CN113522503A - Glass production raw material pretreatment process - Google Patents

Abstract

The invention relates to the technical field of glass processing equipment, in particular to a glass production raw material pretreatment process which is completed by matching glass production raw material pretreatment equipment. Be equipped with the dirt chamber on a box lateral wall, be equipped with the venthole between dirt chamber and the box, the venthole below is equipped with the lime stone discharge gate, and lime stone discharge gate one side is equipped with the quartz sand discharge gate, and the lime stone discharge gate is kept away from quartz sand discharge gate direction and is equipped with the feldspar discharge gate, and the box is kept away from feldspar discharge gate one side and is equipped with except that the iron notch. Absorb the dust that grinds the production during preliminary grinding, improve the content of raw materials, make a round trip to grind, dry, meticulous raw materials granule improves the quality of work efficiency and glass production.

Description

Glass production raw material pretreatment process

Technical Field

The invention relates to the technical field of glass processing equipment, in particular to a pretreatment process of glass production raw materials.

Background

Glass often needs to utilize breaker to carry out the breakage to the raw materials at the in-process of production and processing, need filter the screening to broken raw materials after the broken raw materials for the granularity of raw materials can, satisfy the processing demand, need carry out drying process to the raw materials after having sieved the raw materials, present glass raw materials preliminary treatment deironing, dry, grind the efficiency of separating and carrying out the influence, dust on the raw materials can not in time handle the quality that influences glass production, still will classified storage after the raw materials grinding of glass production.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides a glass production raw material pretreatment process which can be used for grinding back and forth, drying and removing iron together, refining raw material particles and improving the working efficiency.

In order to achieve the purpose, the invention adopts the following technical scheme: a glass production raw material pretreatment process comprises the following steps:

s1, feeding, namely adding the raw materials into a grinding, drying and iron removing box through a feeding hopper;

s2, grinding and removing dust, and grinding the dust on the raw material through a grinding column to absorb and remove the dust;

s3: drying and grinding, wherein the raw materials are ground and dried back and forth in a grinding, drying and iron removing box;

s4: removing iron, namely removing iron in the raw materials through the matching action of the rotation of a grinding and drying iron removing box and an iron absorption plate;

s5: classified storage of blanking, namely classified storage according to storage of specified raw materials;

s6, cleaning the work box, performing gas cleaning on the grinding, drying and iron removing box, and cleaning the powder in the work box;

s7: the raw materials are stored in a sealed mode, and the raw materials are stored in a sealed mode by closing a sealing plate;

the steps S1-S7 are completed by matching glass production raw material pretreatment equipment, and the glass production raw material pretreatment equipment comprises a box body, wherein a feeding funnel is fixedly arranged above the middle of the box body, a sliding fan part is arranged below the feeding funnel, a grinding and drying iron removal part is arranged below the sliding fan part, and a classification part is arranged below the grinding and drying iron removal part.

Preferably, be equipped with the dirt chamber on a side wall of box, be equipped with the venthole between dirt chamber and the box, the venthole below is equipped with the lime stone discharge gate, and lime stone discharge gate one side is equipped with the quartz sand discharge gate, and the lime stone discharge gate is kept away from quartz sand discharge gate direction and is equipped with the feldspar discharge gate, and the box is kept away from feldspar discharge gate one side and is equipped with except that the iron notch.

Preferably, the sliding fan component comprises a first sliding groove, the first sliding groove is located on a side wall, away from the limestone discharge port, of the box body, a second sliding groove is fixedly arranged in the direction away from the first sliding groove, the first sliding groove is provided with a first sliding rod in a sliding connection mode towards the second sliding groove, the second sliding groove is provided with a second sliding rod in a sliding connection mode towards the first sliding groove, a fan fixing box is fixedly arranged between the first sliding rod and the second sliding rod, a first motor is fixedly arranged at the upper end inside the fan fixing box, a fan column is fixedly arranged at the upper end of the first motor, and three blades are fixedly arranged on the outer circumferential surface of the fan column.

Preferably, grind stoving deironing part includes the second motor, and the second motor is fixed on the box to the lateral wall of keeping away from dust chamber direction, and the second motor has set firmly first rotation post to dust chamber direction, and second motor one end is kept away from to first rotation post has set firmly the stoving of grinding and has removed the iron box, and the stoving of grinding removes the iron box and keeps away from first rotation post and has set firmly the second and rotate the post, and the second rotates the post and rotates the connection on the box.

