the circular ring shape near the electric heating tube is high, and the temperature of the electric heating tube 7 far away from the circular ring shape is low, so that the non-uniform heating condition can be generated, air blasting of larger bubbles can be generated, and excessive noise can be caused, and the spirally arranged electric heating tube 7 of the application can slightly increase the length of the electric heating tube 7, but ensure the uniform temperature of the whole aluminum substrate 6, also be favorable to reducing the air blasting noise of the bubble of boiling water, this application electric heating pipe 11 also can be in being absorbed in the spiral channel of aluminium base board 10 lower surface (electric heating pipe 11 increases with aluminium base board 10 contact surface, and the heat-conduction effect improves), or direct mount is on electric heating pipe 11 is planar lower surface, and the contact diameter of glass bottom of cup bottom surface 3 and electric heat-generating body 9 is not less than 128mm to ensure face area of contact.

The electric heating element 9 is preferably adopted, and a thick-film heating plate, a PTC heating element and a profile aluminum substrate can be adopted, but the thick-film heating plate is expensive, the surface of the thick-film heating plate can only be a stainless steel base material at present, the surface deformation is large, and the surface processing difficulty is large; and the PTC heating element and the section aluminum substrate are not easy to assemble, and the matched structure for installation is complex.

In order to realize temperature control, an NTC temperature-sensing controller 12 and a travel switch 13 are arranged on the side wall of the concave groove 7, the NTC temperature-sensing controller 12 and the travel switch 13 are electrically connected with a controller 15 positioned in the base, and the controller 15 is electrically connected with an electric heating tube 11 of the electric heating element 9; the NTC temperature-sensing controller 12 can be an electronic temperature controller with the brand XT, model: SM8, and the travel switch 9 can be a button travel switch (model ZXL-302) manufactured by Korea KaCON company; the controller 10 may be an STM 32F413VHT6 LQFP100 MCU microcontroller, and the NTC temperature-sensing controller 12, the travel switch 13 and the controller 10 are commercially available products, which are widely used, and are only examples, and the electric heating kettle and the like also employ these electronic components to form a temperature control circuit.

The working principle of temperature control is as follows: the controller 15 is used for controlling the electric heating element 9 to generate heat, the electric heating element 9 conducts the heat to the bottom of the glass cup through the contact of the surface and heats liquid in the glass cup body, the NTC temperature sensing controller 12 can sense the temperature of heating liquid in the glass cup, when the temperature reaches a set value, the NTC temperature sensing controller 12 transmits a signal to the controller 10, and the controller controls the electric heating tube 11 to be powered off, so that the temperature required to be controlled is reached; through travel switch 9, make the glass cup put into the depressed slot 7 of base correctly just can trigger travel switch's contact, just can start electric heating pipe 11 work by the controller after the contact triggers, prevent that the heat-generating body from working when no cup.

The groove depth of the concave groove is 10-120 mm, preferably 50-60mm, and the groove depth of the concave groove is 50-60mm, so that the guide of the glass cup placed in the concave groove of the base is facilitated, and the more critical function is to ensure that a consumer is not easy to contact the surface of the electric heating body with higher temperature, and scald is avoided.

This application glass heating container can adopt high boron glass all over, and the average wall thickness of preferred is greater than or equal to 1.8mm, and bottom water dull polish grinds flat, and thickness 1.0~1.5 mm.

The utility model discloses glass heating container's manufacturing method, glass heating container includes glass cup body and the glass cup bottom of cup that forms an organic whole with glass cup body, the flatness tolerance of glass cup bottom surface is 0.02-0.30mm, and during the preparation, glass heating container makes the body according to the shape requirement, and the bottom surface of this glass heating container body is flat, carries out the water mill with this glass heating container body's bottom surface and grinds the level to make the flatness tolerance of this bottom surface at 0.02-0.30mm, and the thickness of control glass bottom of cup is at 1.0-2.0mm, and the preferred is that the flatness tolerance is at 0.03-0.05mm, and the thickness of glass bottom of cup is at 1.3-1.5 mm.

After the bottom surface of the glass heating container is ground flat and cleaned by a water mill, coating with heat-conducting metal powder is brushed or silk-screen printed on the bottom surface; or sand blasting treatment; or a heat-conducting metal film layer is bonded or sintered on the bottom surface; or the bottom surface is bonded with a heat-conducting metal plate by using heat-conducting silica gel.

