CN209300687U - A kind of vacuum cup with far-infrared functional - Google Patents

A kind of vacuum cup with far-infrared functional Download PDF

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Publication number
CN209300687U
CN209300687U CN201821321077.9U CN201821321077U CN209300687U CN 209300687 U CN209300687 U CN 209300687U CN 201821321077 U CN201821321077 U CN 201821321077U CN 209300687 U CN209300687 U CN 209300687U
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vacuum cup
far
cavity
steel bar
oblique
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CN201821321077.9U
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庄陈旻君
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Shang He (tianjin) Technology Development Co Ltd
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Shang He (tianjin) Technology Development Co Ltd
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Abstract

The utility model discloses a kind of vacuum cup with far-infrared functional, including vacuum cup ontology, the vacuum cup ontology includes first coating, second coating, waterproof layer, infrared light emission layer.The utility model has the beneficial effects that the liquid in vacuum cup is made to become the water with far red light by far red light irradiation.

Description

A kind of vacuum cup with far-infrared functional
Technical field
The utility model relates to the improvement of far infrared thermal insulation cup and its material, especially a kind of heat preservation with far-infrared functional Cup.
Background technique
Currently, general vacuum cup based on resin and glass material, is only used for simple splendid attire food, there is no protect Strong effect designs a kind of vacuum cup that can emit far red light and is a problem to be solved.
Utility model content
Purpose of the utility model is to solve the above problems, devise a kind of vacuum cup with far-infrared functional.
Realize that above-mentioned purpose the technical solution of the utility model is a kind of vacuum cup with far-infrared functional, including heat preservation Cup ontology, the vacuum cup ontology includes first coating, second coating, waterproof layer, infrared light emission layer, the infrared light emission Layer includes steel plate, the first cavity, multiple longitudinal steel bars, multiple circular holes, multiple second cavitys, multiple first oblique steel bars and multiple Second oblique steel bar, wherein
The first coating, second coating, waterproof layer, steel plate are sequentially overlapped to form vacuum cup ontology from outside to inside;
The inside of the steel plate is equipped with the first cavity, and first cavity is equipped with multiple longitudinal steel bars, the multiple First cavity is divided into two identical empty avoiding areas by longitudinal steel bar, and multiple described first are equipped in one of them described empty avoiding area tiltedly To steel bar, multiple second oblique steel bars are equipped in empty avoiding area described in another one;
The inside of the steel plate is equipped with multiple second cavitys;
First cavity and the second cavity 8 are connected to form whole heat preservation zone;
The surface of the longitudinal direction steel bar is equidistant to be equipped with multiple circular holes.
Preferably, the inside upper surface of the first cavity structure is fixed in the upper end of the longitudinal direction steel plate, lower end is fixed In the bottom inner surface of the first cavity structure.
Second cavity is spherical hollow space;
Preferably, the spherical hollow space, for reducing the weight of steel plate entirety.
Preferably, multiple first oblique steel bars are parallel to each other, multiple second oblique steel bars are parallel to each other;
Second oblique steel bar of the first oblique corresponding position of steel bar is mutually perpendicular to.
Preferably, the angle of the first oblique steel bar and horizontal plane is 10 ° -40 °.
Preferably, the first coating is printing layer.
Preferably, the second coating is insulating layer.
A kind of far infrared steel, the far infrared steel are used to prepare infrared light emission layer described in preceding claim Steel plate, longitudinal steel bar, the first oblique steel bar and the second oblique steel bar.
