CN113024112B - Production process of anti-staining glass - Google Patents

Abstract

The invention provides a production process of an anti-staining glass cup, which comprises an uncolored glass cup, a cup production line and an uncolored layer production line, wherein the uncolored glass cup comprises a cup body and an uncolored layer, the cup body and the uncolored layer are respectively manufactured by adopting the cup production line and the uncolored layer production line, the cup production line and the uncolored layer production line both comprise a split charging pressing device and a material conveying device, one side of each split charging pressing device is provided with the same assembly pressing device, one side of each assembly 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. According to the invention, the non-coloring layer body is arranged on the surface of the cup body, and the integral press forming is adopted, so that the upper section of the upper glass cup has a non-coloring function, and the phenomenon that the surface of the cup body is adhered with lipstick or lipstick in the drinking process of a female user is prevented.

Description

Production process of anti-staining glass

Technical Field

The invention relates to the technical field of glassware production, in particular to a production process of an anti-staining glass.

Background

The glass cup is a cup made of glass, is usually made of raw material borosilicate glass through high-temperature firing at more than 600 ℃, is a novel environment-friendly teacup, is more and more favored by people, and is healthiest in all materials. Because the glass does not contain organic chemical substances, people do not need to worry about harmful chemical substances being drunk into bellies when drinking water or other drinks by using the glass, and the glass has smooth surface and is easy to clean, so people drink water by using the glass is healthiest and safest.

However, in the drinking process of the glass, since the current women mostly have lipstick or lipstick, the lipstick or lipstick on the lips is easily adhered to the edge of the glass during drinking, which results in inconvenient cleaning and poor appearance.

Therefore, it is necessary to solve the above problems by inventing a process for producing a dyeing-proof glass

Disclosure of Invention

The invention aims to provide a production process of an anti-staining glass cup, which aims to solve the technical problems.

The invention aims to solve the technical problems, and is realized by adopting the following technical scheme:

the utility model provides a prevent dyeing glass cup production technology, includes uncoloured glass cup, cup production line and uncoloured layer body production line, uncoloured glass cup includes cup and uncoloured layer body, cup and uncoloured layer body adopt cup production line and uncoloured layer body production line preparation to form respectively, cup production line and uncoloured layer body production line all include partial shipment suppression device and material conveyor, two partial shipment suppression device one side is provided with same equipment suppression device, equipment suppression device one side is provided with flame grinding device, flame grinding device one side is provided with ultrasonic detection device, ultrasonic detection device rear side is provided with annealing device, partial shipment suppression device includes hydraulic press, hydraulic press bottom is provided with the suppression drift, the suppression drift bottom is provided with the pressing bench, the pressing bench surface is provided with a plurality of embossing die, material conveyor includes material ration transport section of thick bamboo, material ration transport section of thick bamboo bottom is located the corresponding setting in pressing die top, equipment suppression device includes equipment platform, flame heating shower nozzle, equipment die and equipment die, equipment suppression device one side is provided with ultrasonic detection device, the ultrasonic detection device rear side is provided with annealing device, the ultrasonic detection device adopts the ultrasonic detection device rear side to adopt the setting of glass to anneal device.

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

Preferably, the top of partial shipment suppression device and equipment suppression device all is provided with position detection device, position detection device adopts visual identification positioning system to set up.

Preferably, the thickness of the top section of the cup body is smaller than that of the bottom section of the cup body, the cup edges at the top of the cup body are uniformly arranged, and the top and the bottom are integrally formed by pressing.

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

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

Preferably, the cup body is made of a common glass material, the non-coloring layer body is made of high-boron silicon crystal glass, and the high-boron 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.

Based on the production process of the anti-staining glass, the production steps of the high-boron silicon crystal glass are as follows:

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

s2: and pouring the melted glass batch on a preheated glass tube mould, immediately transferring the glass tube mould into an annealing kiln for annealing, wherein the annealing temperature is 520-580 ℃, and the annealing time is 1.5-3 h, so that the high-boron silicon crystal glass with low coloring property is obtained.

