阅读说明：本技术 一种超白浮法玻璃锡槽结构 (Ultra-white float glass tin bath structure ) 是由 武林雨 王长军 李文峰 张清山 李博 赵宝盛 马彦亮 韩艳丽 于 2020-05-15 设计创作，主要内容包括：本申请公开了一种超白浮法玻璃锡槽结构。包括两组相邻设置的锡槽机构和固接在所述锡槽机构侧壁的支撑组件；本申请将熔化好的玻璃液在冷却部冷却后,经流道进入锡槽内,此时第一水包对玻璃液进行冷却降温,再利用拉边机的工作端与玻璃接触,从而将玻璃拉薄；第二水包对玻璃进行再次冷却降温；利用独立支撑件安装单个第一水包、第二水包或拉边机,利用两个锡槽相邻的侧壁上的支撑部配合,安装相邻的第一水包、第二水包或拉边机,启动电机驱动旋转轴转动,进而带动支撑部自由端一侧转动,当需要调整规格或者清理生产线时,电机驱动旋转轴转动,进而带动两个支撑部的自由端分离,当需要正常生产时,电机驱动旋转轴转动,使两个支撑部的自由端为扣合。(The application discloses super white float glass molten tin bath structure. The tin bath mechanism comprises two groups of tin bath mechanisms which are adjacently arranged and a supporting component which is fixedly connected to the side wall of each tin bath mechanism; the molten glass enters the tin bath through the flow channel after being cooled in the cooling part, and at the moment, the first water drum cools the molten glass, and the working end of the edge roller is contacted with the glass, so that the glass is thinned; the second water bag cools the glass again; the single first water drum, the single second water drum or the single edge roller are installed by utilizing an independent supporting piece, the adjacent first water drum, the adjacent second water drum or the adjacent edge roller are installed by utilizing the matching of the supporting parts on the adjacent side walls of the two tin baths, the motor is started to drive the rotating shaft to rotate, so that one side of the free end of each supporting part is driven to rotate, when the specification needs to be adjusted or a production line needs to be cleaned, the motor drives the rotating shaft to rotate, so that the free ends of the two supporting parts are driven to be separated, and when the normal production needs to be carried out, the motor drives the rotating shaft to rotate.)

1. An ultra-white float glass tin bath structure is characterized by comprising: the tin bath mechanism comprises two groups of tin bath mechanisms which are arranged adjacently and a supporting component which is fixedly connected to the side wall of each tin bath mechanism;

every group molten tin bath mechanism all includes: a cooling part (1), a flow passage (2) and a tin bath (3) which are fixedly connected in sequence; the tin bath (3) comprises: the wide section (4), the narrow section (5) and the narrow section (6) are connected in sequence; the wide section (4) is fixedly connected with the flow channel (2), and clamping edges (11) are respectively arranged on the adjacent outer walls of the wide section (4), the narrow section (5) and the narrow section (6); reinforcing components are respectively arranged at the joints of the wide section (4), the narrow section (5) and the narrow section (6); the outer wall of the wide section (4) close to one side of the flow channel (2) is provided with first water bags (8) which are symmetrically arranged; the outer wall of one side, far away from the flow channel (2), of the wide section (4) is provided with symmetrically arranged edge rollers (10), and the working end of each edge roller (10) extends into the wide section (4); a second water drum (9) is arranged on the side wall of the narrow section (6); the first water bag (8), the second water bag (9) and the edge roller (10) are fixedly connected to the side wall of the tin bath (3) through the supporting component;

the support assembly includes: a movable support for mounting two adjacent first water bags (8), second water bags (9) or edge rollers (10) on two groups of tin bath mechanisms and an independent support (16) for mounting a single first water bag (8), second water bag (9) or edge roller (10); the movable support includes: two supporting parts (17) which are matched with each other; the two supporting parts (17) are respectively and fixedly connected to the adjacent side walls of the two tin baths (3), and the free ends of the two supporting parts (17) can be buckled; a rotating shaft (18) is arranged on one side of the supporting part (17) close to the fixed end of the supporting part; and a motor (19) is installed on the side wall of the supporting part (17), and an output shaft of the motor (19) is fixedly connected with the rotating shaft (18).

2. An ultra-white float glass tin bath structure according to claim 1, wherein the reinforcing assembly comprises: two fixed parts (12) which are used in a matching way; one ends of the two fixing parts (12) are connected through a connecting shaft (13), and locking parts (14) capable of being buckled are arranged at free ends of the two fixing parts (12); the inner wall of the fixing part (12) is also provided with a groove capable of accommodating the clamping edge (11).