Preferably, the steel include consisting of:
Ferrite: 10-16%,
12% or less retained austenite:
Carbon: 0.03%~0.55%,
Silicon: 0.05%~2.5%,
Manganese: 2%~4.1%,
Aluminium: 1.7%-2%,
Nitrogen: 0.009%-0.011%,
Phosphorus: 0.11% hereinafter,
Modified far infrared performance master batch: 0.045%~0.12%,
The graphene powder of supported copper: 0.03~20%,
Barium monoxide: 5%-10%,
Aluminium oxide: 7%-9%,
Silica: 10%-15%,
Magnesia: 9%-11%,
Zirconium oxide: 2%-5%,
Titanium oxide: 0.51%-0.7%,
Manganese oxide: 0.68%-0.7%,
Boron nitride: 0.4%-0.5%,
Active catalyst: 0%-0.1%,
Ferroso-ferric oxide: 1%-3%
Sulphur: 0.003%-0.005%.
Preferably, the steel further include consisting of:
Vanadium and thallium it is total: 0.0%~0.3%,
Chromium, copper, nickel, tin and molybdenum it is total: 0.0%~1.0%,
Boron: 0.000%~0.005%,
Cerium: 0.000%~0.005%;
Remainder is iron and impurity.
Preferably, further including adhesive and fire retardant.
Preferably, described adhesive is one or both of polyethylene glycol, paraffin.
Preferably, the fire retardant is Mg (OH)2Fire retardant or Al (OH)3Fire retardant or Mg (OH)2Fire retardant is poly- Vinyl chloride and decabromodiphenylethane are mixed according to the ratio that weight ratio is 1:3.5-7.
A kind of preparation method of the vacuum cup with far-infrared functional, comprising the following steps:
Step 1: above-mentioned weight composition raw material is weighed;
Step 2: by ferrite, retained austenite, carbon, silicon, manganese, aluminium, nitrogen, phosphorus, modified far infrared performance master batch, load Graphene powder, barium monoxide, aluminium oxide, silica, magnesia, zirconium oxide, titanium oxide, manganese oxide, boron nitride, four oxygen of copper Change three-iron, sulphur and iron high temperature sintering, obtains contour alloy steel;
Step 3: continue hot pressed sintering after active catalyst is added, finally obtain the far infrared steel;
In step 2, high temperature sintering temperature is 900-1150 DEG C, and the time of high temperature sintering is 3-3.5 hours.
A kind of vacuum cup with far-infrared functional made using the technical solution of the utility model, makes the liquid in vacuum cup Body becomes the water with far red light by Infrared irradiation, plays health-care efficacy.
Detailed description of the invention
Fig. 1 is a kind of structural schematic diagram of vacuum cup with far-infrared functional described in the utility model;
Fig. 2 is a kind of partial enlargement diagram of vacuum cup with far-infrared functional described in the utility model;
Fig. 3 is the side view cutaway drawing of infrared light emission layer described in the utility model;
Fig. 4 is the front sectional view of infrared light emission layer described in the utility model;
Fig. 5 is a kind of preparation method flow chart of far infrared steel described in the utility model;
In figure, 1, vacuum cup ontology;2, first coating;3, second coating;4, waterproof layer;5, steel plate;6, longitudinal steel bar;7, Circular hole;8, the second cavity;9, the first oblique steel bar;10, the second oblique steel bar;11, empty avoiding area.
Specific embodiment
The utility model is specifically described with reference to the accompanying drawing, as shown in Figs 1-4, a kind of guarantor with far-infrared functional Warm cup, including vacuum cup ontology 1, the vacuum cup ontology 1 include first coating 2, second coating 3, waterproof layer 4, infrared light hair Layer is penetrated, the infrared light emission layer includes steel plate 5, the first cavity, multiple longitudinal steel bars 6, multiple circular holes 7, multiple second cavitys 8, the multiple first oblique steel bar 9 and multiple second oblique steel bars 10, wherein
The first coating 2, second coating 3, waterproof layer 4, steel plate 5 are sequentially overlapped to form vacuum cup ontology from outside to inside;
The inside of the steel plate 5 is equipped with the first cavity, and first cavity is equipped with multiple longitudinal steel bars 6, described more First cavity is divided into two identical empty avoiding areas 11 by a longitudinal direction steel bar 6, is equipped with multiple institutes in one of them described empty avoiding area 11 The first oblique steel bar 9 is stated, is equipped with multiple second oblique steel bars 10 in empty avoiding area 11 described in another one;