Preferably, a third motor is fixedly arranged on the side wall of the grinding, drying and iron removing box far away from the second motor, a first linkage shaft is fixedly arranged on the third motor in the direction towards the second motor, a second linkage shaft is arranged below the first linkage shaft, the first linkage shaft and the second linkage shaft are rotatably connected to the two side walls of the grinding, drying and iron removing box, a first gear is fixedly arranged at one end of the first linkage shaft far away from the third motor, a second gear is fixedly arranged in the direction towards the first gear, the first gear is meshed with the second gear, a first grinding sleeve is fixedly arranged on the inner circumferential surface and the outer circumferential surface of the grinding, drying and iron removing box by the first linkage shaft, and a second grinding sleeve is fixedly arranged on the outer circumferential surface and the inner circumferential surface of the grinding, drying and iron removing box by the second linkage shaft.

Preferably, the grinding, drying and iron removing box is provided with a sliding plate switch in a sliding mode towards one end of the second grinding sleeve, the sliding plate switch is fixedly provided with an exhaust pipe towards the direction of the second grinding sleeve, the grinding, drying and iron removing box is far away from the sliding plate switch, the first telescopic plate switch is fixedly provided with a telescopic plate switch, the telescopic plate switch is fixedly provided with a heating column towards the direction of the sliding plate switch, the periphery of the heating column is fixedly provided with a hot air cylinder, the hot air cylinder is fixedly arranged towards the direction of the sliding plate switch, and an air inlet hole is formed between the hot air cylinder and the telescopic plate switch.

Preferably, the middle of the upper end of the grinding, drying and iron removing box is rotatably provided with a rotary column, an iron absorbing plate is fixedly arranged on the periphery of the rotary column, a third sliding groove is fixedly arranged on the box body below the first sliding groove, a fourth sliding groove is fixedly arranged on the box body below the second sliding groove, a third sliding rod is arranged on the third sliding groove in a sliding mode towards the fourth sliding groove, a fourth sliding rod is arranged on the fourth sliding groove in a sliding mode towards the third sliding groove, and an iron scraping box is fixedly arranged between the third sliding rod and the fourth sliding rod.

Preferably, categorised part includes the lime stone storage chamber, the lime stone storage chamber is located the low face in the middle of the box, the lime stone storage chamber is equipped with quartz sand storage chamber to removing iron notch direction, the lime stone storage chamber is kept away from quartz sand storage chamber direction and is equipped with feldspar storage chamber, quartz sand storage chamber is equipped with first axis of rotation to lime stone storage chamber direction upper end rotation, first axis of rotation has set firmly first closing plate to box wall direction, the lime stone storage chamber is equipped with the second axis of rotation to quartz sand storage chamber direction upper end rotation, second axis of rotation has set firmly the second closing plate to the lime stone storage chamber middle direction, the lime stone storage chamber is equipped with the third axis of rotation to feldspar storage chamber direction upper end rotation, third axis of rotation lime stone storage chamber middle direction has set firmly the third closing plate, feldspar storage chamber is connected to lime stone storage chamber direction upper end rotation and is equipped with the fourth axis of rotation, fourth axis of rotation has set firmly the fourth closing plate to box wall direction.

Has the advantages that:

1. dust generated by grinding is absorbed during primary grinding, the content of raw materials is improved, and the glass production quality is improved.

2. Grinding back and forth, drying, refining raw material particles, and improving the working efficiency and the glass production quality.

3. The working barrel rotates to remove iron, so that the working time is saved.

4. The raw materials are classified and stored, and the glass production requirements are met.

Drawings

The invention is further explained below with reference to the figures and examples:

FIG. 1 is a flow chart of the method of the present invention.

Fig. 2 is a schematic isometric view of the present invention.

Fig. 3 is a schematic structural view in front view of the present invention.

Fig. 4 is a schematic sectional view at a-a in fig. 3.

FIG. 5 is a schematic isometric view of a grinding, drying and iron removing component according to the present invention.

Fig. 6 is an isometric view of a sliding fan assembly according to the present invention.

