A replaceable glass-melting furnace neck-deep water bag

Abstract

A kind of glass melting furnace neck deep water bag convenient to replace, relate to a neck deep water bag, the elevated two end parts of near end of neck deep water bag are respectively provided with water inlet connecting pipe (12) and water outlet connecting pipe (10), in the far end of neck deep water bag and the lower part of buckling angle iron A (3) connection, the vertical angle iron of buckling angle iron A upper part connects angle iron support (2), and the horizontal angle iron is set to angle iron support towards far end;Multiple S-shaped horizontal circulation rhombic steel pipes form neck deep water bag close to near end and the lower part of buckling angle iron B (18) connection, hanger (20) two ends are respectively connected buckling angle iron B and the upper end of angle iron support, and there is scum baffle (1) between buckling angle iron B and the middle part of angle iron support;The hanger with control vertical rod is set in the application, the purpose of facilitating quick replacement is achieved, and the main body of neck deep water bag formed by rhombic steel pipe effectively reduces the frequent replacement drawbacks caused by excessive condensed glass liquid gathering on neck deep water bag.

Description

Technical Field

[0001] This invention relates to a deep water jacket for a glass melting furnace neck, and more specifically, to a glass melting furnace neck deep water jacket that is easy to replace. Background Technology

[0002] In glass processing, especially float glass processing, the main function of the necking water tank, according to its design, is to separate the molten glass into layers, remove powder, scum, and other insoluble substances before they enter the cooling section. The necking water tank participates in forming, increasing glass production, regulating the flow rate of molten glass into the cooling section, and providing a cooling effect. Currently, necking water tanks are mainly classified into necking water tanks or deep-negation necking water tanks based on the depth to which they are inserted into the molten glass. Commonly used necking water tanks are made of welded rectangular steel tubes; that is, the insertion part consists of a plate-like structure formed by four interconnected rectangular steel tubes. During use, the water tank is inserted into the plate-like structure... The water flowing inside the necked water bath cools the molten glass, eliminating microbubbles and slowing down the flow rate of the molten glass in the front clarifying zone. Because the necked water bath has a plate-like structure, condensed molten glass accumulates in the middle, while condensation is minimal in the upper and lower parts. Excessive accumulation of condensed molten glass can cause it to detach, forming impurities that affect the quality of subsequent products. Furthermore, current necked water baths have a knife-like structure, making them difficult to remove and causing variations in the depth of insertion into the molten glass. Summary of the Invention

[0003] The purpose of this invention is to address the shortcomings of existing designs. This invention discloses a glass melting furnace neck deep water bath that is easy to replace. By setting up a hanging rod with a control rod, it facilitates quick replacement. The neck deep water bath body, formed by a diamond-shaped steel tube, effectively reduces the drawback of frequent replacement caused by excessive accumulation of condensed glass on the neck deep water bath.

[0004] In order to achieve the objective of this invention, this application discloses the following technical solution:

[0005] A replaceable deep water jug ​​for a glass melting furnace includes a deep water jug ​​formed by multiple S-shaped horizontal circulating rhomboid steel pipes, a connecting angle iron A, an angle iron bracket, a connecting angle iron B, a lifting rod, and a scum baffle. The raised ends of the near end of the deep water jug ​​formed by the multiple S-shaped horizontal circulating rhomboid steel pipes are respectively equipped with an inlet connection pipe and an outlet connection pipe. The far end of the deep water jug ​​formed by the multiple S-shaped horizontal circulating rhomboid steel pipes is connected to the lower part of the connecting angle iron A. The upper part of the connecting angle iron A is connected to the vertical angle iron of the angle iron bracket. The angle iron bracket has a horizontal angle iron at its far end. The near end of the deep water jug ​​formed by the multiple S-shaped horizontal circulating rhomboid steel pipes is connected to the lower part of the connecting angle iron B. The two ends of the lifting rod are respectively connected to the upper ends of the connecting angle iron B and the angle iron bracket. A scum baffle is installed between the connecting angle iron B and the angle iron bracket in the middle.