Based on the production process of the anti-staining glass, the production process comprises the following steps:

s1: respectively selecting materials which are consistent with the production of the uncolored glass cup, and respectively manufacturing a cup body and an 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 into pressing dies in corresponding split-charging pressing devices through a material conveying device, rotating the pressing dies with raw materials to the pressing punch positions through a pressing table, driving the pressing punch to punch the raw materials in the pressing dies through a hydraulic press, and pressing and forming the raw materials to form the cup body and the non-coloring layer body respectively;

s3: the pressing table rotates, the cup body and the non-coloring layer body which are formed by pressing are moved to the position of a forming taking and placing device at the front end of the assembling and pressing device, the cup body and the non-coloring layer body are grabbed and placed on an assembling platform of the assembling and pressing device through the forming taking and placing device, the cup body and the non-coloring layer body are assembled, the assembled cup body and the non-coloring layer body are heated and softened through a flame heating nozzle, 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 formed by pressing through an assembling die punch;

s4: grabbing the uncolored glass cup formed by assembly and compression through a forming, taking and placing device at the other side of the assembly and compression device, placing the uncolored glass cup in a flame polishing device, and polishing the uncolored glass cup through a double-head flame polisher;

s5: after polishing, placing the uncolored glass into the position of an ultrasonic detection device through a forming taking-placing device, detecting the smoothness of the surface of the uncolored glass through the ultrasonic detection device, preventing the surface from being rough or uneven, transferring the unqualified uncolored glass to the position of an annealing device for annealing, and transferring the unqualified uncolored glass to the position of a flame polishing device for polishing again;

s6: and (5) storing the annealed finished product in a sealed box.

The beneficial effects of the invention are as follows:

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

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

(3) According to the invention, the non-coloring layer body is arranged by adopting high-boron silicon 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, the surface is prevented from being adhered with lipstick or lipstick, and the cleaning is inconvenient.

Drawings

FIG. 1 is a schematic illustration of the structure of an uncolored glass of the present invention;

FIG. 2 is a schematic diagram of the structure of an uncolored glass production line of the invention;

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

In the figure: 1. a non-tinting glass; 2. a cup body production line; 3. a non-colored layer production line; 4. a cup body; 5. a non-colored layer; 6. a sub-packaging pressing device; 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. a pressing mold; 16. a material quantitative conveying cylinder; 17. assembling a platform; 18. flame heating spray heads; 19. assembling a die; 20. assembling a die punch; 21. a forming, taking and placing device; 22. a position detecting device.

Detailed Description

In order that the manner in which the above recited features, objects and advantages of the present invention are obtained will become readily apparent, a more particular description of the invention will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings. Based on the examples in the embodiments, those skilled in the art can obtain other examples without making any inventive effort, which fall within the scope of the invention. The experimental methods in the following examples are conventional methods unless otherwise specified, and materials, reagents, etc. used in the following examples are commercially available unless otherwise specified.

Embodiment one:

the invention provides a dyeing-proof glass production process as shown in figures 1-3, which comprises an uncolored glass 1, a glass body production line 2 and an uncolored layer body production line 3, wherein the uncolored glass 1 comprises a glass body 4 and an uncolored layer body 5, the uncolored layer body 5 and the glass body 4 are arranged on the surface of the glass body 4 through an integral pressing forming mode, so that the upper section of the upper glass has an uncolored function, the surface of the upper glass is prevented from adhering lipstick or lipstick in the drinking process of female users, the glass body 4 and the uncolored layer body 5 are respectively manufactured by adopting the glass body production line 2 and the uncolored layer body production line 3, the glass body production line 2 and the uncolored layer body production line 3 both comprise a split pressing device 6 and a material conveying device 7, one side of the split pressing device 6 is provided with the same assembly pressing device 8, the assembly pressing device 8 is provided with a flame polishing device 9 on one side, the flame polishing device 9 is provided with an ultrasonic detection device 10 on one side, the ultrasonic detection device 10 is adopted after the cup body 4 and the uncoloured layer body 5 are assembled, so that the smoothness of the uncoloured layer body 5 of the glass is detected by utilizing the ultrasonic detection principle, the uncoloured characteristic of the glass is ensured, the rear side of the ultrasonic detection device 10 is provided with an annealing device 11, the split charging pressing device 6 comprises a hydraulic press 12, the bottom of the hydraulic press 12 is provided with a pressing punch 13, the bottom of the pressing punch 13 is provided with a pressing table 14, the surface of the pressing table 14 is provided with a plurality of pressing dies 15, the material conveying device 7 comprises a material quantitative conveying cylinder 16, the bottom of the material quantitative conveying cylinder 16 is correspondingly arranged at the top of the pressing dies 15, the assembly pressing device 8 comprises an assembly platform 17, a flame heating spray head 18, an assembly die 19 and an assembly die punch 20, the flame polishing device 9 is arranged by adopting a double-head flame sander, the ultrasonic detection device 10 is arranged by adopting an ultrasonic detector, and the annealing device 11 is arranged by adopting a glass annealing line.

