CN109734318A

CN109734318A - Cook nonmetallic heating device

Info

Publication number: CN109734318A
Application number: CN201910095400.8A
Authority: CN
Inventors: 王德平; 刘飞全
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-01-31
Filing date: 2019-01-31
Publication date: 2019-05-10
Also published as: CN111170640B; CN111170640A

Abstract

The invention discloses a kind of nonmetallic heating device, including kettle body and pedestal, the kettle body is made of the nonmetallic kettle body and non-metal board for cutting bottom, and the nonmetallic kettle body for cutting bottom is molded as one structure by glass powder coating with non-metal board；The bottom of the non-metal board is equipped with heating device.Using the present invention, the ontology of heating device realizes complete nonmetallic production, can solve simultaneously cost is relatively low, the service life is long, safety, can volume production, cleaning the problems such as being easy.

Description

Cook nonmetallic heating device

Technical field

The present invention relates to fields of home appliance technology, the in particular to a kind of nonmetallic heating device of culinary art.

Background technique

Kettle is the necessity of life, from coal gas kettle to intelligent plastic electric heating kettle, arrives stainless steel insulating pot, then to partly Glass water pot, full glass water pot, product are being kept updating.It is glass physical stability of characteristics, safety, clean, it will not be with heating Food generate chemical reaction, do not have the secret worry of heavy metal, the transparent body of glass can penetrate far infrared, promoted water quality, Optimize water source.

Current full glass water pot substantially has technologies several in this way: transparent nano film, carbon film and thick film.The first two kind power declines Subtract fastly, abandoned by various manufacturers, the latter's power stability is good, but technique requires height, wants to the processing index of glass body Ask stringent, such as: smoothness, the uniformity of thickness, compactness cannot have bubble, hollow etc..In These parameters, any one Standard is not achieved, Electric radiant Heating Film is also easy to produce hot knot and micro- sudden strain of a muscle electric discharge, and instantaneous temperature is high, and it is broken to eventually lead to vitreum.Moreover, hair Hotting mask needs temperature characterisitic, the matched coefficients of thermal expansion with glass, while good can also adhere to, infiltrate with glass.And It also to fire and test after the slurry modulation of heating film, test period is long, and uncertain factor is big, once the physical property variation of glass is again The long period is spent to re-modulate.

With current glass industry level of processing both domestic and external, it is unable to satisfy above-mentioned processing index.Then at high cost High quartz glass comes into being to substitute the solution of the Pyrex of good economy performance.However, the cost of quartz glass is Tens times of Pyrex, although the thickness of quartz, flatness, bubble hollow are superior to borosilicate, quartzy fusing point is high, kettle body at Type difficult processing, cost is huge, is unable to volume production.

In order to solve the inherent shortcoming of glass material, occur other some solutions these years, such as: cut bottom glass Glass kettle body uses metal heating tray and silica gel sealing ring, is embedded in and cuts in the glass pot body of bottom, form a kind of pseudo- full glass health Pot.It is directly contacted with heating liquid due to metal heating tray, although heat transfer efficiency can be improved, it destroys all-glass Theory, during hot cooking food, food and silica gel are chemically reacted, and lead to pollution, discoloration, heavy metals exceeding standard.Moreover, sealing ring Place with heater transition is usually also the dead angle of cleaning, it cannot be guaranteed that safety and sanitation.In addition, the sealing of above structure is consistent Property is bad, can not achieve volume production.

For another example: heating film is attached directly in kettle body, since kettle body material conducts heat is bad, be easy to cause hot-spot, So that heating film overheats and ablation, it is also possible to cause kettle body to rupture because kettle body material cold-heat shrinks unevenness.

For another example: the scheme of external radiation places quartz heating-pipe in glass pot bottom, to being filled with water, glass container adds Heat, the disadvantage is that: bottom heat is high, it is seen that polished bard eye, control system inaccuracy etc..