[0006] The aforementioned easily replaceable glass melting furnace bottleneck deep water jacket, comprising multiple S-shaped horizontal circulating rhomboid steel pipes, includes an upper rhomboid steel pipe, an inner rhomboid steel pipe, an upper first rhomboid steel pipe, an upper second rhomboid steel pipe, a lower first rhomboid steel pipe, a lower second rhomboid steel pipe, an outer rhomboid steel pipe, and a lower rhomboid steel pipe. The inlet connecting pipe is fixedly connected to the proximal end of the upper rhomboid steel pipe, and the distal end of the upper rhomboid steel pipe is fixedly connected to the upper end of the inner rhomboid steel pipe. The lower end of the inner rhomboid steel pipe is fixedly connected to the proximal end of the upper rhomboid steel pipe. An angle iron B is fixedly connected at its lower part to the distal side of the inner rhomboid steel pipe. The distal end of the upper rhomboid steel pipe is fixedly connected to the upper end of the upper rhomboid short-connecting steel pipe. The lower end of the steel pipe is fixedly connected to the far end of the upper two rhombic steel pipe, the near end of the upper two rhombic steel pipe is fixedly connected to the upper end of the rhombic short joint steel pipe, the lower end of the rhombic short joint steel pipe is fixedly connected to the near end of the lower rhombic steel pipe, the far end of the lower rhombic steel pipe is fixedly connected to the upper end of the lower rhombic short joint steel pipe, and the lower end of the lower rhombic short joint steel pipe is fixedly connected to the far end of the lower two rhombic steel pipe. Angle iron A is fixedly connected to the side of the upper and lower rhombic short joint steel pipes facing the far end. The near end of the lower two rhombic steel pipe is fixedly connected to the lower end of the outer rhombic steel pipe, and the upper end of the outer rhombic steel pipe is fixedly connected to the far end of the lower rhombic steel pipe. A water outlet connection pipe is provided at the near end of the lower rhombic steel pipe to form a necked deep water jacket.

[0007] The aforementioned easy-to-replace glass melting furnace neck deep water jacket has a snap-fit ​​angle iron C on the near-end side of the rhomboid short steel pipe and the inner rhomboid steel pipe.

[0008] The aforementioned easily replaceable deep water jacket for glass melting furnace has the following components: the proximal end of the upper rhomboid steel pipe is connected to the distal end of the upper inclined rhomboid steel pipe, the proximal end of the upper inclined rhomboid steel pipe is fixedly connected to the distal end of the upper external rhomboid steel pipe, and the inlet connection pipe is fixedly connected to the proximal end of the upper external rhomboid steel pipe; the proximal end of the lower rhomboid steel pipe is connected to the distal end of the lower inclined rhomboid steel pipe, the proximal end of the lower inclined rhomboid steel pipe is fixedly connected to the distal end of the lower external rhomboid steel pipe, and the outlet connection pipe is fixedly connected to the proximal end of the lower external rhomboid steel pipe.

[0009] The aforementioned easily replaceable glass melting furnace neck deep water jacket has an inlet connection pipe that is an externally threaded pipe and an outlet connection pipe that is an externally threaded pipe.

[0010] The aforementioned easily replaceable deep water jacket for glass melting furnace has a reinforced square tube installed between the upper and lower external rhomboid steel pipes.

[0011] The easily replaceable deep water tank for glass melting furnace has an extension rod near the end of the boom, and a control rod is provided on the upper part of the extension rod.

[0012] The easily replaceable glass melting furnace neck deep water jacket has an angle iron support made of two angle irons in an "L" shape welded together. The vertical plates of the two angle irons on the same plane are welded together to form a "U" shape. A "V" shape notch is cut in the middle of the two angle irons in the "U" shape. The convex corner of the upper part of the snap-on angle iron A is placed in the "V" shape notch and then welded to the two angle irons. The flat plates of the two angle irons on the same plane are welded together to form a "U" shape.

