WO2019210562A1

WO2019210562A1 - Production method for connecting waist and sealing openings of thermal insulation glass container

Info

Publication number: WO2019210562A1
Application number: PCT/CN2018/093234
Authority: WO
Inventors: 陈金如; 汤鸿光; 汤正富
Original assignee: 顺帆家庭用品(南通)有限公司
Priority date: 2018-05-03
Filing date: 2018-06-28
Publication date: 2019-11-07
Also published as: CN108558183A

Abstract

Disclosed is a production method for connecting the waist and sealing ports of a thermal insulation glass container. The method comprises: forming an inner bottle liner (1) and an outer bottle liner (2) by means of blowing, cutting the inner bottle liner (1) and the outer bottle liner (2), welding a tail pipe (3) to the bottom of the outer bottle liner (2), drawing a line on the upper middle portion of the outer bottle liner (2) and transversely cutting along the line, placing the inner bottle liner (1) into the lower portion of the outer bottle liner (2) to form a combined bottle liner, and placing asbestos between the bottom of the inner bottle liner and the bottom of the outer bottle liner; placing the combined bottle liner into a waist connector chuck (4) to re-fuse the waist of the outer bottle liner (2) and perform an annealing treatment; sealing liner port portions of the inner bottle liner (1) and the outer bottle liner (2), and performing an annealing treatment; and performing air cooling on the interior of the product, which has been subjected to an annealing treatment, and performing water cooling on the exterior thereof to lower the temperature, so that operations on the product are completed and same awaits the operation of the next procedure.

Description

一种玻璃保温容器接腰封口的生产方法Method for producing glass insulated container with waist seal

技术领域Technical field

本发明涉及一种玻璃保温容器，特别是一种玻璃保温容器接腰封口的生产方法。The invention relates to a glass thermal insulation container, in particular to a production method for a glass thermal insulation container to be connected with a waist seal.

背景技术Background technique

现有的玻璃保温容器接腰封口的方法，如图1所示，先在经吹泡机吹制的瓶胆先割内外瓶瓶口，外瓶底部接尾管，外瓶腰部划线切腰，将内瓶瓶胆放入外瓶上段并在内外瓶腰上部塞石棉将内瓶固定，将组合瓶胆瓶口向下放入接腰机夹头，再将外瓶下部对线放正，夹头旋转，预热火头对接腰部位进行预热，当瓶胆接腰部温度上升到适当温度时，进入接腰工位，人工用接腰火头对切腰部进行快速加热，使接腰部成熔熔状态，将外瓶上下段烧熔连接，人工将外瓶上段提1MM，手拉接腰园盘将接腰瓶胆送入退火区进行退火，送入输送带，人工取瓶胆放在手封台上对瓶进行人工封口，再冷风退火，完成接腰封口，但这种生产方法通过将石棉粒放在瓶胆接腰上部，瓶胆在后续加工中要注入水，石棉粒要膨胀，有些外瓶承受不住径向压力，在后续加工中，容易产生爆瓶现象，且需要人工取瓶胆放在手封台上对瓶进行人工封口，使得人员劳动强度增大，生产效率低。The existing method for the glass insulated container to be connected with the waist seal is as shown in Fig. 1. First, the bottle liner blown by the bubble blowing machine first cuts the inner and outer bottle mouth, the bottom of the outer bottle is connected with the tail tube, and the outer bottle is lined with the waist to cut the waist. Put the inner bottle liner into the upper part of the outer bottle and fix the inner bottle with asbestos in the upper part of the inner and outer bottle waist. Put the bottle of the combination bottle into the waist machine chuck, and then put the lower part of the outer bottle on the line. The head rotates, and the preheating of the fire head is preheated to the waist part. When the temperature of the bottle and the waist rises to an appropriate temperature, the waist station is entered, and the waist is quickly heated by the artificially connected waist, so that the waist is melted. The upper and lower sections of the outer bottle are burned and connected, and the upper part of the outer bottle is manually lifted by 1MM. The waist bottle is hand-joined and sent to the annealing zone for annealing, feeding into the conveyor belt, and the manual bottle is placed on the hand sealing platform. The bottle is manually sealed, and then cold-annealed to complete the waist sealing. However, this production method puts the asbestos particles on the upper part of the bottle, and the bottle is filled with water in the subsequent processing. The asbestos particles are to be expanded, some outside. The bottle can not withstand the radial pressure, in the subsequent processing, it is easy to burst The bottle phenomenon, and the manual bottle is taken on the hand sealing table to manually seal the bottle, so that the labor intensity is increased and the production efficiency is low.