Furthermore, in the above technical scheme, the two devices of the sub-packaging pressing device 6, the assembling pressing device 8, the flame polishing device 9 and the ultrasonic detection device 10 are respectively provided with a forming taking and placing device 21, and the forming taking and placing device 21 is arranged by a mechanical gripper, so that the glass cup formed by pressing is favorably moved to a corresponding position.

Further, in the above technical solution, the top parts of the sub-packaging pressing device 6 and the assembling pressing device 8 are respectively provided with a position detecting device 22, and the position detecting devices 22 are arranged by adopting a visual identification positioning system, so that the positions of the pressing mold 15 and the assembling mold 19 can be detected through the position detecting devices 22.

Further, in the above technical scheme, the thickness of the first section in top of cup 4 is less than the thickness of the first section in bottom of cup 4, and is located the even setting in cup limit position in cup 4 top, and top and bottom are integrated into one piece press forming setting, are favorable to guaranteeing glass's aesthetic measure.

Furthermore, in the above technical scheme, the cross-section shape of the cup edge of the non-coloring layer body 5 is U-shaped, and the inner diameter size of the hollow part in the interior is matched with the top section 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 sub-packaging 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 sub-packaging pressing device 6 in the non-coloring layer body production line 3 is matched with the non-coloring layer body 5.

Further, in the above technical solution, the cup body 4 is made of a common glass material, the non-coloring layer body 5 is made of high borosilicate crystal glass with low coloring performance, and the coloring characteristic of the cup edge position of the glass cup is effectively reduced, so that the surface is prevented from adhering lipstick or lipstick, and cleaning is inconvenient, and the high borosilicate 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.

Based on the production process of the anti-staining glass, the production steps of the high-boron silicon crystal glass are as follows:

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

s2: and pouring the melted glass batch on a preheated glass tube mould, immediately transferring the glass tube mould into an annealing kiln for annealing, wherein the annealing temperature is 520-580 ℃, and the annealing time is 1.5-3 h, so that the high-boron silicon crystal glass with low coloring property is obtained.

Based on the production process of the anti-staining glass, the production process comprises the following steps:

s1: respectively selecting materials which are consistent with the production of the uncolored glass cup 1, and respectively manufacturing a cup body 4 and an uncolored layer body 5;

s2: the materials for manufacturing the cup body 4 and the non-coloring layer body 5 are respectively heated and melted, the heating temperature is 1300 ℃, the materials are conveyed into the corresponding pressing dies 15 in the sub-packaging pressing device 6 through the material conveying device 7, the pressing dies 15 filled with raw materials are moved to the pressing punch 13 through the rotation of the pressing table 14, the pressing punch 13 is driven by the hydraulic pressing machine 12 to press the raw materials in the pressing dies 15, and the raw materials are pressed and molded to form the cup body 4 and the non-coloring layer body 5 respectively;

s3: the pressing table 14 rotates, the cup body 4 and the non-coloring layer body 5 which are formed by pressing are moved to the position of the forming taking and placing device 21 at the front end of the assembling and pressing device 8, the cup body 4 and the non-coloring layer body 5 are grabbed and placed on the assembling platform 17 of the assembling and pressing device 8 through the forming taking and placing device 21, the cup body 4 and the non-coloring layer body 5 are assembled, the assembled cup body 4 and the assembled non-coloring layer body 5 are heated and softened through the flame heating spray nozzle 18, the softened cup body 4 and the softened non-coloring layer body 5 are placed in the assembling die 19, and the cup body 4 and the non-coloring layer body 5 are integrally formed by pressing through the assembling die punch 20;

s4: the non-colored glass cup 1 formed by assembly and compression is grabbed and placed in the position of a flame polishing device 9 by a forming taking-placing device 21 on the other side of the assembly and compression device 8, and the non-colored glass cup 1 is polished by a double-head flame polisher;

s5: after polishing, placing the uncolored glass 1 into the position of an ultrasonic detection device 10 through a forming and taking-out device 21, detecting the smoothness of the surface of the uncolored glass 1 through the ultrasonic detection device 10 to prevent the surface from being rough or uneven, transferring the unqualified uncolored glass 1 to the position of an annealing device 11 for annealing, and transferring the unqualified uncolored glass 1 to the position of a flame polishing device 9 for polishing again;

s6: and (5) storing the annealed finished product in a sealed box.