3. An ultra white float glass bath construction according to claim 2, characterised in that the inner wall of the fixed portion (12) is provided with a seal (15).

4. The ultra-white float glass tin bath structure as claimed in claim 1, wherein a limiting part (21) arranged adjacent to the supporting part (17) is further fixed on the side wall of the tin bath (3), and the limiting part (21) is positioned on one side of the supporting part (17) far away from the motor (19).

5. The structure of an ultra-white float glass tin bath according to claim 4, characterized in that the limiting part (21) is fixedly connected with the supporting part (17) through a fixing screw (20).

6. The ultra-white float glass tin bath structure as claimed in claim 1, wherein the bottom of the tin bath (3) is provided with uniformly arranged inner cavities (7), and the inner cavities (7) can accommodate the working ends of the first water bags (8) and the second water bags (9) correspondingly.

7. An ultra white float glass bath construction according to claim 1, characterised in that a flow control valve (22) is mounted on the flow channel (2).

8. An ultra white float glass bath construction according to claim 1, characterised in that the second water pocket (9) is mounted symmetrically on either of said narrow sections (6) and one-sided on the other of said narrow sections (6).

9. The ultra-white float glass tin bath structure as claimed in claim 1, wherein the arrangement of the first water bag (8), the second water bag (9) and the edge roller (10) adjacent to each other on the two tin bath mechanisms is staggered.

Technical Field

The disclosure generally relates to the technical field of ultra-white float glass production, and particularly relates to a tin bath structure of ultra-white float glass.

Background

The tin bath is an important forming thermal equipment in float glass production. After entering the tin bath, the glass needs to be flattened, polished, thinned, cooled and the like to form a flat and uniform glass plate.

At present, in the existing float glass production process, one production line is provided with a kiln furnace and a tin bath, and only glass with single thickness can be produced; when the glass of different thickness is produced to needs, the production line is whole must all adjust, and the adjustment time is long, and every molten tin bath adapted cellar for storing things stove simultaneously, and investment cost is big, and in addition, the drawing edge machine and the water drum of installation are distributed densely on traditional molten tin bath, when meetting the emergency situation, can regulate and control the space little, influence normal operation process. Therefore, the ultra-white float glass tin bath structure is provided for solving the problems that the time for adjusting the integral specification of a production line is long, the investment cost is high, and the adjustable space is small in emergency.

Disclosure of Invention

In view of the above-mentioned drawbacks and deficiencies of the prior art, it would be desirable to provide a tin bath structure for ultra-white float glass, which is capable of producing glass of different thicknesses, reducing the adjustment time, reducing the investment cost, and increasing the adjustable space.

In a first aspect, the present application provides an ultra-white float glass tin bath structure comprising: the tin bath mechanism comprises two groups of tin bath mechanisms which are arranged adjacently and a supporting component which is fixedly connected to the side wall of each tin bath mechanism;

every group molten tin bath mechanism all includes: the cooling part, the flow channel and the tin bath are fixedly connected in sequence; the tin bath comprises: the wide section, the narrow section and the narrow section are connected in sequence; the wide section is fixedly connected with the flow passage, and the outer walls of the wide section, the narrow section and the narrow section which are adjacent in pairs are respectively provided with clamping edges; reinforcing components are respectively arranged at the joints of the wide section, the narrow section and the narrow section; the outer wall of the wide section close to one side of the flow channel is provided with first water bags which are symmetrically arranged; the outer wall of one side, far away from the flow channel, of the wide section is provided with symmetrically arranged edge rollers, and the working ends of the edge rollers extend into the wide section; a second water drum is arranged on the side wall of the narrow section; the first water bag, the second water bag and the edge roller are fixedly connected to the side wall of the tin bath through the supporting component;

the support assembly includes: the movable support is used for mounting two adjacent first water bags, second water bags or edge rollers on two groups of tin bath mechanisms, and the independent support is used for mounting a single first water bag, second water bag or edge roller; the movable support includes: two supporting parts which are matched with each other; the two supporting parts are respectively and fixedly connected to the adjacent side walls of the two tin baths, and the free ends of the two supporting parts can be buckled; a rotating shaft is arranged on one side of the supporting part close to the fixed end of the supporting part; the lateral wall of the supporting part is provided with a motor, and an output shaft of the motor is fixedly connected with the rotating shaft.

According to the technical scheme provided by the embodiment of the application, the reinforcing component comprises: two fixed parts used in cooperation; one ends of the two fixing parts are connected through a connecting shaft, and locking parts capable of being buckled are arranged at free ends of the two fixing parts; the inner wall of the fixing part is also provided with a groove capable of accommodating the clamping edge.