发明内容Summary of the invention

本发明的目的在于提供一种提高生产效率，降低劳动强度的一种玻璃保温容器接腰封口的生产方法。The object of the present invention is to provide a method for producing a glass insulated container with a waist seal for improving production efficiency and reducing labor intensity.

为实现上述目的，本发明提供如下技术方案，一种玻璃保温容器接腰封口的生产方法，包括如下步骤，In order to achieve the above object, the present invention provides the following technical solution, a method for producing a glass insulated container with a waist seal, comprising the following steps:

A、通过吹泡机将玻璃材料吹制内瓶胆和外瓶胆，所述内瓶胆内的容积小于外瓶胆内的容积；A. blowing the glass material into the inner bottle and the outer bottle by a bubbler, wherein the volume inside the inner bottle is smaller than the volume inside the outer bottle;

B、取吹制完成的内瓶胆和外瓶胆半成品，然后先割内瓶胆和外瓶胆的瓶口，再在所述外瓶胆底面靠近侧腰部位进行焊接尾管；B. Take the inner bottle liner and the outer bottle liner semi-finished product, and then cut the bottle mouth of the inner bottle liner and the outer bottle liner, and then weld the tail pipe on the bottom surface of the outer bottle liner near the side waist portion;

C、在已经接好尾管的所述外瓶胆的中上部即在所述外瓶胆上圆弧连接处的下端位置划纵向记号线，并将所述外瓶胆通过火焰加热后用砂轮机冷爆横向切开；C. Mark a longitudinal marking line at the upper middle end of the outer bottle that has been connected to the tail pipe, that is, at the lower end position of the arc connection on the outer bottle, and use the grinding wheel after the outer bottle is heated by the flame. The machine is cold-exploded horizontally;

D、将所述内瓶胆放入所述外瓶胆的下部中，并用石棉将所述内瓶胆的外底部和所述外瓶胆的内底部之间进行固定，形成组合瓶胆,并在瓶胆内放入具有隔热效果的隔热层固定在外瓶胆和内瓶胆之间；D. placing the inner bottle into the lower part of the outer bottle, and fixing the outer bottom of the inner bottle and the inner bottom of the outer bottle with asbestos to form a combination bottle, and An insulating layer having a heat insulating effect is placed in the bottle liner between the outer bottle liner and the inner bottle liner;

E、将组合瓶胆瓶口向上放入接腰机夹头中，再将切割下来的所述外瓶胆的中上部与组合瓶胆中所述外瓶胆上的划线进行对线放正，旋转接腰机夹头，并用预热火头对接腰部位进行预热，加热至550～600℃时，用接腰火头对接腰部位加热至1300～1400℃，使接腰部位呈熔融状态，然后将所述外瓶胆的下部和中上部烧熔连接，并通过机械手将所述外瓶胆的中上部上提0.5mm-1.5mm，使接腰部位的连接处圆滑光洁；E. Put the bottle neck of the bottle into the waist clamp, and then align the middle and upper parts of the cut outer bottle with the line on the outer bottle of the combination bottle. Rotate the waist machine chuck and preheat the buttocks with the preheating fire head. When heating to 550-600 °C, use the waist-fired butt joint to heat the waist to 1300-1400 °C, so that the waist is molten. The lower portion and the upper middle portion of the outer bottle liner are sintered and connected, and the upper and middle portions of the outer bottle liner are lifted by 0.5 mm to 1.5 mm by a robot to make the joint portion of the waist joint portion smooth and smooth;

F、将接腰后的所述外瓶胆2用退火火头对接腰部位进行退火处理，使接腰部位温度为500～750℃，同时用加热火头烧熔所述内瓶胆的胆口，使所述内瓶胆的胆口温度为1000-1100℃，使胆口位置呈半熔融状态,虽然用压轮对内瓶胆胆口进行翻边处理，同时再用排火烧熔所述外瓶胆瓶口，此时所述外瓶胆胆口的温度为1300～1400℃，将所述内瓶胆和所述外瓶胆的胆口部进行封口，封口后进行退火处理；F. The outer bottle liner 2 after the waist is annealed with the annealing fire head to the waist portion, so that the temperature of the waist portion is 500-750 ° C, and the bile mouth of the inner bottle liner is sintered by heating the fire head, so that The bile mouth temperature of the inner bottle liner is 1000-1100 ° C, so that the position of the bile mouth is semi-molten, although the inner bottle bile mouth is subjected to the cuffing treatment by the pressure wheel, and the outer bottle liner is further fired by the fire. a bottle mouth, at which time the temperature of the outer bottle bile port is 1300 to 1400 ° C, and the inner bottle liner and the bile mouth portion of the outer bottle liner are sealed, and then annealed after sealing;

G、将退火完成的产品通过先进行风冷处理，将其胆口内部进行降温处理，而产品的外部则通过水冷进行外部降温，从而使其完成操作等待下一工序的操作。G. The product after annealing is subjected to air-cooling treatment, and the inside of the bile is cooled, and the outside of the product is externally cooled by water cooling, so that the operation is completed and waiting for the next operation.