The bottom surface of the bottom of the manufactured glass cup is provided with a groove, a prefabricated heat-conducting metal plate is bonded in the groove by using heat-conducting silica gel, the thickness of the heat-conducting metal plate is larger than the depth of the groove, the diameter of the heat-conducting metal plate is equivalent to that of the groove, the flatness tolerance of the bottom surface of the heat-conducting metal plate is 0.02-0.30mm, and the flatness tolerance of the bottom surface of the heat-conducting metal plate is preferably 0.03-0.05 mm.

The glass heating container of the utility model is ground on the bottom surface of the glass cup bottom to ensure that the flatness tolerance of the bottom surface reaches 0.02-0.30mm, thereby ensuring that the bottom surface can be attached to the surface with the base electric heating body with similar flatness tolerance requirements to the maximum extent, thereby being beneficial to obviously improving the heating efficiency of the glass heating container; the glass heating container is made of glass on the whole body, does not have any electronic element, and can be immersed into water to be cleaned on the whole body, so that dirt on the glass heating container can be completely removed, and the drinking water quality of people is ensured; meanwhile, the glass heating container does not generate electromagnetic radiation by using an electromagnetic heating technology or infrared radiation generated by an electric ceramic furnace, so that the health of a human body is not influenced, and the glass heating container is simple to manufacture, low in cost and easy to sell, popularize and use; in addition this application is through base electric heat-generating body and the heat-conduction of cup bottom for face contact, and heat conduction area is big and even, has solved general heating kettle or milk adjusting device and has boiled water the in-process, because of heating inhomogeneous production air blasting arouses the problem of too big noise.

The above is only the preferred embodiment of the present invention, and all the equivalent changes and modifications made according to the claims of the present invention should be covered by the present invention.

Claims

1. A glass heating vessel characterized by: the glass cup comprises a glass cup body and a glass cup bottom integrated with the glass cup body, wherein the flatness tolerance of the bottom surface of the glass cup bottom is 0.02-0.30 mm; and a heat-conducting metal film layer is bonded or sintered on the bottom surface of the glass cup bottom.

2. The glass heating vessel according to claim 1, wherein: the flatness tolerance of the bottom surface of the glass cup bottom is 0.03mm-0.08mm, and the thickness of the glass cup bottom is 1.0-2.2 mm.

3. A glass heating vessel according to claim 1 or 2, wherein: the requirements of the flatness tolerance of the bottom surface of the glass cup and the thickness of the bottom of the glass cup are met by grinding with a water mill.

4. A glass heating vessel according to claim 1 or 2, wherein: the bottom surface of the glass cup bottom is coated with a coating with heat-conducting metal powder; or the bottom surface of the glass bottom is subjected to sand blasting treatment.

5. A glass heating vessel according to claim 1 or 2, wherein: the bottom surface of the glass cup bottom is provided with a groove, a heat-conducting metal plate is bonded in the groove, and the thickness of the heat-conducting metal plate is larger than the depth of the groove.

6. A glass heating vessel according to claim 1 or 2, wherein: the heat-conducting metal plate is bonded on the bottom surface of the glass cup bottom, the flatness tolerance of the bottom surface of the heat-conducting metal plate is 0.02-0.30mm, the fineness is more than 5, and the flatness tolerance of the bottom surface of the glass cup bottom is more than 0.01 mm.

7. A glass heating vessel according to claim 1 or 2, wherein: the lower part of the glass heating container is sunk in a base with a sunken groove for heating, the bottom of the sunken groove is provided with an electric heating body attached to the bottom surface of the glass heating container, the flatness tolerance of the surface, attached to the bottom surface of the glass heating container, of the electric heating body is 0.02-0.30mm, and the smoothness of the surface, attached to the bottom surface of the glass heating container, of the electric heating body is more than 5 th grade.

8. The glass heating vessel according to claim 7, wherein: the electric heating body comprises an aluminum substrate and an electric heating pipe which is arranged on the lower surface of the aluminum substrate in a spiral shape, and the upper surface of the aluminum substrate is attached to the bottom surface of the glass heating container.

9. The glass heating vessel according to claim 7, wherein: the electric heating body comprises a die-casting aluminum plate and an electric heating pipe, wherein the surface of the die-casting aluminum plate is coated with Teflon, and the upper surface of the die-casting aluminum plate is attached to the bottom surface of the glass heating container.