The inside of the steel plate 5 is equipped with multiple second cavitys 8;
First cavity and the second cavity 8 are connected to form whole heat preservation zone;
The surface of the longitudinal direction steel bar 6 is equidistant to be equipped with multiple circular holes 7.
The inside upper surface of the first cavity structure is fixed in the upper end of the longitudinal direction steel bar 6, and the first sky is fixed in lower end The bottom inner surface of cavity configuration.
Second cavity 8 is spherical hollow space;
The spherical hollow space, for reducing the weight of steel plate entirety.
Multiple first oblique steel bars 9 are parallel to each other, and multiple second oblique steel bars 10 are parallel to each other;
Second oblique steel bar 10 of the corresponding position of the first oblique steel bar 9 is mutually perpendicular to.
The angle of the first oblique steel bar 9 and horizontal plane is 10 ° -40 °.
The first coating 2 is printing layer.
The second coating 3 is insulating layer.
A kind of far infrared steel, the far infrared steel are used to prepare infrared light emission layer described in preceding claim Steel plate, longitudinal steel bar, the first oblique steel bar and the second oblique steel bar, the test report of the far infrared steel show that 4-14mm is Far infrared wavelength, steel can issue far red light at 40 DEG C or so in report, compare ceramic-like far-infrared emission material, Emit far red light between 50 DEG C -70 DEG C, there is widely transmitting section to compare, ceramic-like far-infrared emission material is general Optimal excitation temperature is 62 DEG C.
Embodiment two:
As shown in the table, a kind of Ingredients Weight of far infrared steel matches figure,
The steel include consisting of:
Ferrite: 10%,
Retained austenite: 12%
Carbon: 0.03%,
Silicon: 0.05%,
Manganese: 2%,
Aluminium: 1.7%,
Nitrogen: 0.009%,
Phosphorus: 0.11%,
Modified far infrared performance master batch: 0.045%,
The graphene powder of supported copper: 0.03,
Barium monoxide: 5%,
Aluminium oxide: 7%,
Silica: 10%,
Magnesia: 9%,
Zirconium oxide: 2%,
Titanium oxide: 0.51%,
Manganese oxide: 0.68%,
Boron nitride: 0.4%,
Ferroso-ferric oxide: 1%,
Sulphur: 0.003%.
Remainder is iron and impurity.
It further include adhesive and fire retardant.
Described adhesive is one or both of polyethylene glycol, paraffin.
The fire retardant is Mg (OH)2Fire retardant or Al (OH)3Fire retardant or Mg (OH)2Fire retardant or polyvinyl chloride and ten Bromine diphenylethane is mixed according to the ratio that weight ratio is 1: 3.5.
Ferrite 10%-16%
Retained austenite 12% or less
Carbon 0.03%~0.55%
Silicon 0.05%~2.5%
Manganese 2%~4.1%
Aluminium 1.7%-2%
Nitrogen 0.009%-0.011%
Phosphorus 0.11% or less
Modified far infrared performance master batch 0.045%~0.12%
The graphene powder of supported copper 0.03~20%
Barium monoxide 5%-10%
Aluminium oxide 7%-9%
Silica 10%-15%
Magnesia 9%-11%
Zirconium oxide 2%-5%
Titanium oxide 0.51%-0.7%
Manganese oxide 0.68%-0.7%
Boron nitride 0.4%-0.5%
Active catalyst 0%-0.1%
Ferroso-ferric oxide 1%-3%
Sulphur 0.003%-0.005%
As shown in figure 5, a kind of preparation method of the vacuum cup with far-infrared functional, comprising the following steps:
Step 1: above-mentioned weight composition raw material is weighed;
Step 2: by ferrite, retained austenite, carbon, silicon, manganese, aluminium, nitrogen, phosphorus, modified far infrared performance master batch, load Graphene powder, barium monoxide, aluminium oxide, silica, magnesia, zirconium oxide, titanium oxide, manganese oxide, boron nitride, four oxygen of copper Change three-iron, sulphur and iron high temperature sintering, obtains contour alloy steel;
Step 3: continue hot pressed sintering after active catalyst is added, finally obtain the far infrared steel;
In step 2, high temperature sintering temperature is 900 DEG C, and the time of high temperature sintering is 3 hours.
Embodiment three:
A kind of far infrared steel, the far infrared steel are used to prepare infrared light emission layer described in preceding claim Steel plate, longitudinal steel bar, the first oblique steel bar and the second oblique steel bar.