进一步，所述外瓶胆2上的记号线为圆弧连接处向下20mm-25mm。Further, the marking line on the outer bottle 2 is a circular arc connection 20 mm - 25 mm downward.

进一步，所述瓶胆内放入具有隔热效果的隔热层为玻璃纤维、石棉、岩棉或气凝胶毡。Further, the heat insulating layer having the heat insulating effect in the bottle liner is glass fiber, asbestos, rock wool or aerogel felt.

进一步，所述所述外瓶胆上的记号线为圆弧连接处向下22.5mm。Further, the marking line on the outer bottle is 22.5 mm downward at the arc connection.

进一步，所述步骤G中的风冷为冷风箱，位于冷风箱一侧设有冷风管，所述冷风管插接在瓶胆内，然后开启冷风箱，其空气则通过冷风管进入到瓶胆内部，从而到达冷风的效果。Further, the air-cooling in the step G is a cold air box, and a cold air pipe is disposed on one side of the cold air box, the cold air pipe is inserted into the bottle liner, and then the cold air box is turned on, and the air enters the bottle liner through the cold air pipe. Internal, thus reaching the effect of cold wind.

进一步，所述步骤G中的水冷为水冷瓶，位于水冷瓶外表环形缠绕着水冷管，位于水冷瓶一侧设有水箱，所述水冷管一端设有在水箱底端，所述水冷管的另一端设置在水箱上端，位于水箱上端的水冷管处还设水泵，其瓶胆放置在水冷瓶内，水冷管上的水泵开设运转，使其水箱内的水在水冷管辅助下在水冷瓶外表面进行循环往复的运动，从而使得瓶胆的外表面进行水冷。Further, the water cooling in the step G is a water-cooled bottle, and the water-cooled bottle is annularly wrapped around the water-cooled tube, and a water tank is arranged on one side of the water-cooled bottle, and one end of the water-cooled tube is disposed at the bottom end of the water tank, and the water-cooled tube is further One end is arranged at the upper end of the water tank, and a water pump is arranged at the water-cooled pipe at the upper end of the water tank. The bottle liner is placed in the water-cooled bottle, and the water pump on the water-cooled pipe is opened, so that the water in the water tank is assisted by the water-cooled pipe on the outer surface of the water-cooled bottle. The reciprocating motion is performed so that the outer surface of the bottle is water-cooled.

与现有技术相比，本发明的技术方案具有如下优点：Compared with the prior art, the technical solution of the present invention has the following advantages:

1.本发明所提供的一种玻璃保温容器接腰封口的生产方法，其通过将石棉粒放在瓶胆底部，石棉粒膨胀，产生轴向力和轻微的径向分力，瓶胆能承受足够大的轴向力，因此瓶胆在后续加工中不易爆瓶，从而提高了生产效率，增加内瓶翻边工艺，降低能耗。1. The invention provides a method for producing a glass insulated container with a waist seal, wherein the asbestos particles are expanded at the bottom of the bottle, and the asbestos particles are expanded to generate an axial force and a slight radial component, and the bottle can withstand The axial force is large enough, so the bottle is not easy to burst in the subsequent processing, thereby improving the production efficiency, increasing the inner bottle flanging process and reducing the energy consumption.