[0013] Based on the above disclosure, the beneficial effects of the present invention are:

[0014] The glass melting furnace neck-locking deep water jacket of this invention utilizes an angle iron bracket at the far end of the lifting rod, supporting one side of the melting furnace neck, and a lower rhomboid steel pipe supporting the other side of the melting furnace neck, thus fixing the insertion depth of the neck-locking deep water jacket into the molten glass. The scum baffle provided in this application can effectively remove scum from the upper part of the molten glass. The fastening angle irons A and C stabilize both ends of the neck-locking deep water jacket formed by multiple S-shaped horizontal circulating rhomboid steel pipes, ensuring that it will not deform during use. The control rod at the near end of the lifting rod facilitates force during removal. This invention achieves the purpose of rapid replacement, and the neck-locking deep water jacket body formed by rhomboid steel pipes facilitates the flow of molten glass and reduces excessive accumulation of condensed molten glass. Attached Figure Description

[0015] Figure 1 This is a schematic diagram of the structure of the present invention;

[0016] Figure 2 This is a schematic diagram of the deep water-filled neck structure of the present invention;

[0017] Figure 3 yes Figure 2 AA view;

[0018] Figure 4 This is a schematic diagram of the three-dimensional structure of the square tube of the present invention;

[0019] Figure 5 This is a schematic diagram of the three-dimensional connection structure between the angle iron bracket and the snap-fit ​​angle iron A of the present invention;

[0020] Figure 6 This is a schematic diagram of the three-dimensional connection structure between the snap-fit ​​angle iron B and the hanger rod of the present invention;

[0021] Figure 7 This is a schematic diagram of the installation structure of the present invention at the bottleneck of the melting furnace;

[0022] In the diagram: 1. Scum baffle; 2. Angle iron bracket; 3. Snap-fit ​​angle iron A; 4. Upper first rhombus steel pipe; 5. Upper second rhombus steel pipe; 6. Lower first rhombus steel pipe; 7. Lower second rhombus steel pipe; 8. Lower sloping rhombus steel pipe; 9. Upper sloping rhombus steel pipe; 10. Outlet connection pipe; 11. Lower external rhombus steel pipe; 12. Inlet connection pipe; 13. Vertical pole; 14. Upper external rhombus steel pipe; 15. 16. Square tube; 17. Upper rhomboid steel tube; 18. Lower rhomboid steel tube; 19. Snap-fit ​​angle iron B; 20. Snap-fit ​​angle iron C; 21. Hanger rod; 22. Upper rhomboid short joint steel tube; 23. Lower rhomboid short joint steel tube; 24. Outer rhomboid steel tube; 25. Inner rhomboid steel tube; 26. Spacing; 27. V-groove; 28. Liquid surface; 29. ​​Molten glass; 30. Furnace neck. Detailed Implementation

[0023] The preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings, so as to better understand the inventive objectives, features, and advantages of the present invention. It should be understood that the embodiments shown in the drawings are not intended to limit the scope of the present invention, but are merely illustrative of possible implementations of the technical solutions of the present invention.