The steel include consisting of:
Ferrite: 16%,
Retained austenite: 12%,
Carbon: 0.55%,
Silicon: 2.5%,
Manganese: 4.1%,
Aluminium: 2%,
Nitrogen: 0.011%,
Phosphorus: 0.11%,
Modified far infrared performance master batch: 0.12%,
The graphene powder of supported copper: 20%,
Barium monoxide: 10%,
Aluminium oxide: 9%,
Silica: 15%,
Magnesia: 11%,
Zirconium oxide: 5%,
Titanium oxide: 0.7%,
Manganese oxide: 0.7%,
Boron nitride: 0.5%,
Active catalyst: 0.1%,
Ferroso-ferric oxide: 3%,
Sulphur: 0.005%.
The steel further include consisting of:
Vanadium and thallium it is total: 0.3%,
Chromium, copper, nickel, tin and molybdenum add up to: 1.0%,
Boron: 0.005%,
Cerium: 0.005%,
Remainder is iron and impurity.
It further include adhesive and fire retardant.
Described adhesive is one or both of polyethylene glycol, paraffin.
The fire retardant is Mg (OH) 2 fire retardant or 3 fire retardant of Al (OH) or 2 fire retardant of Mg (OH) or polyvinyl chloride and ten Bromine diphenylethane is mixed according to the ratio that weight ratio is 1:7.
A kind of preparation method of the vacuum cup with far-infrared functional, comprising the following steps:
Step 1: above-mentioned weight composition raw material is weighed;
Step 2: by ferrite, retained austenite, carbon, silicon, manganese, aluminium, nitrogen, phosphorus, modified far infrared performance master batch, load Graphene powder, barium monoxide, aluminium oxide, silica, magnesia, zirconium oxide, titanium oxide, manganese oxide, boron nitride, four oxygen of copper Change three-iron, sulphur and iron high temperature sintering, obtains contour alloy steel;
Step 3: continue hot pressed sintering after active catalyst is added, finally obtain the far infrared steel;
In step 2, high temperature sintering temperature is 1150 DEG C, and the time of high temperature sintering is 3.5 hours.
Example IV:
The far infrared steel be used to prepare the steel plate of infrared light emission layer described in preceding claim, longitudinal steel bar, First oblique steel bar and the second oblique steel bar.
The steel include consisting of:
Ferrite: 14%,
Retained austenite: 6%,
Carbon: 0.25%,
Silicon: 0.1%,
Manganese: 3%,
Aluminium: 1.8%,
Nitrogen: 0.01%,
Phosphorus: 0.5%,
Modified far infrared performance master batch: 0.075%,
The graphene powder of supported copper: 10%,
Barium monoxide: 7%,
Aluminium oxide: 8.5%,
Silica: 12%,
Magnesia: 10%,
Zirconium oxide: 3.75%,
Titanium oxide: 0.6%,
Manganese oxide: 0.69%,
Boron nitride: 0.45%,
Active catalyst: 0.05%,
Ferroso-ferric oxide: 1.5%,
Sulphur: 0.004%.
The steel further include consisting of:
Vanadium and thallium it is total: 0.2%,
Chromium, copper, nickel, tin and molybdenum add up to: 0.7%,
Boron: 0.003%,
Cerium: 0.002%;
Remainder is iron and impurity.
It further include adhesive and fire retardant.
Described adhesive is one or both of polyethylene glycol, paraffin.
The fire retardant is Mg (OH)2Fire retardant or Al (OH)3Fire retardant or Mg (OH)2Fire retardant or polyvinyl chloride and ten Bromine diphenylethane is mixed according to the ratio that weight ratio is 1:5.
A kind of preparation method of the vacuum cup with far-infrared functional, comprising the following steps:
Step 1: above-mentioned weight composition raw material is weighed;
Step 2: by ferrite, retained austenite, carbon, silicon, manganese, aluminium, nitrogen, phosphorus, modified far infrared performance master batch, load Graphene powder, barium monoxide, aluminium oxide, silica, magnesia, zirconium oxide, titanium oxide, manganese oxide, boron nitride, four oxygen of copper Change three-iron, sulphur and iron high temperature sintering, obtains contour alloy steel;
Step 3: continue hot pressed sintering after active catalyst is added, finally obtain the far infrared steel;
In step 2, high temperature sintering temperature is 1050 DEG C, and the time of high temperature sintering is 3 hours.
Above-mentioned technical proposal only embodies the optimal technical scheme of technical solutions of the utility model, the technology of the art Personnel embody the principles of the present invention to some variations that some of them part may be made, and belong to the utility model Protection scope within.

