CN113024112A - Production process of anti-dyeing glass cup - Google Patents

Abstract

The invention provides a production process of a dyeing-resistant glass cup, which comprises a non-colored glass cup, a cup body production line and a non-colored layer production line, wherein the non-colored glass cup comprises a cup body and a non-colored layer, the cup body and the non-colored layer are respectively manufactured by the cup body production line and the non-colored layer production line, the cup body production line and the non-colored layer production line respectively comprise a split pressing device and a material conveying device, one side of each of the two split pressing devices is provided with a same assembled pressing device, one side of each assembled pressing device is provided with a flame polishing device, one side of each flame polishing device is provided with an ultrasonic detection device, and the rear side of each ultrasonic detection device is provided with an annealing device. The uncolored layer body is arranged on the surface of the cup body and is integrally pressed and formed, so that the upper section of the upper glass cup has the uncolored function, and the phenomenon that lipstick or lipstick is adhered to the surface of a female user in the process of drinking water is avoided.

Description

Production process of anti-dyeing glass cup

Technical Field

The invention relates to the technical field of glassware production, in particular to a production process of a dyeing-resistant glass cup.

Background

The glass is a glass cup, is generally made of high borosilicate glass serving as a raw material through high-temperature firing at more than 600 ℃, is a novel environment-friendly tea cup, is more and more popular with people, and is the most healthy in cups made of all materials. Because the glass does not contain organic chemical substances, when people drink water or other drinks with the glass, people do not need to worry about harmful chemical substances to be drunk into the stomach, and the glass surface is smooth and easy to clean, so that people are healthiest and safest to drink water with the glass.

However, in the process of drinking water by a female user through a glass cup, because most of the female users have lipstick or lipstick, the lipstick or lipstick on the lips is easy to adhere to the position of the cup edge of the glass cup when drinking water, so that the cleaning is inconvenient and the attractiveness of the glass cup is affected.

Therefore, it is necessary to develop a process for producing a stain-resistant glass to solve the above problems

Disclosure of Invention

The invention aims to provide a production process of a dyeing-resistant glass cup, which aims to solve the technical problems.

In order to solve the technical problems, the invention adopts the following technical scheme:

a production process of a dyeing-resistant glass cup comprises a non-colored glass cup, a cup body production line and a non-colored layer production line, wherein the non-colored glass cup comprises a cup body and a non-colored layer, the cup body and the non-colored layer are respectively manufactured by the cup body production line and the non-colored layer production line, the cup body production line and the non-colored layer production line respectively comprise a split charging pressing device and a material conveying device, one side of each of the split charging pressing devices is provided with the same assembled pressing device, one side of each of the assembled pressing devices is provided with a flame polishing device, one side of each of the flame polishing devices is provided with an ultrasonic detection device, the rear side of each of the ultrasonic detection devices is provided with an annealing device, each of the split charging pressing devices comprises a hydraulic press, the bottom of the hydraulic press is provided with a pressing punch, the bottom of the pressing punch is provided, the material conveying device comprises a material quantitative conveying cylinder, the bottom of the material quantitative conveying cylinder is located at the top of a pressing die and corresponds to the top of the pressing die, the assembling and pressing device comprises an assembling platform, a flame heating sprayer, an assembling die and an assembling die punch, the flame polishing device is provided with a double-end flame polisher, the ultrasonic detection device is provided with an ultrasonic detector, and the annealing device is provided with a glass cup annealing line.

Preferably, the split charging pressing device, the assembling pressing device, the flame polishing device and the ultrasonic detection device are all provided with a forming taking and placing device between the devices, and the forming taking and placing device is arranged by a mechanical gripper.

Preferably, the tops of the subpackaging pressing device and the assembling pressing device are both provided with position detection devices, and the position detection devices are arranged by adopting a visual identification positioning system.

Preferably, the thickness of one section of top of cup is less than the thickness of one section of bottom of cup, and is located that cup top rim of cup position evenly sets up, and top and bottom are the setting of integrated press forming.