[0024] Combined with appendix Figures 1-6The easily replaceable deep water jug ​​for glass melting furnaces described herein includes a deep water jug ​​formed by multiple S-shaped horizontal circulating rhomboid steel pipes, a snap-fit ​​angle iron A3, an angle iron bracket 2, a snap-fit ​​angle iron B18, a hanging rod 20, and a scum baffle 1. The raised ends of the near end of the deep water jug ​​formed by the multiple S-shaped horizontal circulating rhomboid steel pipes are respectively equipped with an inlet connecting pipe 12 and an outlet connecting pipe 10. The inlet connecting pipe 12 and the outlet connecting pipe 10 are both externally threaded pipes. The deep water jug ​​formed by the multiple S-shaped horizontal circulating rhomboid steel pipes is connected to the lower part of the snap-fit ​​angle iron A3 at the far end. The upper part of the snap-fit ​​angle iron A3 is connected to the vertical angle iron of the angle iron bracket 2. The angle iron bracket 2 has a horizontal angle iron at its far end. The angle iron bracket 2 consists of two L-shaped... The structure is formed by welding angle irons together. The vertical plates of two angle irons on the same plane are welded together to form a "U"-shaped structure. A "V"-shaped notch is cut in the middle of the two angle irons in the "U"-shaped structure. The convex corner of the upper part of the snap-fit ​​angle iron A3 is placed in the "V"-shaped notch and then welded to the two angle irons. The flat plates of two angle irons on the same plane are welded together to form a "U"-shaped structure. The deep water tank formed by multiple horizontal circulating rhomboid steel pipes in an S-shape is connected to the lower part of the snap-fit ​​angle iron B18 near its proximal end. The two ends of the lifting rod 20 are respectively connected to the upper end of the snap-fit ​​angle iron B18 and the angle iron bracket 2. An extension rod is set at the proximal end of the lifting rod 20. A control rod 13 is set at the upper part of the extension rod. A scum baffle 1 is set between the snap-fit ​​angle iron B18 and the middle part of the angle iron bracket 2.

[0025] Combined with appendix Figure 1Alternatively, 2, the deep water jet formed by multiple S-shaped horizontal circulating rhomboid steel pipes includes an upper rhomboid steel pipe 16, an inner rhomboid steel pipe 25, an upper first rhomboid steel pipe 4, an upper second rhomboid steel pipe 5, a lower first rhomboid steel pipe 6, a lower second rhomboid steel pipe 7, an outer rhomboid steel pipe 24, and a lower rhomboid steel pipe 17. The inlet connecting pipe 12 is fixedly connected to the proximal end of the upper rhomboid steel pipe 16, and the distal end of the upper rhomboid steel pipe 16 is fixedly connected to the upper end of the inner rhomboid steel pipe 25. The lower end of the inner rhomboid steel pipe 25 is fixedly connected to the proximal end of the upper first rhomboid steel pipe 4. The lower part of the snap-fit ​​angle iron B18 is fixedly connected to the distal side of the inner rhomboid steel pipe 25. The distal end of the upper first rhomboid steel pipe 4 is fixedly connected to the upper end of the upper rhomboid short connecting steel pipe 21, and the lower end of the upper rhomboid short connecting steel pipe 21 is fixedly connected to the distal end of the upper second rhomboid steel pipe 5. The near end of steel pipe 5 is fixedly connected to the upper end of rhomboid short steel pipe 23, and the lower end of rhomboid short steel pipe 23 is fixedly connected to the near end of the next rhomboid steel pipe 6. An angle iron C19 is provided on the near end side of rhomboid short steel pipe 23 and inner rhomboid steel pipe 25. The far end of the next rhomboid steel pipe 6 is fixedly connected to the upper end of lower rhomboid short steel pipe 22, and the lower end of lower rhomboid short steel pipe 22 is fixedly connected to the far end of the second lower rhomboid steel pipe 7. An angle iron A3 is fixedly connected to the far end side of upper rhomboid short steel pipe 21 and lower rhomboid short steel pipe 22. The near end of the second lower rhomboid steel pipe 7 is fixedly connected to the lower end of outer rhomboid steel pipe 24, and the upper end of outer rhomboid steel pipe 24 is fixedly connected to the far end of lower rhomboid steel pipe 17. A water outlet connection pipe 10 is provided at the near end of lower rhomboid steel pipe 17 to form a necked deep water jacket.