2.风冷为冷风箱，位于冷风箱一侧设有冷风管，所述冷风管插接在瓶胆内，然后开启冷风箱，其空气则通过冷风管进入到瓶胆内部，从而到达冷风的效果，水冷为水冷瓶，位于水冷瓶外表环形缠绕着水冷管，位于水冷瓶一侧设有水箱，所述水冷管一端设有在水箱底端，所述水冷管的另一端设置在水箱上端，位于水箱上端的水冷管处还设水泵，其瓶胆放置在水冷瓶内，水冷管上的水泵开设运转，使其水箱内的水在水冷管辅助下在水冷瓶外表面进行循环往复的运动，从而使得瓶胆的外表面进行水冷，其通过风冷和水冷两者相结合对胆瓶冷却效果好，同时减少了胆瓶等待的时间，从而提高了工作效率。2. The air-cooled air is a cold air box, and a cold air duct is arranged on one side of the cold air box. The cold air duct is inserted into the bottle liner, and then the cold air box is opened, and the air enters the bottle liner through the cold air tube, thereby reaching the cold air. The effect is that the water is cooled into a water-cooled bottle, and the water-cooled bottle is surrounded by a water-cooled tube, and a water tank is arranged on one side of the water-cooled bottle, one end of the water-cooled tube is disposed at the bottom end of the water tank, and the other end of the water-cooled tube is disposed at the upper end of the water tank. The water-cooled pipe at the upper end of the water tank is further provided with a water pump, and the bottle liner is placed in the water-cooled bottle, and the water pump on the water-cooled pipe is opened, so that the water in the water tank is circulated and reciprocated on the outer surface of the water-cooled bottle with the aid of the water-cooled pipe. Thereby, the outer surface of the bottle liner is water-cooled, and the combination of air cooling and water cooling combines the cooling effect of the bile bottle, and reduces the waiting time of the bile bottle, thereby improving the working efficiency.

具体实施方式detailed description

下面结合附图和实施例对本发明进一步说明。The invention will now be further described with reference to the drawings and embodiments.

图1为本发明一种玻璃保温容器接腰封口的生产方法的流程结构原理图。1 is a schematic structural diagram of a process for producing a glass insulated container with a waist seal according to the present invention.

图2为本发明一种玻璃保温容器接腰封口的生产方法的风冷结构示意图。2 is a schematic view showing the air-cooling structure of a method for producing a glass insulated container with a waist seal according to the present invention.

图3为本发明一种玻璃保温容器接腰封口的生产方法的水冷结构示意图。3 is a schematic view showing the water-cooling structure of a method for producing a glass insulated container with a waist seal according to the present invention.

图中：1.内瓶胆；2.外瓶胆；3.尾管；4.接腰机夹头；5.压轮；6.预热火头；7.接腰火头；8.机械手；9.退火火头；10.加热火头；11.排火；12.冷风箱；13.冷风管；14.水冷瓶；15.水冷管；16.水箱；17.水泵。In the figure: 1. inner bottle gallbladder; 2. outer bottle gallbladder; 3. tail tube; 4. waist machine chuck; 5. pressure wheel; 6. preheating fire head; 7. waisting fire head; 8. manipulator; Annealing fire head; 10. heating fire head; 11. fire; 12. cold air box; 13. cold air tube; 14. water-cooled bottle; 15. water-cooled tube; 16. water tank;

实施例Example

如图1-3所示，本发明实施例所述的为实现上述目的，本发明提供如下技术方案，A、通过吹泡机将玻璃材料吹制内瓶胆1和外瓶胆2，所述内瓶胆1内的容积小于外瓶胆2内的容积；As shown in FIG. 1-3, in order to achieve the above object, the present invention provides the following technical solutions. A. Blowing a glass material into an inner bottle liner 1 and an outer bottle liner 2 by a bubbler. The volume inside the inner bottle 1 is smaller than the volume inside the outer bottle 2;

B、取吹制完成的内瓶胆1和外瓶胆2半成品，然后先割内瓶胆1和外瓶胆2的瓶口，再在所述外瓶胆2底面靠近侧腰部位进行焊接尾管3；B. Take the inner bottle liner 1 and the outer bottle liner 2 semi-finished product, and then cut the bottle mouth of the inner bottle liner 1 and the outer bottle liner 2, and then weld the tail on the bottom surface of the outer bottle liner 2 near the side waist portion. Tube 3;

C、在已经接好尾管3的所述外瓶胆2的中上部即在所述外瓶胆2上圆弧连接处的下端位置划纵向记号线，并将所述外瓶胆2通过火焰加热后用砂轮机冷爆横向切开；C. A longitudinal marking line is drawn at the upper middle portion of the outer bottle liner 2 to which the tail pipe 3 has been connected, that is, at the lower end position of the circular arc joint on the outer bottle liner 2, and the outer bottle liner 2 is passed through a flame. After heating, the wind turbine is cold-exploded transversely;

D、将所述内瓶胆1放入所述外瓶胆2的下部中，并用石棉将所述内瓶胆1的外底部和所述外瓶胆2的内底部之间进行固定，形成组合瓶胆,并在瓶胆内放入具有隔热效果的隔热层固定在外瓶胆2和内瓶胆1之间；D. The inner bottle liner 1 is placed in the lower portion of the outer bottle liner 2, and the outer bottom of the inner bottle liner 1 and the inner bottom portion of the outer bottle liner 2 are fixed with asbestos to form a combination. a bottle liner and a heat insulating layer in the bottle liner is fixed between the outer bottle liner 2 and the inner bottle liner 1;