Preferably, the cross section of the cup edge of the non-coloring layer body is in a U-shaped arrangement, and the inner diameter of the hollow part in the non-coloring layer body is matched with one section of the top of the cup body.

Preferably, the combination of the pressing die and the pressing punch of the pressing device in the cup body production line is matched with the cup body, and the combination of the pressing die and the pressing punch of the pressing device in the non-coloring layer body production line is matched with the coloring layer body.

Preferably, the cup body is made of a common glass cup material, the non-coloring layer body is made of Ganpeng silicon crystal glass, and the Ganpeng silicon crystal glass is made of the following raw materials in parts by weight: 60-75 parts of quartz sand, 8-12 parts of boron oxide, 5-8 parts of aluminum hydroxide, 1-4 parts of calcite, 0.2-0.6 part of potassium carbonate, 0.5-0.9 part of ferric oxide and 0.15 part of mirabilite, wherein the content of the ferric oxide is more than or equal to 80 x 10^-6The high-Peng silicon crystal glass is characterized in that the content of the mirabilite is 15%.

Based on the production process of the anti-dyeing glass cup, the manufacture steps of the Gaoyc silicon crystal glass are as follows:

s1: weighing raw materials of each component according to a formula, adding the raw materials into a mixer, uniformly mixing and stirring to prepare a mixture, putting the mixture into a kiln, and melting at the high temperature of 1400-1720 ℃;

s2: and pouring the melted glass batch mixture on a preheated glass tube mold, and immediately transferring the glass tube mold to an annealing kiln for annealing at the annealing temperature of 520-580 ℃ for 1.5-3 h to obtain the high borosilicate crystal glass with low coloring performance.

The production process of the anti-dyeing glass cup comprises the following steps:

s1: respectively selecting materials which are in line with the production of the uncolored glass, and respectively manufacturing the glass body and the uncolored layer body;

s2: respectively heating and melting materials for manufacturing the cup body and the non-coloring layer body, wherein the heating temperature is 1300 ℃, conveying the materials to prevent the materials from being conveyed into a pressing die in a corresponding split charging and pressing device, rotating a pressing table, moving the pressing die filled with raw materials to a pressing punch position, driving the pressing punch to punch the raw materials in the pressing die through a hydraulic press, and pressing and forming the raw materials to respectively form the cup body and the non-coloring layer body;

s3: the method comprises the following steps that a pressing platform rotates, a cup body and a non-coloring layer body which are formed by pressing are moved to a forming taking and placing device at the front end of an assembling and pressing device, the cup body and the non-coloring layer body are grabbed and placed on an assembling platform of the assembling device through the forming taking and placing device and are assembled, the cup body and the non-coloring layer body are heated and softened through a flame heating contact head, the softened cup body and the non-coloring layer body are placed in an assembling die, and the cup body and the non-coloring layer body are integrally pressed and formed through a punch of the assembling die;

s4: grabbing the assembled and pressed non-colored glass cup into a flame polishing device through a forming taking and placing device on the other side of the assembling and pressing device, and polishing the non-colored glass cup through a double-head flame polisher;

s5: after polishing is finished, placing the uncolored glass cup into the position of an ultrasonic detection device through a forming and taking device, detecting the smoothness of the surface of the uncolored glass cup through the ultrasonic detection device, preventing the surface from being rough or different in concave-convex, transferring the uncolored glass cup which is qualified in detection to the position of an annealing device for annealing, and transferring the uncolored glass cup which is unqualified in detection to the position of a flame polishing device for polishing again;

s6: and sealing and storing the annealed finished product.

The invention has the beneficial effects that:

(1) the uncolored layer body is arranged on the surface of the cup body, and the uncolored layer body and the cup body are integrally pressed and formed, so that the upper section of the upper glass cup has the uncolored function, and the phenomenon that lipstick or lipstick is adhered to the surface of a female user in the process of drinking water is prevented.