[0026] Furthermore, the proximal end of the upper rhomboid steel pipe 16 is connected to the distal end of the upper inclined rhomboid steel pipe 9, the proximal end of the upper inclined rhomboid steel pipe 9 is fixedly connected to the distal end of the upper external rhomboid steel pipe 14, and the inlet connection pipe 12 is fixedly connected to the proximal end of the upper external rhomboid steel pipe 14; the proximal end of the lower rhomboid steel pipe 17 is connected to the distal end of the lower inclined rhomboid steel pipe 8, the proximal end of the lower inclined rhomboid steel pipe 8 is fixedly connected to the distal end of the lower external rhomboid steel pipe 11, and the outlet connection pipe 10 is fixedly connected to the proximal end of the lower external rhomboid steel pipe 11; a reinforced square pipe 15 is provided in the gap 26 between the upper external rhomboid steel pipe 14 and the lower external rhomboid steel pipe 11, that is, the upper and lower ends of the square pipe 15 are respectively provided with V-shaped grooves 27 that match the opposite surfaces of the upper external rhomboid steel pipe 14 and the lower external rhomboid steel pipe 11.

[0027] Combined with appendix Figures 1 to 7When using this application, it is placed in the groove at the neck 30 of the melting furnace. The upper rhomboid steel pipe 4, the upper second rhomboid steel pipe 5, the lower first rhomboid steel pipe 6, and the lower second rhomboid steel pipe 7 of this application are placed on the upper part of the refractory wall on both sides of the groove at the neck 30 of the melting furnace. The lower part of the scum baffle 1 is in contact with the upper part of the liquid surface 28 of the liquid glass 29, and the scum is collected by the scum baffle 1. The upper first rhomboid steel pipe 4, the upper second rhomboid steel pipe 5, the lower first rhomboid steel pipe 6, and the lower second rhomboid steel pipe 7 are arranged at intervals to make the flowing liquid glass 29 obtain uniform cooling.

[0028] The preferred embodiments of the present invention have been described in detail above. However, it should be understood that after reading the above teachings, those skilled in the art can make various alterations or modifications to the scope of protection of the present invention. These equivalent forms also fall within the scope defined by the appended claims.

[0029] The parts of this invention not described in detail are prior art.

Claims

1. A replaceable glass melting furnace necking deep water tank, comprising a plurality of S-shaped horizontal circulation diamond steel pipes forming a necking deep water tank, a fastening angle iron A (3), an angle iron support (2), a fastening angle iron B (18), a suspender (20) and a scum baffle (1), characterized in that: The necked deep water jacket formed by multiple S-shaped horizontal circulating rhomboid steel pipes has an inlet connection pipe (12) and an outlet connection pipe (10) respectively at the raised ends of the near end. The necked deep water jacket formed by multiple S-shaped horizontal circulating rhomboid steel pipes is connected to the lower part of the snap-fit ​​angle iron A (3). The upper part of the snap-fit ​​angle iron A (3) is connected to the vertical angle iron of the angle iron bracket (2). The angle iron bracket (2) is provided with a horizontal angle iron at the far end. The necked deep water jacket formed by multiple S-shaped horizontal circulating rhomboid steel pipes is connected to the lower part of the snap-fit ​​angle iron B (18) near the near end. The two ends of the hanging rod (20) are respectively connected to the upper end of the snap-fit ​​angle iron B (18) and the angle iron bracket (2). A scum baffle (1) is provided between the snap-fit ​​angle iron B (18) and the middle part of the angle iron bracket (2). ​ An extension rod is provided at the near end of the boom (20), and a control rod (13) is provided at the upper part of the extension rod. The deep water jet formed by multiple S-shaped horizontal circulating rhomboid steel pipes includes an upper rhomboid steel pipe (16), an inner rhomboid steel pipe (25), an upper first rhomboid steel pipe (4), an upper second rhomboid steel pipe (5), a lower first rhomboid steel pipe (6), a lower second rhomboid steel pipe (7), an outer rhomboid steel pipe (24), and a lower rhomboid steel pipe (17). The inlet connection pipe (12) is fixedly connected to the proximal end of the upper rhomboid steel pipe (16). The distal end of the tube (16) is fixedly connected to the upper end of the inner rhomboid steel tube (25), and the lower end of the inner rhomboid steel tube (25) is fixedly connected to the proximal end of the upper rhomboid steel tube (4). The lower part of the snap-fit ​​angle iron B (18) is fixedly connected to the side of the inner rhomboid steel tube (25) facing the distal end. The distal end of the upper rhomboid steel tube (4) is fixedly connected to the upper end of the upper rhomboid short connecting steel tube (21), and the lower end of the upper rhomboid short connecting steel tube (21) is fixedly connected to the upper end of the tube. The far end of the upper two-diamond steel pipe (5) is connected, the near end of the upper two-diamond steel pipe (5) is fixedly connected to the upper end of the diamond short joint steel pipe (23), the lower end of the diamond short joint steel pipe (23) is fixedly connected to the near end of the lower diamond steel pipe (6), the far end of the lower diamond steel pipe (6) is fixedly connected to the upper end of the lower diamond short joint steel pipe (22), and the lower end of the lower diamond short joint steel pipe (22) is fixedly connected to the far end of the lower two-diamond steel pipe (7). Angle iron A (3) is fixedly connected to the far side of the upper rhomboid short steel pipe (21) and the lower rhomboid short steel pipe (22); the near end of the lower rhomboid steel pipe (7) is fixedly connected to the lower end of the outer rhomboid steel pipe (24), the upper end of the outer rhomboid steel pipe (24) is fixedly connected to the far end of the lower rhomboid steel pipe (17), and a water outlet connection pipe (10) is provided at the near end of the lower rhomboid steel pipe (17) to form a necked deep water bag.