E、将组合瓶胆瓶口向上放入接腰机夹头4中，再将切割下来的所述外瓶胆2的中上部与组合瓶胆中所述外瓶胆2上的划线进行对线放正，旋转接腰机夹头4，并用预热火头6对接腰部位进行预热，加热至550～600℃时，用接腰火头7对接腰部位加热至1300～1400℃，使接腰部位呈熔融状态，然后将所述外瓶胆2的下部和中上部烧熔连接，并通过机械手8将所述外瓶胆2的中上部上提0.5mm-1.5mm，使接腰部位的连接处圆滑光洁；E. Put the bottle neck of the bottle into the waist machine collet 4, and then cut the middle and upper parts of the cut outer bottle 2 and the line on the outer bottle 2 in the combination bottle. The wire is placed in the positive direction, the waist clamp 4 is rotated, and the butt joint portion of the preheating fire head 6 is preheated. When heated to 550 to 600 ° C, the waist portion of the butt joint is heated to 1300 to 1400 ° C to make the waist. The position is in a molten state, and then the lower portion and the upper middle portion of the outer bottle liner 2 are sintered and connected, and the upper and middle portions of the outer bottle liner 2 are lifted by the robot 8 by 0.5 mm to 1.5 mm to connect the waist joint portion. Sleek and smooth;

F、将接腰后的所述外瓶胆2用退火火头9对接腰部位进行退火处理，使接腰部位温度为500～750℃，同时用加热火头10烧熔所述内瓶胆1的胆口，使所述内瓶胆1的胆口温度为1000-1100℃，使胆口位置呈半熔融状态,虽然用压轮5对内瓶胆胆口进行翻边处理，同时再用排火11烧熔所述外瓶胆2瓶口，此时所述外瓶胆2胆口的温度为1300～1400℃，将所述内瓶胆1和所述外瓶胆2的胆口部进行封口，封口后进行退火处理；F. The outer bottle liner 2 after the waist is annealed with the annealing fire head 9 to the waist portion, so that the temperature of the waist portion is 500-750 ° C, and the heat of the inner bottle bladder 1 is melted by the heating head 10 The mouth is such that the bile temperature of the inner bottle liner 1 is 1000-1100 ° C, so that the position of the bile mouth is semi-molten, although the pressure bottle 5 is used for the cuffing of the inner bottle bile, and the fire is repeatedly used 11 Blowing the outer bottle liner 2 bottles, at which time the temperature of the outer bottle liner 2 is 1300-1400 ° C, and the inner bottle liner 1 and the bile portion of the outer bottle liner 2 are sealed. Annealing after sealing;

进一步，所述所述外瓶胆2上的记号线为圆弧连接处向下22.5mm。Further, the marking line on the outer bottle 2 is 22.5 mm downward at the arc connection.

进一步，所述步骤G中的风冷为冷风箱12，位于冷风箱12一侧设有冷风管13，所述冷风管13插接在瓶胆内，然后开启冷风箱12，其空气则通过冷风管13进入到瓶胆内部，从而到达冷风的效果。Further, the air cooling in the step G is the cold air box 12, and the cold air duct 13 is disposed on the side of the cold air box 12, the cold air tube 13 is inserted into the bottle liner, and then the cold air box 12 is opened, and the air passes through the cold air. The tube 13 enters the interior of the bottle to achieve the effect of cold air.

进一步，所述步骤G中的水冷为水冷瓶14，位于水冷瓶14外表环形缠绕着水冷管15，位于水冷瓶14一侧设有水箱16，所述水冷管15一端设有在水箱16底端，所述水冷管15的另一端设置在水箱16上端，位于水箱16上端的水冷管15处还设水泵17，其瓶胆放置在水冷瓶14内，水冷管15上的水泵17开设运转，使其水箱16内的水在水冷管15辅助下在水冷瓶14外表面进行循环往复的运动，从而使得瓶胆的外表面进行水冷。Further, the water cooling in the step G is a water-cooled bottle 14 , and the water-cooled bottle 14 is annularly wound around the water-cooled tube 15 , and the water-cooled bottle 14 is disposed on the water-cooled bottle 14 side with a water tank 16 , and one end of the water-cooled tube 15 is disposed at the bottom end of the water tank 16 . The other end of the water-cooling pipe 15 is disposed at the upper end of the water tank 16. The water-cooling pipe 15 at the upper end of the water tank 16 is further provided with a water pump 17, and the bottle is placed in the water-cooled bottle 14, and the water pump 17 on the water-cooling pipe 15 is opened to operate. The water in the water tank 16 is circulated and reciprocated on the outer surface of the water-cooled bottle 14 with the aid of the water-cooling tube 15, so that the outer surface of the bottle liner is water-cooled.