That is, the scheme of current full glass water pot can not meet simultaneously, cost is relatively low, the service life is long, safety, can volume production, cleaning The problems such as being easy.

Summary of the invention

Technical problem to be solved by the present invention lies in, provide a kind of culinary art nonmetallic heating device, heating device Kettle body realizes complete nonmetallic production, can solve simultaneously cost is relatively low, the service life is long, safety, can volume production, cleaning the problems such as being easy.

To reach above-mentioned technical effect, the present invention provides a kind of nonmetallic heating devices of culinary art, including kettle body and bottom Seat, the kettle body are made of the nonmetallic kettle body and non-metal board for cutting bottom, and the nonmetallic kettle body for cutting bottom and non-metal board are logical It crosses glass powder coating and is molded as one structure；

The bottom of the non-metal board is equipped with heating device.

As an improvement of the above technical solution, the nonmetallic kettle body for cutting bottom includes side wall and is not provided with bottom, described Side wall forms hollow kettle body structure.

As an improvement of the above technical solution, the nonmetallic kettle body is glass pot or ceramic kettle；

The non-metal board is glass plate or ceramic wafer；

The heating device is heating film.

As an improvement of the above technical solution, the glass powder coating is by 0.5~20wt% glass powder, 50~90wt% Paste made of metal powder and 5~30wt% organic component.

As an improvement of the above technical solution, the glass powder includes SiO₂5~60%, Al₂O₃5~30%, B₂O₃ 2 ~30%, CaO 0~15%, MgO 0~5%, Bi₂O₃0~70%, ZnO 0~50%, Li₂O 0~10%, P₂O₅0~ 5%, TiO₂0~5%, ZrO₂0~5%；

The metal powder is one or more of bronze, silver powder, copper powder, tungsten powder, palladium powder, platinum powder.

As an improvement of the above technical solution, the glass powder is made by following methods: by each component of glass powder by matching Side's mixing, water quenching uniform in 1250~1600 DEG C of meltings, drying, crushing obtain D₅₀=2.5 μm of powder.

As an improvement of the above technical solution, the D of the metal powder₅₀2 μm of <.

As an improvement of the above technical solution, the recess portion that the nonmetallic kettle body for cutting bottom includes bottle body, connect with bottle body Or protrusion, the recess portion or protrusion either laterally or medially form an evener, the evener and non-metal board pass through glass Powder coating is connected and fixed.

As an improvement of the above technical solution, the width of the evener is 2-5mm.

As an improvement of the above technical solution, the recess portion or protrusion are equipped with fixed ring, for realizing kettle body and pedestal Be connected and fixed.

Due to the limitation of existing glass blowing technique, lead to smoothness, the thickness uniformity, gas of existing full glass pot body The conditions such as bubble, hollow are unable to satisfy to match with heating film.For this purpose, the present invention is using the nonmetallic kettle body and non-metal board for cutting bottom Connected by glass powder coating, form full glass pot body, implement the invention has the following beneficial effects:

1, the kettle body service life is long: the planarization of non-metal board is good, and thickness uniformity is good, and bubble-free and hollow, heating film are set In its surface, matched well can be carried out with it, heating film is not likely to produce heat knot and micro- sudden strain of a muscle electric discharge, avoids glass pot body broken, Improve the service life of kettle body and heating film；

2, heat-resist, attachment fastness is good: kettle body of the present invention is subjected to after 0-500 DEG C of cooling thermal impact whole intact, kettle body It does not crack, non-metal board is not fallen off；

3, leak and infiltration effectively good seal performance: are avoided；

4, have a safety feature: the nonmetallic kettle body for cutting bottom is connected with non-metal board by glass powder coating, the glass powder Coating is electric conductor, can be grounded by fixed ring, electrical safety has been effectively ensured；

5, good thermal shock, heavy metal free are precipitated, and avoid and connect bring a series of problems using sealing ring；

6, power is big: the full glass heating container can arbitrarily be set in 800-3000 watts of area matches；

7, good reliability: non-metal board and heating film form heat-generating disc, and the operating temperature of the heat-generating disc is only on 109 degree of left sides The right side, so that the stability of heat-generating disc, reliability, life cycle be made to greatly improve.