(2) According to the invention, the cup body and the uncolored layer body are assembled and then the ultrasonic detection device is adopted, so that the smoothness degree of the uncolored layer body position of the glass cup can be detected by utilizing the ultrasonic detection principle, and the uncolored characteristic of the glass cup can be ensured.

(3) According to the invention, the uncolored layer body is made of high borosilicate crystal glass with low coloring performance, so that the coloring characteristic of the cup edge position of the glass cup is effectively reduced, and therefore, lipstick or lipstick is prevented from being adhered to the surface and is inconvenient to clean.

Drawings

FIG. 1 is a schematic view of the construction of an uncolored glass of the invention;

FIG. 2 is a schematic view of an inventive uncolored glass manufacturing line;

FIG. 3 is a schematic view of the production flow of the uncolored glass of the present invention.

In the figure: 1. the glass is not colored; 2. a cup body production line; 3. a non-colored layer production line; 4. a cup body; 5. a non-pigmented layer; 6. subpackaging the pressing devices; 7. a material conveying device; 8. assembling a pressing device; 9. a flame polishing device; 10. an ultrasonic detection device; 11. an annealing device; 12. a hydraulic press; 13. pressing a punch; 14. a pressing table; 15. pressing a mould; 16. a material quantitative conveying cylinder; 17. assembling the platform; 18. flame heating the spray head; 19. assembling a mould; 20. assembling a die punch; 21. a molding pick-and-place device; 22. a position detection device.

Detailed Description

The present invention will be further described with reference to specific embodiments for the purpose of facilitating an understanding of technical means, characteristics of creation, objectives and functions realized by the present invention, but the following embodiments are only preferred embodiments of the present invention, and are not intended to be exhaustive. Based on the embodiments in the implementation, other embodiments obtained by those skilled in the art without any creative efforts belong to the protection scope of the present invention. The experimental methods in the following examples are conventional methods unless otherwise specified, and materials, reagents and the like used in the following examples are commercially available unless otherwise specified.

The first embodiment is as follows:

the invention provides a production process of an anti-dyeing glass cup as shown in figures 1-3, which comprises an uncolored glass cup 1, a cup body production line 2 and an uncolored layer body production line 3, wherein the uncolored glass cup 1 comprises a cup body 4 and an uncolored layer body 5, the uncolored layer body 5 and the cup body 4 are integrally pressed and formed by arranging the uncolored layer body 5 on the surface of the cup body 4, so that the upper section of the upper glass cup has the uncolored function, the surface adhesion of lipstick or lipstick caused by a female user in the process of drinking water is prevented, the cup body 4 and the uncolored layer body 5 are respectively manufactured by adopting the cup body production line 2 and the uncolored layer body production line 3, the cup body production line 2 and the uncolored layer body production line 3 both comprise a split charging pressing device 6 and a material conveying device 7, one side of the two split charging pressing devices 6 is provided with the same assembling, the device is characterized in that a flame polishing device 9 is arranged on one side of the assembling and pressing device 8, an ultrasonic detection device 10 is arranged on one side of the flame polishing device 9, the cup body 4 and the uncolored layer body 5 are assembled and then the ultrasonic detection device 10 is adopted, so that the smoothness of the uncolored layer body 5 of the glass can be detected by utilizing the ultrasonic detection principle, the uncolored characteristic of the glass can be ensured, an annealing device 11 is arranged on the rear side of the ultrasonic detection device 10, the subpackaging and pressing device 6 comprises a hydraulic press 12, a pressing punch 13 is arranged at the bottom of the hydraulic press 12, a pressing table 14 is arranged at the bottom of the pressing punch 13, a plurality of pressing dies 15 are arranged on the surface of the pressing table 14, the material conveying device 7 comprises a material quantitative conveying cylinder 16, and the bottom of the material quantitative conveying cylinder 16 is correspondingly arranged at, equipment suppression device 8 includes equipment platform 17, flame heating shower nozzle 18, assembly jig 19 and equipment mould drift 20, flame grinding device 9 adopts double-end flame sander setting, ultrasonic detection device 10 adopts the setting of ultrasonic detector, annealing device 11 adopts glass cup annealing line setting.