In the figure, a box body 1, a sliding fan component 2, a grinding and drying iron removing component 3, a classification component 4, a feeding hopper 101, an iron removing port 102, a dust cavity 103, a quartz sand discharging port 104, a limestone discharging port 105, a feldspar discharging port 106, a first chute 201, a second chute 202, a first slide bar 203, a second slide bar 204, a fan fixing box 205, a first motor 206, a fan column 207, a fan blade 208, a second motor 301, a first rotating column 302, a second rotating column 303, a grinding and drying iron removing box 304, a third motor 305, a first linkage shaft 306, a second linkage shaft 307, a first gear 308, a second gear 309, a first grinding sleeve 310, a second grinding sleeve 311, an air suction pipe 312, a sliding plate switch 313, a telescopic plate switch 314, a heating column 315, a hot air cylinder 316, an iron suction plate 317, a rotating column 318, an air outlet 319, an air inlet 320, a third chute 321, a fourth chute 322, a third chute 322, a dust cavity 103, a dust cavity 104, a dust cavity 104, a dust cavity 105, a dust cavity 106, a dust outlet 106, a dust cavity 106, a dust cavity, a second chute, a dust cavity, a, The device comprises a fourth sliding rod 324, a scraper box 325, a quartz sand storage cavity 401, a limestone storage cavity 402, a feldspar storage cavity 403, a first rotating shaft 404, a first sealing plate 405, a second rotating shaft 406, a second sealing plate 407, a third rotating shaft 408, a third sealing plate 409, a fourth rotating shaft 410 and a fourth sealing plate 411.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

In the description of the present invention, it should be noted that the terms "inside", "below", and the like refer to orientations or positional relationships based on the orientations or positional relationships shown in the drawings or orientations or positional relationships that the products of the present invention conventionally place when used, and are used only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

With reference to fig. 1-6, a glass production raw material pretreatment process includes the following steps:

s1, feeding, namely adding the raw materials into a grinding, drying and iron removing box through a feeding hopper;

s2, grinding and removing dust, and grinding the dust on the raw material through a grinding column to absorb and remove the dust;

s3: drying and grinding, wherein the raw materials are ground and dried back and forth in a grinding, drying and iron removing box;

s4: removing iron, namely removing iron in the raw materials through the matching action of the rotation of a grinding and drying iron removing box and an iron absorption plate;

s5: classified storage of blanking, namely classified storage according to storage of specified raw materials;

s6, cleaning the work box, performing gas cleaning on the grinding, drying and iron removing box, and cleaning the powder in the work box;

s7: the raw materials are stored in a sealed mode, and the raw materials are stored in a sealed mode by closing a sealing plate;

the steps S1-S7 are completed by matching glass production raw material pretreatment equipment, the glass production raw material pretreatment equipment comprises a box body 1, a feeding funnel 101 is fixedly arranged above the middle of the box body 1, a sliding fan part 2 is arranged below the feeding funnel 101, a grinding and drying iron removal part 3 is arranged below the sliding fan part 2, and a classification part 4 is arranged below the grinding and drying iron removal part 3.

Further, with reference to fig. 2, a dust chamber 103 is arranged on a side wall of the box body 1, an air outlet 319 is arranged between the dust chamber 103 and the box body 1, a limestone discharge port 105 is arranged below the air outlet 319, a quartz sand discharge port 104 is arranged on one side of the limestone discharge port 105, a feldspar discharge port 106 is arranged in a direction where the limestone discharge port 105 is far away from the quartz sand discharge port 104, and an iron removing port 102 is arranged on one side of the box body 1 far away from the feldspar discharge port 106.

Further, referring to fig. 4 and 6, the sliding fan component 2 includes a first sliding groove 201, the first sliding groove 201 is located on a side wall of the box body 1 away from the limestone discharge port 105, a second sliding groove 202 is fixedly disposed on the box body 1 away from the first sliding groove 201, the first sliding groove 201 is slidably connected to the second sliding groove 202 and is provided with a first sliding rod 203, the second sliding groove 202 is slidably connected to the first sliding groove 201 and is provided with a second sliding rod 204, a fan fixing box 205 is fixedly disposed between the first sliding rod 203 and the second sliding rod 204, a first motor 206 is fixedly disposed at an upper end inside the fan fixing box 205, an upper end of the first motor 206 is fixedly provided with a fan column 207, and three blades 208 are fixedly disposed on an outer circumferential surface of the fan column 207.

Further, combine fig. 4, 5, 6, grind stoving deironing part 3 includes second motor 301, second motor 301 is fixed on the lateral wall of box 1 to keeping away from dirt chamber 103 direction, second motor 301 has set firmly first rotation post 302 to dirt chamber 103 direction, first rotation post 302 is kept away from second motor 301 one end and is set firmly grinding stoving deironing case 304, grinding stoving deironing case 304 is kept away from first rotation post 302 and is set firmly second rotation post 303, second rotation post 303 rotates and connects on box 1.