Therefore, the present invention can solve simultaneously cost is relatively low, the service life is long, safety, can volume production, cleaning the problems such as being easy.

Detailed description of the invention

Fig. 1 is a kind of cross-sectional view of nonmetallic heating kettle of the present invention.

Fig. 2 is the perspective view of the nonmetallic kettle body of the present invention.

Fig. 3 is the front sectional view of the nonmetallic kettle body of the present invention.

Fig. 4 is the partial enlarged view in the portion A shown in Fig. 3.

Fig. 5 is the bottom view of the nonmetallic kettle body of the present invention.

Specific embodiment

To make the object, technical solutions and advantages of the present invention clearer, the present invention is made into one below in conjunction with attached drawing The detailed description of step.

Due to the limitation of existing glass blowing technique, lead to smoothness, the thickness uniformity, gas of existing full glass pot body The conditions such as bubble, hollow are unable to satisfy to match with heating film.Therefore, the present invention provides a kind of solution of new thought, adopts It is connected with non-metal board with the nonmetallic kettle body for cutting bottom, full glass water pot is realized with this.The method structure is simple, and cleaning is held Easily, easy to accomplish, however due to the thickness very little of glass pot body, lead to its connection section very little with glass plate, glass pot body It is bonded with how glass plate is realized, becomes key point.

For this purpose, as shown in Figure 1, the present invention devises a kind of nonmetallic heating device of culinary art, including kettle body 1,2 and of pedestal Function control pedestal 3, kettle body 1 and pedestal 2 are molded as one structure, then are placed on function control pedestal 3, realize intelligent control It heats up water.

The kettle body 1 is made of the nonmetallic kettle body 11 and non-metal board 12 for cutting bottom, the nonmetallic kettle body 11 for cutting bottom Structure is molded as one by glass powder coating with non-metal board 12.

In conjunction with Fig. 2, Fig. 3 and Fig. 4, the nonmetallic kettle body 1 is to cut the kettle body at bottom.

It should be noted that the kettle body for cutting bottom only includes side wall, and it is not provided with bottom, the side wall forms hollow kettle body Structure.The bottom that the present invention cuts the kettle body 11 at bottom is connect with non-metal board 12, forms a complete kettle body structure.

The nonmetallic kettle body 1 can be glass pot body, ceramic pot body or quartzy kettle body, but not limited to this.Preferably, institute Stating nonmetallic kettle body is glass pot body.

The non-metal board 12 can be glass plate or ceramic wafer, but not limited to this.Preferably, the non-metal board is glass Glass plate.

As shown in figure 5, the bottom of the non-metal board 12 is equipped with heating device 13, the heating device 13 is heating film.

The planarization of non-metal board 12 is good, and thickness uniformity is good, and bubble-free and hollow, and heating film 13 is set to its surface, Matched well can be carried out with it, heating film 13 is not likely to produce heat knot and micro- sudden strain of a muscle electric discharge, avoids glass pot body broken, improve kettle body With the service life of heating film.

The nonmetallic heating device can be the kitchen appliances such as kettle, electrical boiler, electric cooker, but not limited to this.Figure Heating device shown in 1-5 is kettle.

Due to the thickness very little of glass pot body, lead to its connection section very little with glass plate, glass pot body and glass plate How to realize and be bonded, this is technological difficulties of the invention.Common adhesive glue can not be realized not only and is bonded, but also be realized complete Glass production.

The nonmetallic kettle body 11 for cutting bottom and non-metal board 12 pass through glass powder coating structure and are sintered the knot that is connected to form one Structure.Non-metal board 12 and nonmetallic kettle body 11 can be attached by glass powder coating, be allowed to have good sealing performance, and Attachment fastness is good, good thermal shock, safe and reliable, heavy metal free are precipitated, and avoids a series of using sealing ring connection bring Problem.