本实施例所提供的一种玻璃保温容器接腰封口的生产方法，本发明所提供的一种玻璃保温容器接腰封口的生产方法，其通过将石棉粒放在瓶胆底部，石棉粒膨胀，产生轴向力和轻微的径向分力，瓶胆能承受足够大的轴向力，因此瓶胆在后续加工中不易爆瓶，从而提高了生产效率，增加内瓶翻边工艺，降低能耗，风冷为冷风箱12，位于冷风箱12一侧设有冷风管13，所述冷风管13插接在瓶胆内，然后开启冷风箱12，其空气则通过冷风管13进入到瓶胆内部，从而到达冷风的效果，水冷为水冷瓶14，位于水冷瓶14外表环形缠绕着水冷管15，位于水冷瓶15一侧设有水箱16，所述水冷管15一端设有在水箱16底端，所述水冷管15的另一端设置在水箱16上端，位于水箱16上端的水冷管15处还设水泵17，其瓶胆放置在水冷瓶14内，水冷管15上的水泵17开设运转，使其水箱16内的水在水冷管15辅助下在水冷瓶14外表面进行循环往复的运动，从而使得瓶胆的外表面进行水冷，其通过风冷和水冷两者相结合对胆瓶冷却效果好，同时减少了胆瓶等待的时间，从而提高了工作效率。The method for producing a glass insulated container with a waist seal provided by the present embodiment, the method for producing a glass insulated container with a waist seal provided by the present invention, wherein the asbestos particles are expanded by placing asbestos particles on the bottom of the bottle liner. The axial force and the slight radial component force are generated, and the bottle can withstand a large enough axial force, so the bottle liner is not easy to burst in the subsequent processing, thereby improving the production efficiency, increasing the inner bottle flanging process, and reducing the energy consumption. The air cooling is the cold air box 12, and the cold air duct 13 is disposed on the side of the cold air box 12, the cold air tube 13 is inserted into the bottle liner, and then the cold air box 12 is opened, and the air enters the bottle liner through the cold air tube 13 In order to reach the effect of the cold air, the water is cooled to the water-cooled bottle 14, and the water-cooled bottle 14 is annularly wound around the water-cooled tube 15, and the water-cooled bottle 15 is provided with a water tank 16 at one end, and one end of the water-cooled tube 15 is disposed at the bottom of the water tank 16. The other end of the water-cooling pipe 15 is disposed at the upper end of the water tank 16. The water-cooling pipe 15 at the upper end of the water tank 16 is further provided with a water pump 17, and the bottle is placed in the water-cooled bottle 14, and the water pump 17 on the water-cooling pipe 15 is opened to operate The water in the water tank 16 is The cold tube 15 assists in the cyclic reciprocating movement on the outer surface of the water-cooled bottle 14, so that the outer surface of the bottle liner is water-cooled, and the combination of air cooling and water cooling combines the cooling effect on the bile bottle, and reduces the waiting of the bile bottle. Time, which increases work efficiency.

以上显示和描述了本发明的基本原理和主要特征和本发明的优点，对于本领域技术人员而言，显然本发明不限于上述示范性实施例的细节，而且在不背离本发明的精神或基本特征的情况下，能够以其他的具体形式实现本发明。因此，无论从哪一点来看，均应将实施例看作是示范性的，而且是非限制性的，本发明的范围由所附权利要求而不是上述说明限定，因此旨在将落在权利要求的等同要件的含义和范围内的所有变化囊括在本发明内。不应将权利要求中的任何附图标记视为限制所涉及的权利要求。The basic principles and main features of the present invention and the advantages of the present invention are shown and described. It is obvious to those skilled in the art that the present invention is not limited to the details of the above-described exemplary embodiments, and without departing from the spirit or essentials of the invention. In the case of features, the invention can be implemented in other specific forms. Therefore, the present embodiments are to be considered as illustrative and not restrictive, and the scope of the invention is defined by the appended claims instead All changes in the meaning and scope of equivalent elements are included in the present invention. Any reference signs in the claims should not be construed as limiting the claim.