Further, referring to fig. 4, 5, and 6, a third motor 305 is fixedly disposed on a side wall of the grinding, drying and de-ironing box 304 away from the second motor 301, a first linkage shaft 306 is fixedly disposed on the third motor 305 toward the second motor 301, a second linkage shaft 307 is disposed below the first linkage shaft 306, the first linkage shaft 306 and the second linkage shaft 307 are rotatably connected to two side walls of the grinding, drying and de-ironing box 304, a first gear 308 is fixedly disposed on one end of the first linkage shaft 306 away from the third motor 305, a second gear 309 is fixedly disposed on the second linkage shaft 307 toward the first gear 308, the first gear 308 is engaged with the second gear 309, a first grinding sleeve 310 is fixedly disposed on an inner circumferential surface and an outer circumferential surface of the grinding, drying and de-ironing box 304 by the first linkage shaft 306, and a second grinding sleeve 311 is fixedly disposed on an inner circumferential surface and an outer circumferential surface of the grinding, drying and de-ironing box 304 by the second linkage shaft 307.

Further, with reference to fig. 4, 5, and 6, a sliding plate switch 313 is slidably disposed at one end of the grinding, drying and de-ironing box 304 toward the second grinding sleeve 311, an air exhaust pipe 312 is fixedly disposed at the sliding plate switch 313 toward the second grinding sleeve 311, a telescopic plate switch 314 is fixedly disposed at a first end of the grinding, drying and de-ironing box 304 away from the sliding plate switch 313, a heating column 315 is fixedly disposed at the telescopic plate switch 314 toward the sliding plate switch 313, a hot air cylinder 316 is fixedly disposed at the periphery of the heating column 315, the hot air cylinder 316 is fixed at the telescopic plate switch 314 toward the sliding plate switch 313, and an air inlet 320 is disposed between the hot air cylinder 316 and the telescopic plate switch 314.

Further, with reference to fig. 4, 5, and 6, a rotary column 318 is rotatably disposed in the middle of the upper end of the grinding, drying, and de-ironing box 304, an iron-absorbing plate 317 is fixedly disposed on the periphery of the rotary column 318, a third sliding chute 321 is fixedly disposed on the box body 1 below the first sliding chute 201, a fourth sliding chute 322 is fixedly disposed on the box body 1 below the second sliding chute 202, a third sliding chute 323 is slidably disposed on the third sliding chute 321 toward the fourth sliding chute 322, a fourth sliding chute 324 is slidably disposed on the fourth sliding chute 322 toward the third sliding chute 321, and a scraper box 325 is fixedly disposed between the third sliding chute 323 and the fourth sliding chute 324.

Further, referring to FIG. 4, the classification unit 4 includes a limestone storage chamber 402, the limestone storage chamber 402 is located at the lower middle surface of the casing 1, the limestone storage chamber 402 is provided with a silica sand storage chamber 401 toward the iron removal opening 102, the limestone storage chamber 402 is provided with a feldspar storage chamber 403 toward the silica sand storage chamber 401, the silica sand storage chamber 401 is provided with a first rotary shaft 404 toward the upper end of the limestone storage chamber 402, the first rotary shaft 404 is provided with a first sealing plate 405 toward the wall of the casing 1, the limestone storage chamber 402 is provided with a second rotary shaft 406 toward the upper end of the silica sand storage chamber 401, the second rotary shaft 406 is provided with a second sealing plate 407 toward the middle of the limestone storage chamber 402, the limestone storage chamber 402 is provided with a third rotary shaft 408 toward the upper end of the feldspar storage chamber 403, the third rotary shaft 408 is provided with a third sealing plate 409 toward the middle of the limestone storage chamber 402, the feldspar storage cavity 403 is rotatably connected with a fourth rotating shaft 410 towards the upper end of the limestone storage cavity 402, and a fourth sealing plate 411 is fixedly arranged on the fourth rotating shaft 410 towards the wall of the box body 1.

Principle of operation

The first step is as follows: the feeding, in adding people to box 1 through feed hopper 101 to the raw materials of glass production, second motor 301 starts to drive through first rotation post 302 and grinds stoving and remove iron box 304 and rotate slide switch 313 one end and rotate the highest point and aim at feed hopper 101, and slide switch 313 is opened, and the raw materials enters into to grind stoving and remove iron box 304.