Specifically, the glass powder coating be by 0.5~20wt% glass powder, 50~90wt% metal powder and 5~ Paste made of 30wt% organic component.

The glass powder includes SiO₂5~60%, Al₂O₃5~30%, B₂O₃2~30%, CaO 0~15%, MgO 0 ~5%, Bi₂O₃0~70%, ZnO 0~50%, Li₂O 0~10%, P₂O₅0~5%, TiO₂0~5%, ZrO₂0~ 5%；

Preferably, the glass powder includes SiO₂10~50%, Al₂O₃10~20%, B₂O₃5~20%, CaO 0~ 8%, MgO 0~3%, Bi₂O₃0~50%, ZnO 0~40%, Li₂O 0~8%, P₂O₅0~3%, TiO₂0~3%, ZrO₂0~3%.

The glass powder is made by following methods: molten at 1250~1600 DEG C by each component of glass powder by formula mixing Melt uniformly water quenching, drying, crushing obtains D₅₀=2.5 μm of powder.

The said components of the glass powder by adjusting different content ratios, can match different metal and glass/ Crunch seal.

The metal powder is one or more of bronze, silver powder, copper powder, tungsten powder, palladium powder, platinum powder.The metal powder D₅₀2 μm of <.The partial size of the metal powder and the partial size of above-mentioned glass powder are mutually arranged in pairs or groups, so that it is easy molding during the bonding process.

The organic component can select resin or alcohols solvent, and the resin includes ethyl cellulose, and the alcohols is molten Agent includes terpinol, but not limited to this.The organic component provides certain rheological behavior to coating as auxiliary material, the company of being formed Continue uniform film layer.

The glass powder coating main constituents are made of glass powder and metal powder, then with organic carrier hybrid modulation at Paste, the requirement according to different materials to sealing-in, at 600~1300 DEG C, sealing-in under air atmosphere or protective atmosphere has Following advantages:

1, attachment fastness is good: two kinds of materials that thermal expansion coefficient can be differed to bigger seal up, and can also seal Still there is good bond effect under conditions of junction product very little；

2, good thermal shock: the material itself has certain ductility, and elasticity modulus and glass/ceramic are close, really It protects in use, two kinds of materials will not cause to generate small slight crack at sealing-in, cause to seal because of the big ups and downs of temperature Connect failure；

3, safety: for the seal, sealing materials without heavy metal elements such as lead cadmium chromium mercury, chemical stability is good, no other element analysis Out, used below safe and reliable at 400 DEG C.

Nonmetallic heating device is made by following methods:

The nonmetallic kettle body at bottom is cut in production；

Prepare non-metal board, the surface printing of non-metal board has heating film；

Non-metal board surface is pre-processed, keeps its bright and clean, smooth；

The coated glass powder coating in place of the connection of nonmetallic kettle body and non-metal board, then by nonmetallic kettle body and Fei Jin Belong to plate to fit closely, is sintered sealing-in under 600~1300 DEG C, air atmosphere or protective atmosphere, obtains finished product.

Further, as shown in Figure 3 and Figure 4, it is more preferably connected to guarantee to have between nonmetallic kettle body and non-metal board Effect, the nonmetallic kettle body 11 for cutting bottom include bottle body 11A, the recess portion 11B connecting with bottle body 11A or protrusion, the recess portion 11B or protrusion either laterally or medially form evener a 11C, the evener 11C and non-metal board 12 and are applied by glass powder Material is connected and fixed.

Preferably, the width of the evener is 2-5mm.If the width of flatness is less than 2mm, lead to compactness not It is good, it is easy to happen leak or infiltration.If the width of flatness is greater than 5mm, the heat transfer efficiency of heating device will affect.