Claims (7)

1. a kind of vacuum cup with far-infrared functional, including vacuum cup ontology (1), which is characterized in that the vacuum cup ontology (1) Including first coating (2), second coating (3), waterproof layer (4), infrared light emission layer, the infrared light emission layer includes steel plate (5), the first cavity, multiple longitudinal steel bars (6), multiple circular holes (7), multiple second cavitys (8), multiple first oblique steel bars (9) With the multiple second oblique steel bars (10), wherein
The first coating (2), second coating (3), waterproof layer (4), steel plate (5) are sequentially overlapped to form vacuum cup sheet from outside to inside Body;
The inside of the steel plate (5) is equipped with the first cavity, and first cavity is equipped with multiple longitudinal steel bars (6), described more First cavity is divided into two identical empty avoiding areas (11) by a longitudinal direction steel bar (6), is equipped in one of them described empty avoiding area (11) Multiple first oblique steel bars (9) are equipped with multiple second oblique steel bars in empty avoiding area (11) described in another one (10);
The inside of the steel plate (5) is equipped with multiple second cavitys (8);
First cavity and the second cavity (8) are connected to form whole heat preservation zone;
The surface of the longitudinal direction steel bar (6) is equidistant to be equipped with multiple circular holes (7).
2. a kind of vacuum cup with far-infrared functional according to claim 1, which is characterized in that the longitudinal direction steel bar (6) Upper end be fixed on the inside upper surface of the first cavity structure, the bottom inner surface of the first cavity structure is fixed in lower end.
3. a kind of vacuum cup with far-infrared functional according to claim 2, which is characterized in that second cavity (8) For spherical hollow space;
The spherical hollow space, for reducing the weight of steel plate entirety.
4. a kind of vacuum cup with far-infrared functional according to claim 3, which is characterized in that multiple described first is oblique Steel bar (9) is parallel to each other, and multiple second oblique steel bars (10) are parallel to each other;
Second oblique steel bar (10) of the corresponding position of the first oblique steel bar (9) is mutually perpendicular to.
5. a kind of vacuum cup with far-infrared functional according to claim 4, which is characterized in that the first oblique steel bar It (9) is 10 ° -40 ° with the angle of horizontal plane.
6. -5 any a kind of vacuum cup with far-infrared functional according to claim 1, which is characterized in that described first applies Layer (2) is printing layer.
7. a kind of vacuum cup with far-infrared functional according to claim 1, which is characterized in that the second coating (3) For insulating layer.
CN201821321077.9U 2018-08-16 2018-08-16 A kind of vacuum cup with far-infrared functional Active CN209300687U (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108652380A (en) * 2018-08-16 2018-10-16 尚赫(天津)科技开发有限公司 A kind of thermal insulation cup with far-infrared functional, far infrared steel and preparation method thereof

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108652380A (en) * 2018-08-16 2018-10-16 尚赫(天津)科技开发有限公司 A kind of thermal insulation cup with far-infrared functional, far infrared steel and preparation method thereof
CN108652380B (en) * 2018-08-16 2023-09-19 尚赫(天津)科技开发有限公司 Vacuum cup with far infrared function, far infrared steel and preparation method thereof

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