2. The easily replaceable deep water jacket for glass melting furnace necks according to claim 1, characterized in that: The rhomboid short steel pipe (23) and the inner rhomboid steel pipe (25) are provided with snap-fit ​​angle iron C (19) on the side facing the near end.

3. The easily replaceable deep water jacket for glass melting furnace necks according to claim 2, characterized in that: The proximal end of the upper rhomboid steel pipe (16) is connected to the distal end of the upper inclined rhomboid steel pipe (9), the proximal end of the upper inclined rhomboid steel pipe (9) is fixedly connected to the distal end of the upper external rhomboid steel pipe (14), and the inlet connection pipe (12) is fixedly connected to the proximal end of the upper external rhomboid steel pipe (14); the proximal end of the lower rhomboid steel pipe (17) is connected to the distal end of the lower inclined rhomboid steel pipe (8), the proximal end of the lower inclined rhomboid steel pipe (8) is fixedly connected to the distal end of the lower external rhomboid steel pipe (11), and the outlet connection pipe (10) is fixedly connected to the proximal end of the lower external rhomboid steel pipe (11).

4. The easily replaceable deep water jacket for glass melting furnace necks according to claim 3, characterized in that: The inlet pipe (12) is an externally threaded pipe, and the outlet pipe (10) is an externally threaded pipe.

5. The easily replaceable deep water jacket for glass melting furnace necks according to claim 3, characterized in that: A reinforced square tube (15) is provided in the gap (26) between the upper external rhomboid steel pipe (14) and the lower external rhomboid steel pipe (11).

6. The easily replaceable deep water jacket for glass melting furnace necks according to claim 1, characterized in that: The angle iron bracket (2) is made of two angle irons in an "L" shape, which are welded together. The vertical plates of the two angle irons on the same plane are welded together to form a "ㄈ" shape. A "V" shaped notch is cut in the middle of the two angle irons in the "ㄈ" shape. The convex corner of the upper part of the snap-on angle iron A (3) is placed in the "V" shaped notch and then welded to the two angle irons. The flat plates of the two angle irons on the same plane are welded together to form a "ㄩ" shape.

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