Fixed ring can be equipped on the recess portion 11B or protrusion.The fixed ring can according to the face shaping of product come Matching design is carried out, moreover, be also provided with connector in the fixed ring, for realizing being connected and fixed for kettle body and pedestal.

With specific embodiment, the present invention is further explained below

Embodiment 1

One, the high-boron-silicon glass pot at bottom is cut in production, which includes bottle body, the recess portion that connect with bottle body, the recess portion to An evener is extended to form outside；

Two, prepare glass plate, in the back up heating film of glass plate；

Three, glass powder coating is prepared

1, the preparation of glass powder: the proportion of glass powder is SiO₂30%, Al₂O₃10%, B₂O₃15%, MgO 5%, ZnO 25%, CaO 15%；By said components, in 1450 DEG C of meltings, uniform, water quenching, drying, crushing obtain D₅₀=2.5 μm of powder, i.e., Obtain glass powder；

2, metal powder: fine silver powder, D₅₀<2μm；

3, soldering paste is prepared: organic component 15%, glass powder 5%, metal powder 80% said components are sufficiently stirred, mistake Three-roller is uniformly dispersed, and obtains seal, sealing materials paste；

Four, one layer of uniform glass powder is coated in place of the positive connection of the evener of high-boron-silicon glass pot and glass plate Then coating fits closely the two, in 250 DEG C of drying 30min, then in 650 DEG C of sintering 10min.

Embodiment 2

Two, prepare glass plate, in the back up heating film of glass plate；

Three, glass powder coating is prepared

1, the preparation of glass powder: the proportion of glass powder is SiO₂40%, Al₂O₃10%, B₂O₃10%, MgO 5%, ZnO 25%, CaO 10%；By said components, in 1450 DEG C of meltings, uniform, water quenching, drying, crushing obtain D₅₀=2.5 μm of powder, i.e., Obtain glass powder；

2, metal powder: pure copper powder, D₅₀<2μm；

3, soldering paste is prepared: organic component 10%, glass powder 5%, metal powder 85% said components are sufficiently stirred, mistake Three-roller is uniformly dispersed, and obtains seal, sealing materials paste；

Embodiment 3

One, the devitrified glass pot at bottom is cut in production, which includes bottle body, the recess portion that connect with bottle body, and the recess portion is outside Extend to form an evener；

Two, prepare glass plate, in the back up heating film of glass plate；

Three, glass powder coating is prepared

1, the preparation of glass powder: the proportion of glass powder is SiO₂60%, Al₂O₃15%, B₂O₃10%, MgO 5%, Li₂O 4%, K₂O 2%, P₂O₅2%, TiO₂1%, ZrO₂1%；Said components are uniform in 1550 DEG C of meltings, and water quenching is dried Dry, crushing obtains D₅₀=2.5 μm of powder to get arrive glass powder；

2, metal powder: silver powder 95%, palladium powder 5%；D₅₀<2μm；

Four, one layer of uniform glass powder is coated in place of the positive connection of the evener of devitrified glass pot and glass plate to apply Material, then fits closely the two, in 250 DEG C of drying 30min, then in 950 DEG C of sintering 30min.

Embodiment 4

Two, prepare glass plate, in the back up heating film of glass plate；

Three, glass powder coating is prepared

2, metal powder: silver powder 90%, palladium powder 10%；D₅₀<2μm；

3, soldering paste is prepared: organic component 12%, glass powder 8%, metal powder 80% said components are sufficiently stirred, mistake Three-roller is uniformly dispersed, and obtains seal, sealing materials paste；

Embodiment 5

One, the aluminium oxide ceramics pot at bottom is cut in production, which includes bottle body, the recess portion that connect with bottle body, the recess portion to An evener is extended to form outside；