Further, in the above technical solution, a forming taking and placing device 21 is disposed between the sub-packaging pressing device 6, the assembling pressing device 8, the flame polishing device 9 and the ultrasonic detection device 10, and the forming taking and placing device 21 is disposed by using a mechanical gripper, so as to be beneficial to moving the glass cups formed by pressing to a corresponding position.

Further, in the above technical solution, the top of the separate loading and pressing device 6 and the top of the assembling and pressing device 8 are both provided with a position detection device 22, and the position detection device 22 is provided with a visual identification and positioning system, which is beneficial to detecting the positions of the pressing mold 15 and the assembling mold 19 through the position detection device 22.

Furthermore, in the above technical scheme, the thickness of one section of the top of the cup body 4 is smaller than the thickness of one section of the bottom of the cup body 4, the cup edge positions at the top of the cup body 4 are uniformly arranged, and the top and the bottom are integrally formed by pressing, so that the attractiveness of the glass cup is ensured.

Further, in the above technical solution, the cross-sectional shape of the cup rim of the non-coloring layer body 5 is a U-shape, and the inner diameter of the hollow part inside is matched with a section of the top of the cup body 4.

Further, in the above technical solution, the combination of the pressing die 15 and the pressing punch 13 of the pressing device 6 in the cup body production line 2 is matched with the cup body 4, and the combination of the pressing die 15 and the pressing punch 13 of the pressing device 6 in the non-coloring layer body production line 3 is matched with the coloring layer body.

Further, in the aboveIn the technical scheme, the cup body 4 is made of common glass materials, the uncolored layer body 5 is made of high-grade silicon crystal glass, the uncolored layer body 5 is arranged by adopting high-grade silicon crystal glass with low coloring performance, and the coloring characteristic of the edge position of the glass is effectively reduced, so that lipstick or lipstick is prevented from being adhered to the surface of the glass, and the glass is not convenient to clean, and the high-grade silicon crystal glass is made of the following raw materials in parts by weight: 60-75 parts of quartz sand, 8-12 parts of boron oxide, 5-8 parts of aluminum hydroxide, 1-4 parts of calcite, 0.2-0.6 part of potassium carbonate, 0.5-0.9 part of ferric oxide and 0.15 part of mirabilite, wherein the content of the ferric oxide is more than or equal to 80 x 10^-6The high-Peng silicon crystal glass is characterized in that the content of the mirabilite is 15%.

Based on the production process of the anti-dyeing glass cup, the manufacture steps of the Gaoyc silicon crystal glass are as follows:

s1: weighing raw materials of each component according to a formula, adding the raw materials into a mixer, uniformly mixing and stirring to prepare a mixture, putting the mixture into a kiln, and melting at the high temperature of 1400-1720 ℃;

s2: and pouring the melted glass batch mixture on a preheated glass tube mold, and immediately transferring the glass tube mold to an annealing kiln for annealing at the annealing temperature of 520-580 ℃ for 1.5-3 h to obtain the high borosilicate crystal glass with low coloring performance.

The production process of the anti-dyeing glass cup comprises the following steps:

s1: respectively selecting materials which are in line with the production of the uncolored glass 1, and respectively manufacturing the glass body 4 and the uncolored layer body 5;

s2: respectively heating and melting materials for manufacturing the cup body 4 and the non-coloring layer body 5 at 1300 ℃, conveying the materials to prevent conveying the materials into a pressing die 15 in a corresponding split charging and pressing device 6, rotating the pressing die 15 with the raw materials to a pressing punch 13 through a pressing table 14, driving the pressing punch 13 to punch the raw materials in the pressing die 15 through a hydraulic press 12, and pressing and forming the raw materials to respectively form the cup body 4 and the non-coloring layer body 5;