尽管已经示出和描述了本发明的实施例，对于本领域的普通技术人员而言，可以理解在不脱离本发明的原理和精神的情况下可以对这些实施例进行多种变化、修改、替换和变型，本发明的范围由所附权利要求及其等同物限定。While the embodiments of the present invention have been shown and described, it will be understood by those skilled in the art The scope of the invention is defined by the appended claims and their equivalents.

Claims

一种玻璃保温容器接腰封口的生产方法，其特征在于，包括如下步骤，A method for producing a glass insulated container with a waist seal, characterized in that it comprises the following steps,

A、通过吹泡机将玻璃材料吹制内瓶胆(1)和外瓶胆(2)，所述内瓶胆(1)内的容积小于外瓶胆(2)内的容积；A. blowing the glass material into the inner bottle liner (1) and the outer bottle liner (2) by a bubbler, wherein the volume in the inner bottle liner (1) is smaller than the volume in the outer bottle liner (2);

B、取吹制完成的内瓶胆(1)和外瓶胆(2)半成品，然后先割内瓶胆(1)和外瓶胆(2)的瓶口，再在所述外瓶胆(2)底面靠近侧腰部位进行焊接尾管(3)；B. Take the inner bottle liner (1) and the outer bottle liner (2) semi-finished product, and then cut the bottle mouth of the inner bottle liner (1) and the outer bottle liner (2), and then the outer bottle liner ( 2) welding the tail pipe (3) near the side waist portion;

C、在已经接好尾管(3)的所述外瓶胆(2)的中上部即在所述外瓶胆(2)上圆弧连接处的下端位置划纵向记号线，并将所述外瓶胆(2)通过火焰加热后用砂轮机冷爆横向切开；C. a longitudinal marking line is drawn at the upper middle portion of the outer bottle liner (2) to which the tail pipe (3) has been connected, that is, at the lower end position of the arc joint at the outer bottle liner (2), and the The outer bottle liner (2) is heated by the flame and then cold-exploded with a grinder;

D、将所述内瓶胆(1)放入所述外瓶胆(2)的下部中，并用石棉将所述内瓶胆(1)的外底部和所述外瓶胆(2)的内底部之间进行固定，形成组合瓶胆,并在瓶胆内放入具有隔热效果的隔热层固定在外瓶胆(2)和内瓶胆(1)之间；D. The inner bottle liner (1) is placed in the lower portion of the outer bottle liner (2), and the outer bottom of the inner bottle liner (1) and the outer bottle liner (2) are placed with asbestos. Fixing between the bottoms to form a combination bottle, and placing a heat insulating layer in the bottle liner between the outer bottle liner (2) and the inner bottle liner (1);

E、将组合瓶胆瓶口向上放入接腰机夹头(4)中，再将切割下来的所述外瓶胆(2)的中上部与组合瓶胆中所述外瓶胆(2)上的划线进行对线放正，旋转接腰机夹头(4)，并用预热火头(6)对接腰部位进行预热，加热至550～600℃时，用接腰火头(7)对接腰部位加热至1300～1400℃，使接腰部位呈熔融状态，然后将所述外瓶胆(2)的下部和中上部烧熔连接，并通过机械手(8)将所述外瓶胆(2)的中上部上提0.5mm-1.5mm，使接腰部位的连接处圆滑光洁；E. Put the bottle neck of the bottle into the waist clamp (4), and then cut the middle and upper parts of the outer bottle (2) and the outer bottle in the combination bottle (2) The line on the line is aligned, the waist clamp (4) is rotated, and the waist part is preheated by the preheating head (6). When heated to 550-600 °C, the waist joint (7) is used for docking. The waist portion is heated to 1300 to 1400 ° C, so that the waist portion is in a molten state, and then the lower portion and the upper portion of the outer bottle liner (2) are sintered and joined, and the outer bottle liner is passed by a robot (8) (2) The upper part of the upper part is raised by 0.5mm-1.5mm, so that the joint of the waist joint is smooth and smooth;