Two, prepare ceramic wafer, in the back up heating film of ceramic wafer；

Three, glass powder coating is prepared

1, the preparation of glass powder: the proportion of glass powder is Al₂O₃60%, B₂O₃30%, Bi₂O₃10%；By said components It is uniformly mixed, uniform in 1600 DEG C of meltings, then water quenching, drying crushes and obtains D₅₀=2.5 μm of powder to get arrive glass powder；

2, metal powder: tungsten powder, D₅₀=2.5 μm；

3, soldering paste is prepared: organic component 15%, glass powder 10%, metal powder 75% said components are sufficiently stirred, mistake Three-roller is uniformly dispersed, and obtains seal, sealing materials paste；

Four, one layer of uniform glass powder is coated in place of the positive connection of the evener of aluminium oxide ceramics pot and ceramic wafer Then coating fits closely the two, in 250 DEG C of drying 30min, then at 1300 DEG C, and under hydrogen atmosphere protection, sintering 10min.

Embodiment 6

Two, prepare glass plate, in the back up heating film of glass plate；

Three, glass powder coating is prepared

2, metal powder: tungsten powder 90%, silver powder 10%, D₅₀=2.5 μm；

Four, one layer of uniform glass powder is coated in place of the positive connection of the evener of aluminium oxide ceramics pot and glass plate Then coating fits closely the two, in 250 DEG C of drying 30min, then at 1300 DEG C, and under hydrogen atmosphere protection, sintering 10min.

The above is a preferred embodiment of the present invention, it is noted that for those skilled in the art For, various improvements and modifications may be made without departing from the principle of the present invention, these improvements and modifications are also considered as Protection scope of the present invention.

Claims

1. a kind of nonmetallic heating device of culinary art, including kettle body and pedestal, which is characterized in that the kettle body is by cutting the non-gold at bottom Belong to kettle body and non-metal board composition,

The nonmetallic kettle body for cutting bottom is molded as one structure by glass powder coating with non-metal board；

The bottom of the non-metal board is equipped with heating device.

2. cooking nonmetallic heating device as described in claim 1, which is characterized in that the nonmetallic kettle body packet for cutting bottom It includes side wall and is not provided with bottom, the side wall forms hollow kettle body structure.

3. cooking nonmetallic heating device as claimed in claim 2, which is characterized in that the nonmetallic kettle body is glass pot Or ceramic kettle；

The non-metal board is glass plate or ceramic wafer；

The heating device is heating film.

4. cooking nonmetallic heating device as described in claim 1, which is characterized in that the glass powder coating is by 0.5 Paste made of~20wt% glass powder, 50~90wt% metal powder and 5~30wt% organic component.

5. cooking nonmetallic heating device as claimed in claim 4, which is characterized in that the glass powder includes SiO₂5~ 60%, Al₂O₃5~30%, B₂O₃2~30%, CaO 0~15%, MgO 0~5%, Bi₂O₃0~70%, ZnO 0~ 50%, Li₂O 0~10%, P₂O₅0~5%, TiO₂0~5%, ZrO₂0~5%；

6. cooking nonmetallic heating device as claimed in claim 5, which is characterized in that the glass powder is by following methods system : by each component of glass powder by formula mixing, uniformly water quenching, drying are melted at 1250~1600 DEG C, crushing obtains D₅₀= 2.5 μm of powder.

7. cooking nonmetallic heating device as claimed in claim 4, which is characterized in that the D of the metal powder₅₀2 μm of <.

8. cooking nonmetallic heating device as described in claim 1, which is characterized in that the nonmetallic kettle body packet for cutting bottom Bottle body, the recess portion connecting with bottle body or protrusion are included, the recess portion or protrusion either laterally or medially form an evener, described flat It is whole to be connected and fixed with non-metal board by glass powder coating.

9. cooking nonmetallic heating device as claimed in claim 8, which is characterized in that the width of the evener is 2- 5mm。

10. cooking nonmetallic heating device as claimed in claim 8, which is characterized in that the recess portion or protrusion are equipped with Fixed ring, for realizing being connected and fixed for kettle body and pedestal.