s3: the pressing platform 14 rotates, the cup body 4 and the uncolored layer body 5 which are formed by pressing are moved to the position of a forming taking and placing device 21 at the front end of an assembling and pressing device 8, the cup body 4 and the uncolored layer body 5 are grabbed and placed on an assembling platform 17 of the assembling device through the forming taking and placing device 21, the cup body 4 and the uncolored layer body 5 are assembled, the cup body 4 and the uncolored layer body 5 which are assembled are heated and softened by a flame heating touch head, the softened cup body 4 and the uncolored layer body 5 are placed in an assembling die 19, and the cup body 4 and the uncolored layer body 5 are integrally pressed and formed through an assembling die punch 20;

s4: grabbing the assembled and pressed non-colored glass cup 1 by a forming and taking device 21 on the other side of the assembling and pressing device 8 and putting the assembled and pressed non-colored glass cup 1 into a flame polishing device 9, and polishing the non-colored glass cup 1 by a double-head flame polisher;

s5: after polishing, the uncolored glass cup 1 is placed at the position of the ultrasonic detection device 10 through the forming taking and placing device 21, the smoothness of the surface of the uncolored glass cup 1 is detected through the ultrasonic detection device 10, the surface is prevented from being rough or uneven, the uncolored glass cup 1 which is qualified in detection is transferred to the position of the annealing device 11 for annealing, and the uncolored glass cup 1 which is unqualified in detection is transferred to the position of the flame polishing device 9 for polishing again;

s6: and sealing and storing the annealed finished product.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the preferred embodiments of the present invention are described in the above embodiments and the description, and are not intended to limit the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. The utility model provides a prevent dyeing glass cup production technology, includes uncolored glass cup (1), cup production line (2) and uncolored layer body production line (3), its characterized in that: the non-coloring glass cup (1) comprises a cup body (4) and a non-coloring layer body (5), the cup body (4) and the non-coloring layer body (5) are respectively manufactured by a cup body production line (2) and a non-coloring layer body production line (3), the cup body production line (2) and the non-coloring layer body production line (3) respectively comprise a sub-packaging pressing device (6) and a material conveying device (7), one side of the sub-packaging pressing device (6) is provided with a same assembling pressing device (8), one side of the assembling pressing device (8) is provided with a flame polishing device (9), one side of the flame polishing device (9) is provided with an ultrasonic detection device (10), the rear side of the ultrasonic detection device (10) is provided with an annealing device (11), the sub-packaging pressing device (6) comprises a hydraulic press (12), the bottom of the hydraulic press (12) is provided with a pressing punch (13), suppression drift (13) bottom is provided with suppression platform (14), suppression platform (14) surface is provided with a plurality of embossing mold utensil (15), material conveyor (7) are including material ration transport section of thick bamboo (16), material ration transport section of thick bamboo (16) bottom is located embossing mold utensil (15) top and corresponds the setting, equipment suppression device (8) are including equipment platform (17), flame heating shower nozzle (18), equipment mould utensil (19) and equipment mould drift (20), flame grinding device (9) adopt double-end flame sander setting, ultrasonic detection device (10) adopt the setting of ultrasonic detector, annealing device (11) adopt glass cup annealing line setting.

2. The process for producing a stain-resistant glass according to claim 1, wherein: the device comprises a subpackaging pressing device (6), an assembling pressing device (8), a flame polishing device (9) and an ultrasonic detection device (10), wherein a forming taking and placing device (21) is arranged between the devices, and the forming taking and placing device (21) is arranged by a mechanical gripper.

3. The process for producing a stain-resistant glass according to claim 1, wherein: the top of partial shipment suppression device (6) and equipment suppression device (8) all is provided with position detection device (22), position detection device (22) adopt visual identification positioning system to set up.

4. The process for producing a stain-resistant glass according to claim 1, wherein: the thickness of one section of the top of the cup body (4) is smaller than that of one section of the bottom of the cup body (4), the cup edge positions at the top of the cup body (4) are uniformly arranged, and the top and the bottom are integrally formed by pressing.

5. The process for producing a stain-resistant glass according to claim 1, wherein: the cross section of the cup edge of the non-coloring layer body (5) is in a U-shaped arrangement, and the inner diameter of the inner hollow part is matched with one section of the top of the cup body (4).