The foregoing has shown and described the basic principles, principal 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 above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present invention, and are not intended to limit the invention, and that various changes and modifications may be made therein without departing from the spirit and scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. The production process of the anti-staining glass is characterized by comprising the following steps of: the uncoloured glass cup (1) comprises a cup body (4) and an uncoloured layer body (5), the cup body (4) and the uncoloured layer body (5) are respectively manufactured by adopting a cup body production line (2) and an uncoloured layer body production line (3), the cup body production line (2) and the uncoloured layer body production line (3) both comprise a sub-packaging pressing device (6) and a material conveying device (7), one side of the two sub-packaging pressing devices (6) is provided with the same assembly pressing device (8), the cup body (4) and the uncoloured layer body (5) are integrally pressed and formed, one side of the assembly 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 pressing machine (12), the bottom of the hydraulic pressing machine (12) is provided with a pressing punch (13), the bottom of the pressing punch (13) is provided with a pressing table (14), one side of the pressing table (14) is provided with a pressing material conveying device (16), the quantitative material conveying device (16) is arranged on the top of the cylinder (16) corresponding to the pressing die (16), the assembly pressing device (8) comprises an assembly platform (17), a flame heating spray head (18), an assembly die (19) and an assembly die punch (20), wherein the flame polishing device (9) is arranged by adopting a double-head flame polisher, the ultrasonic detection device (10) is arranged by adopting an ultrasonic detector, and the annealing device (11) is arranged by adopting a glass annealing line;

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 edges at the top of the cup body (4) are uniformly arranged, and the top and the bottom are integrally pressed and formed;

the cross section of the cup edge of the non-coloring layer body (5) is U-shaped, and the inner diameter size of the hollow part of the inner part is matched with the top section of the cup body (4);

the cup body (4) is made of a common glass material, the non-coloring layer body (5) is made of high-boron silicon crystal glass, and the high-boron 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.

2. The process for producing the anti-staining glass according to claim 1, wherein the process comprises the following steps of: the device is characterized in that a forming taking and placing device (21) is arranged between the split charging 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 arranged by a mechanical gripper.

3. The process for producing the anti-staining glass according to claim 1, wherein the process comprises the following steps of: 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 the anti-staining glass according to claim 1, wherein the process comprises the following steps of: the combination of a pressing die (15) and a pressing punch (13) of the sub-packaging 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 sub-packaging pressing device (6) in the non-coloring layer body production line (3) is matched with the non-coloring layer body (5).

5. The process for producing the anti-staining glass according to claim 1, wherein the process comprises the following steps of: the preparation steps of the high-boron silicon crystal glass are as follows:

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

s2: and pouring the melted glass batch on a preheated glass tube mould, immediately transferring the glass tube mould into an annealing kiln for annealing, wherein the annealing temperature is 520-580 ℃, and the annealing time is 1.5-3 h, so that the high-boron silicon crystal glass with low coloring property is obtained.

6. A process for producing a stain-resistant glass as defined in claim 2, comprising the steps of:

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

s2: heating and melting materials for manufacturing the cup body (4) and the non-coloring layer body (5) respectively, wherein the heating temperature is 1300 ℃, the materials are conveyed into pressing dies (15) in corresponding sub-packaging pressing devices (6) through a material conveying device (7), the pressing dies (15) filled with raw materials are moved to the pressing punch (13) through rotation of a pressing table (14), the pressing punch (13) is driven by a hydraulic press (12) to press the raw materials in the pressing dies (15), and the raw materials are pressed and molded to form the cup body (4) and the non-coloring layer body (5) respectively;

s3: the pressing table (14) rotates, the cup body (4) and the non-coloring 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 the assembly pressing device (8), the cup body (4) and the non-coloring layer body (5) are grabbed and placed on an assembly platform (17) of the assembly pressing device (8) through the forming taking and placing device (21), the cup body (4) and the non-coloring layer body (5) are assembled, the assembled cup body (4) and the non-coloring layer body (5) are heated and softened through a flame heating nozzle (18), the softened cup body (4) and the softened non-coloring layer body (5) are placed in an assembly die (19), and the cup body (4) and the non-coloring layer body (5) are integrally pressed and formed through an assembly die punch (20);

s4: the non-colored glass cup (1) formed by assembly and compression is grabbed and placed in the position of a flame polishing device (9) through a forming taking-out device (21) on the other side of the assembly and compression device (8), and the non-colored glass cup (1) is polished through a double-head flame polisher;

s5: after polishing, the uncolored glass cup (1) is placed in the position of an ultrasonic detection device (10) through a forming taking-placing device (21), the smoothness of the surface of the uncolored glass cup (1) is detected through the ultrasonic detection device (10), the surface roughness or the roughness is prevented, the unqualified uncolored glass cup (1) is transferred to the position of an annealing device (11) for annealing, and the unqualified uncolored glass cup (1) is transferred to the position of a flame polishing device (9) for polishing again;

s6: and (5) storing the annealed finished product in a sealed box.