According to the technical scheme provided by the embodiment of the application, the sealing piece is arranged on the inner wall of the fixing part.

According to the technical scheme that this application embodiment provided, still on the lateral wall of molten tin bath the rigid coupling have with the spacing portion that the supporting part is adjacent to be set up, just spacing portion is located the supporting part is kept away from one side of motor.

According to the technical scheme provided by the embodiment of the application, the limiting part is fixedly connected with the supporting part through a fixing screw.

According to the technical scheme provided by the embodiment of the application, the inner cavity is uniformly formed in the bottom of the tin bath, and the inner cavity can accommodate the working end of the first water drum and the working end of the second water drum to extend into correspondingly.

According to the technical scheme provided by the embodiment of the application, the flow control valve is installed on the flow channel.

According to the technical scheme provided by the embodiment of the application, the second water bag is symmetrically arranged on any narrow section, and is arranged on one side of the other narrow section.

According to the technical scheme provided by the embodiment of the application, the first water bags, the second water bags and the edge rollers which are adjacent to each other on the two tin bath mechanisms are arranged in a staggered manner.

In conclusion, the technical scheme specifically discloses a specific structure of a tin bath structure of ultra-white float glass. The structure of two tin baths of one kiln furnace is realized by designing two groups of tin bath mechanisms which are arranged adjacently, and the two groups of tin bath mechanisms can produce glass with different specifications simultaneously, so that the time for adjusting the specifications is shortened; after the molten glass is cooled in the cooling part, the molten glass enters a tin bath through a flow channel, the first water drum on the wide section cools the molten glass, and the working end of the edge roller is contacted with the glass, so that the glass is thinned; the second water bag on the narrow section cools and reduces the temperature of the glass again, the second water bag is symmetrically arranged on any narrow section, and the second water bag is arranged on the other narrow section in a unilateral manner, so that the operation and maintenance during normal production are realized;

the method comprises the steps that a single first water drum, a single second water drum or a single edge roller are arranged on the side wall of a tin bath through independent supporting pieces, the adjacent first water drum, the adjacent second water drum or the adjacent edge roller are arranged through the matching of supporting parts on the adjacent side walls of the two tin baths, a motor is started to drive a rotating shaft to rotate, so that one side of a free end of each supporting part is driven to rotate, when the specification needs to be adjusted or a production line needs to be cleaned, the motor drives the rotating shaft to rotate, so that the free ends of the two supporting parts are driven to be separated, and when normal production is needed, the motor drives the rotating shaft to rotate, so that the free ends.

In order to further prevent the problem of desoldering cracking at the joint of the wide section, the narrow section and the narrow section, a reinforcing component is installed at the joint, two fixing parts are used for covering two clamping edges at the joint, and grooves are formed in the inner walls of the fixing parts and can accommodate the clamping edges, so that the fixing parts can be attached to the clamping edges, and the reinforcing component is ensured to be stably installed at the joint; two the free end of fixed part is provided with the retaining member, can be with the free end lock of two fixed parts to it fixes to realize strengthening the subassembly the junction.

Drawings

Other features, objects and advantages of the present application will become more apparent upon reading of the following detailed description of non-limiting embodiments thereof, made with reference to the accompanying drawings in which:

FIG. 1 is a schematic structural diagram of a tin bath structure of ultra-white float glass.

Fig. 2 is a schematic structural view of the independent support member.

Fig. 3 is a schematic structural view of the movable support.

Fig. 4 is a schematic top view of the movable support.

Fig. 5 is a schematic structural view of a reinforcing member.

Fig. 6 is a schematic structural view of the fixing portion.

Reference numbers in the figures: 1. a cooling section; 2. a flow channel; 3. a tin bath; 4. a wide section; 5. narrowing the section; 6. a narrow section; 7. an inner cavity; 8. a first water pocket; 9. a second water bag; 10. an edge roller; 11. clamping edges; 12. a fixed part; 13. a connecting shaft; 14. a locking member; 15. a seal member; 16. a separate support; 17. a support portion; 18. a rotating shaft; 19. a motor; 20. a set screw; 21. a limiting part; 22. a flow control valve.

Detailed Description

The present application will be described in further detail with reference to the following drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the relevant invention and not restrictive of the invention. It should be noted that, for convenience of description, only the portions related to the present invention are shown in the drawings.

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application will be described in detail below with reference to the embodiments with reference to the attached drawings.