And secondly, grinding and removing dust, starting a third motor 305 to drive a first grinding sleeve 310 and a second grinding sleeve 311 to rotate oppositely to grind the raw materials, aligning an air outlet 319 with an air suction pipe 312 to absorb the dust on the raw materials into a dust cavity 103, and stopping the operation after the air suction pipe 312 absorbs the dust for a certain time.

The third step: drying and grinding are carried out, raw materials enter the grinding and drying iron removing box 304 to be finished, the sliding plate switch 313 is closed, the second motor 301 drives the grinding and drying iron removing box 304 to rotate through the first rotating column 302, air enters the hot air cylinder 316 through the air inlet hole 320, the heating column 315 is used for heating, hot air enters the grinding and drying iron removing box 304 through the hot air cylinder 316, and the raw materials are ground and dried back and forth in the grinding and drying iron removing box 304.

The fourth step: deironing, magnet board 317 follows the grinding stoving except that the iron box 304 lower extreme holds the interior iron impurity of raw materials, and when magnet board 317 rotated the top, magnet board 317 overturns the iron impurity to grinding stoving except that iron box 304 through the upset of column 318, scrapes iron box 325 and slides and scrape away iron impurity from magnet board 317, slides and removes iron impurity to deironing mouth 102.

The fifth step: unloading classified storage, second motor 301 control grinding stoving de-ironing separator 304 aims at quartzy sand storage chamber 401 according to the categorised quartzy sand of the composition of raw materials, and limestone alignment limestone storage chamber 402, feldspar aim at the closing plate rotation of feldspar on the feldspar storage chamber 403 to the storage chamber that corresponds and open and carry out other closing plates of a guide effect airtight, expansion plate switch 314 opens the raw materials and stores according to the storage chamber that corresponds.

Sixthly, cleaning the working box, enabling the sliding fan component 2 to slide to the position above the grinding, drying and de-ironing box 304, starting the first motor 206, driving the fan blades 208 to rotate through the fan column 207 to blow the air in the grinding, drying and de-ironing box 304 to the corresponding storage cavity by wind power, and stopping the first motor 206.

The seventh step: and (4) hermetically storing, wherein the first rotating shaft 404 controls the first sealing plate 405 to hermetically store, and then taking out the quartz sand through the quartz sand outlet 104 for use.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (8)

1. A glass production raw material pretreatment process is characterized by comprising the following steps:

s1, feeding, namely adding the raw materials into a grinding, drying and iron removing box through a feeding hopper;

s2, grinding and removing dust, and grinding the dust on the raw material through a grinding column to absorb and remove the dust;

s3: drying and grinding, wherein the raw materials are ground and dried back and forth in a grinding, drying and iron removing box;

s4: removing iron, namely removing iron in the raw materials through the matching action of the rotation of a grinding and drying iron removing box and an iron absorption plate;

s5: classified storage of blanking, namely classified storage according to storage of specified raw materials;

s6, cleaning the work box, performing gas cleaning on the grinding, drying and iron removing box, and cleaning the powder in the work box;

s7: the raw materials are stored in a sealed mode, and the raw materials are stored in a sealed mode by closing a sealing plate;

steps S1-S7 adopt a glass raw materials for production preliminary treatment equipment cooperation to accomplish, and this glass raw materials for production preliminary treatment equipment includes box (1), feed hopper (101) have set firmly in the middle of box (1) top, feed hopper (101) below is equipped with slip fan part (2), slip fan part (2) below is equipped with grinds stoving deironing part (3), it is equipped with categorised part (4) to grind stoving deironing part (3) below.

2. The glass production raw material pretreatment process according to claim 1, characterized in that: be equipped with dirt soil chamber (103) on box (1) a lateral wall, be equipped with venthole (319) between dirt soil chamber (103) and box (1), venthole (319) below is equipped with lime stone discharge gate (105), lime stone discharge gate (105) one side is equipped with quartz sand discharge gate (104), quartz sand discharge gate (104) orientation is kept away from in lime stone discharge gate (105) is equipped with feldspar discharge gate (106), feldspar discharge gate (106) one side is kept away from in box (1) is equipped with except that iron notch (102).

3. The glass production raw material pretreatment process according to claim 1, characterized in that: sliding fan part (2) include first spout (201), first spout (201) are located box (1) and keep away from on limestone discharge gate (105) a lateral wall, box (1) is kept away from first spout (201) orientation and is set firmly second spout (202), first spout (201) are equipped with first slide bar (203) to second spout (202) sliding connection, second spout (202) are equipped with second slide bar (204) to first spout (201) orientation sliding connection, set firmly fan stationary box (205) between first slide bar (203) and second slide bar (204), fan stationary box (205) inside upper end sets firmly first motor (206), first motor (206) upper end sets firmly fan column (207), fan column (207) outer periphery sets firmly three leaf (208).