F、将接腰后的所述外瓶胆(2)用退火火头(9)对接腰部位进行退火处理，使接腰部位温度为500～750℃，同时用加热火头(10)烧熔所述内瓶胆(1)的胆口，使所述内瓶胆(1)的胆口温度为1000-1100℃，使胆口位置呈半熔融状态,虽然用压轮(5)对内瓶胆胆口进行翻边处理，同时再用排火(11)烧熔所述外瓶胆(2)瓶口，此时所述外瓶胆(2)胆口的温度为1300～1400℃，将所述内瓶胆(1)和所述外瓶胆(2)的胆口部进行封口，封口后进行退火处理；F. The outer bottle liner (2) after the waist is annealed with the annealing fire head (9), and the waist portion is heated to a temperature of 500 to 750 ° C, and the heating head (10) is used to melt the same. The bile of the inner bottle liner (1) is such that the bile mouth temperature of the inner bottle liner (1) is 1000-1100 ° C, so that the position of the bile mouth is semi-molten, although the inner bottle liner is pressed by the pressure wheel (5) The mouth is subjected to the cuffing treatment, and at the same time, the outer bottle liner (2) bottle mouth is melted by the fire (11), and the temperature of the outer bottle liner (2) bile port is 1300-1400 ° C, which will be described. The inner bottle liner (1) and the outer bottle liner (2) are sealed at the bile mouth portion, and then annealed after sealing;

G、将退火完成的产品通过先进行风冷处理，将其胆口内部进行降温处理，而产品的外部则通过水冷进行外部降温，从而使其完成操作等待下一工序的操作。G. The product after annealing is subjected to air-cooling treatment, and the inside of the bile is cooled, and the outside of the product is externally cooled by water cooling, so that the operation is completed and waiting for the next operation.
根据权利要求1所述的一种玻璃保温容器接腰封口的生产方法，其特征在于，所述外瓶胆(2)上的记号线为圆弧连接处向下20mm-25mm。The method for producing a glass insulated container waist seal according to claim 1, wherein the mark line on the outer bottle liner (2) is a circular arc connection portion of 20 mm to 25 mm downward.
根据权利要求1所述的一种玻璃保温容器接腰封口的生产方法，其特征在于，所述瓶胆内放入具有隔热效果的隔热层为玻璃纤维、石棉、岩棉或气凝胶毡。The method for producing a glass insulated container waist seal according to claim 1, wherein the insulating layer is provided with a heat insulating layer of glass fiber, asbestos, rock wool or aerogel. felt.
根据权利要求2所述的一种玻璃保温容器接腰封口的生产方法，其特征在于，所述所述外瓶胆(2)上的记号线为圆弧连接处向下22.5mm。The method for producing a glass insulated container waist seal according to claim 2, wherein the marking line on the outer bottle liner (2) is a circular arc connection 22.5 mm downward.
根据权利要求1所述的一种玻璃保温容器接腰封口的生产方法，其特征在于，所述步骤G中的风冷为冷风箱(12)，位于冷风箱(12)一侧设有冷风管(13)，所述冷风管(13)插接在瓶胆内，然后开启冷风箱(12)，其空气则通过冷风管(13)进入到瓶胆内部，从而到达冷风的效果。The method for producing a glass insulated container waist seal according to claim 1, wherein the air cooling in the step G is a cold air box (12), and the cold air box is disposed on a side of the cold air box (12). (13), the cold air pipe (13) is inserted into the bottle liner, and then the cold air box (12) is opened, and the air enters the inside of the bottle liner through the cold air pipe (13), thereby reaching the effect of the cold air.
根据权利要求1所述的一种玻璃保温容器接腰封口的生产方法，其特征在于，所述步骤G中的水冷为水冷瓶(14)，位于水冷瓶(14)外表环形缠绕着水冷管(15)，位于水冷瓶(14)一侧设有水箱(16)，所述水冷管(15)一端设有在水箱(16)底端，所述水冷管(15)的另一端设置在水箱(16)上端，位于水箱(16)上端的水冷管(15)处还设水泵(17)，其瓶胆放置在水冷瓶(14)内，水冷管(15)上的水泵(17)开设运转，使其水箱(16)内的水在水冷管(15)辅助下在水冷瓶(14)外表面进行循环往复的运动，从而使得瓶胆的外表面进行水冷。The method for producing a glass insulated container waist seal according to claim 1, wherein the water cooling in the step G is a water-cooled bottle (14), and the water-cooled bottle (14) is externally wound around the water-cooled tube ( 15) A water tank (16) is disposed on one side of the water-cooled bottle (14), one end of the water-cooled tube (15) is disposed at the bottom end of the water tank (16), and the other end of the water-cooled tube (15) is disposed in the water tank ( 16) At the upper end, a water pump (17) is further disposed at the water-cooling pipe (15) at the upper end of the water tank (16), the bottle is placed in the water-cooled bottle (14), and the water pump (17) on the water-cooling pipe (15) is opened. The water in the water tank (16) is circulated and reciprocated on the outer surface of the water-cooled bottle (14) with the aid of the water-cooling tube (15), so that the outer surface of the bottle liner is water-cooled.