6. The process for producing a stain-resistant glass according to claim 1, wherein: the combination of the pressing die (15) and the pressing punch (13) of the pressing device (6) in the cup body production line (2) is matched with the cup body (4), and the combination of the pressing die (15) and the pressing punch (13) of the pressing device (6) in the non-coloring layer body production line (3) is matched with the coloring layer body.

7. The process for producing a stain-resistant glass according to claim 1, wherein: the glass body (4) is made of a common glass material, the non-coloring layer body (5) is made of Ganpeng silicon crystal glass, and the Ganpeng silicon crystal glass is made of the following raw materials in parts by weight: 60-75 parts of quartz sand, 8-12 parts of boron oxide, 5-8 parts of aluminum hydroxide, 1-4 parts of calcite, 0.2-0.6 part of potassium carbonate, 0.5-0.9 part of ferric oxide and 0.15 part of mirabilite, wherein the content of the ferric oxide is more than or equal to 80 x 10^-6The high-Peng silicon crystal glass is characterized in that the content of the mirabilite is 15%.

8. The process for producing a stain-resistant glass according to claim 7, wherein: the manufacturing steps of the high-Peng silicon crystal glass are as follows:

s1: weighing raw materials of each component according to a formula, adding the raw materials into a mixer, uniformly mixing and stirring to prepare a mixture, putting the mixture into a kiln, and melting at the high temperature of 1400-1720 ℃;

s2: and pouring the melted glass batch mixture on a preheated glass tube mold, and immediately transferring the glass tube mold to an annealing kiln for annealing at the annealing temperature of 520-580 ℃ for 1.5-3 h to obtain the high borosilicate crystal glass with low coloring performance.

9. The process of claim for producing a stain resistant glass comprising the steps of:

s1: respectively selecting materials which are in line with the production of the uncolored glass (1), and respectively manufacturing the glass body (4) and the uncolored layer body (5);

s2: respectively heating and melting materials for manufacturing the cup body (4) and the uncolored layer body (5), wherein the heating temperature is 1300 ℃, the materials are conveyed to prevent the materials from being conveyed into a pressing die (15) in a corresponding split charging and pressing device (6), a pressing table (14) rotates, the pressing die (15) filled with raw materials moves to the position of a pressing punch head (13), the pressing punch head (13) is driven by a hydraulic press (12) to punch the raw materials in the pressing die (15), and the raw materials are pressed and formed to respectively form the cup body (4) and the uncolored layer body (5);

s3: the pressing platform (14) rotates, the cup body (4) and the uncolored layer body (5) which are formed by pressing are moved to the position of a forming and taking device (21) at the front end of an assembling and pressing device (8), the cup body (4) and the uncolored layer body (5) are grabbed and placed on an assembling platform (17) of the assembling device through the forming and taking device (21), the cup body (4) and the uncolored layer body (5) are assembled, the cup body (4) and the uncolored layer body (5) which are assembled are heated and softened through a flame heating touch head, the softened cup body (4) and the uncolored layer body (5) are placed in an assembling die (19), and the cup body (4) and the uncolored layer body (5) are integrally pressed and formed through an assembling die punch (20);

s4: the assembled and pressed non-colored glass (1) is grabbed and placed at the position of the flame polishing device (9) by a forming, taking and placing device (21) at the other side of the assembling and pressing device (8), and the non-colored glass (1) is polished by a double-head flame polisher;

s5: after polishing, the uncolored glass (1) is placed at the position of an ultrasonic detection device (10) through a forming and taking device (21), the smoothness of the surface of the uncolored glass (1) is detected through the ultrasonic detection device (10), the surface is prevented from being rough or uneven, the uncolored glass (1) which is qualified in detection is transferred to an annealing device (11) for annealing, and the uncolored glass (1) which is unqualified in detection is transferred to a flame polishing device (9) for polishing again;

s6: and sealing and storing the annealed finished product.

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