4. The glass production raw material pretreatment process according to claim 1, characterized in that: grind stoving deironing part (3) including second motor (301), second motor (301) are fixed on box (1) to the lateral wall of keeping away from dirt soil chamber (103) direction, second motor (301) have set firmly first rotation post (302) to dirt chamber (103) direction, first rotation post (302) are kept away from second motor (301) one end and are set firmly the grinding stoving and remove iron box (304), the grinding stoving removes iron box (304) and keeps away from first rotation post (302) and has set firmly second rotation post (303), the second rotates post (303) and rotates to be connected on box (1).

5. The glass production raw material pretreatment process according to claim 4, characterized in that: the grinding, drying and de-ironing box (304) far away from the side wall of the second motor (301) is fixedly provided with a third motor (305), the third motor (305) is fixedly provided with a first linkage shaft (306) towards the second motor (301), a second linkage shaft (307) is arranged below the first linkage shaft (306), the first linkage shaft (306) and the second linkage shaft (307) are rotatably connected onto the two side walls of the grinding, drying and de-ironing box (304), one end of the first linkage shaft (306) far away from the third motor (305) is fixedly provided with a first gear (308), the second linkage shaft (307) is fixedly provided with a second gear (309) towards the first gear (308), the first gear (308) is in meshing fit with the second gear (309), the first linkage shaft (306) is fixedly provided with a first grinding sleeve (310) on the inner and outer circumferential surfaces of the grinding, and the second linkage shaft (307) is fixedly provided with a second grinding sleeve (311) on the inner and outer circumferential surfaces of the grinding, drying and de-ironing box (304) ).

6. The glass production raw material pretreatment process according to claim 4, characterized in that: grind stoving except that iron box (304) grinds sleeve (311) one end to the second and slides and be equipped with slide switch (313), slide switch (313) grind sleeve (311) direction to the second and have set firmly exhaust tube (312), grind stoving except that iron box (304) keep away from slide switch (313) first set firmly expansion plate switch (314), expansion plate switch (314) have set firmly heating post (315) to slide switch (313) direction, heating post (315) periphery has set firmly hot gas cylinder (316), hot gas cylinder (316) are fixed in expansion plate switch (314) to slide switch (313) direction, be equipped with inlet port (320) between hot gas cylinder (316) and expansion plate switch (314).

7. The glass production raw material pretreatment process according to claim 3, characterized in that: grinding stoving de-ironing box (304) upper end middle rotation is equipped with rotary column (318), rotary column (318) periphery has set firmly iron absorbing plate (317), first spout (201) below box (1) has set firmly third spout (321), second spout (202) below box (1) has set firmly fourth spout (322), third spout (321) are equipped with third slide bar (323) to fourth spout (322) direction slip, fourth spout (322) are equipped with fourth slide bar (324) to third spout (321) direction slip, it scrapes iron box (325) to set firmly between third slide bar (323) and fourth slide bar (324).

8. The glass production raw material pretreatment process according to claim 1, characterized in that: categorised part (4) include limestone storage chamber (402), limestone storage chamber (402) are located low face in the middle of box (1), limestone storage chamber (402) are equipped with quartz sand storage chamber (401) to deironing mouth (102) direction, limestone storage chamber (402) are kept away from quartz sand storage chamber (401) direction and are equipped with feldspar storage chamber (403), quartz sand storage chamber (401) are equipped with first axis of rotation (404) to rotation of limestone storage chamber (402) direction upper end, first axis of rotation (404) have set firmly first closing plate (405) to box (1) wall direction, limestone storage chamber (402) are equipped with second axis of rotation (406) to rotation of quartz sand storage chamber (401) direction upper end, second axis of rotation (406) have set firmly second closing plate (407) to limestone storage chamber (402) middle direction, limestone storage chamber (402) are equipped with third axis of rotation (408) to rotation of feldspar storage chamber (403) direction upper end rotation ) The third rotating shaft (408) is fixedly provided with a third sealing plate (409) towards the middle direction of the limestone storage cavity (402), the feldspar storage cavity (403) is rotatably connected with a fourth rotating shaft (410) towards the upper end of the limestone storage cavity (402), and the fourth rotating shaft (410) is fixedly provided with a fourth sealing plate (411) towards the wall direction of the box body (1).

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