CN215843566U - Iron removal device and iron removal equipment for float glass batch - Google Patents

Abstract

The utility model relates to a deironing device and deironing equipment for float glass batch, the deironing device includes elephant trunk and deironing frame, deironing frame detachably sets up in the elephant trunk and including a plurality of side by side and interval arrangement's deironing pole, adjacent two remove between the iron pole and adjacent form the passageway that is used for supplying the batching to pass between the elephant trunk inner wall, with through deironing pole adsorbs iron impurity in the batch, wherein, the axis direction and a plurality of the elephant trunk the plane slope at deironing pole place is crossing. Through above-mentioned technical scheme, this a deironing device for float glass batch that openly provides can solve among the correlation technique because the processing quality that iron impurity content is high to lead to is poor, the problem of inefficiency.

Description

Iron removal device and iron removal equipment for float glass batch

Technical Field

The disclosure relates to the technical field of float glass manufacturing, in particular to an iron removal device and iron removal equipment for float glass batch.

Background

In the production of float glass, the iron content index of the glass is a strictly controlled index, and when the iron content exceeds a certain range in the production process, the light transmittance of the glass is greatly reduced, and the glass has certain color difference. In the process of smelting the quartz sand, the iron-containing oxide can also absorb the heat radiation generated by the iron-containing oxide, so that an obvious temperature gradient is generated between the upper layer and the lower layer of the molten glass, the convection of the molten glass is difficult, and the difficulty in smelting and clarification is greatly increased. In the prior art, the iron impurity content in the batch conveyed through the inside of the chute is higher, so that the difficulty of subsequent glass manufacturing is increased, the glass processing quality is poor, the field work load is increased, the operation cost is high, and the efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a deironing device and deironing equipment for float glass batch, this deironing device can solve among the correlation technique because the processing quality that iron impurity content is high to lead to is poor, the problem of inefficiency.

In order to achieve the above object, the present disclosure provides an iron removing device for a float glass batch, the iron removing device includes a chute and an iron removing frame, the iron removing frame is detachably disposed in the chute and includes a plurality of iron removing rods arranged side by side and at intervals, a channel for a batch to pass is formed between two adjacent iron removing rods and between the iron removing rods and the adjacent inner wall of the chute, so as to adsorb iron impurities in the batch through the iron removing rods, wherein an axial direction of the chute is obliquely intersected with a plane where the plurality of iron removing rods are located.

Optionally, the plurality of iron removing rods are arranged at intervals along a first direction and extend along a second direction, the axis direction of the chute is parallel to the vertical direction and obliquely intersects with a plane formed by the first direction and the second direction, and the first direction is perpendicular to the vertical direction.

Optionally, the iron removing device further comprises a fixing frame fixedly connected inside the chute, and the iron removing frame is lapped above the fixing frame.

Optionally, the deironing frame includes the edge second direction interval arrangement and all follow two connecting rods that the first direction extends, it is a plurality of deironing pole links firmly two between the connecting rod, the mount includes the edge first direction interval arrangement and all follow two at least bracing pieces that the second direction extends, the bracing piece link firmly in elephant trunk, two the connecting rod overlap joint is at least two on the bracing piece.

Optionally, the mount structure is the U-shaped frame, including two parallel arrangement's first pole and connect two second pole between the first pole, two the first pole is all followed first direction extends, it includes the connecting rod to remove the iron set, and is a plurality of remove the one end of iron pole and link firmly in the connecting rod, the connecting rod overlap joint is two first pole is kept away from on the one end of second pole, and is a plurality of remove the iron pole and keep away from the other end overlap joint of connecting rod is in on the second pole.

Optionally, the chute is configured as a rectangular tube, and one of two side walls of the chute opposite to the first direction is provided with a viewing port for the iron removing rack to pass through, and a viewing door openably and closably provided at the viewing port.

Optionally, a handle is arranged on one side of the iron removing frame close to the observation port.

Optionally, the number of the iron removing frames is multiple, and the multiple iron removing frames are arranged at intervals along the axial direction of the chute.

The iron removing device comprises a conveying belt and the iron removing device, wherein the conveying belt is used for conveying the batch, the discharge end of the conveying belt is connected with the batch inlet of the chute of the iron removing device in an abutting mode.

Through the technical scheme, this disclose a deironing device for float glass batch that provides promptly, with deironing frame detachably set up in the elephant trunk, and between two adjacent deironing poles of deironing frame and between the elephant trunk inner wall that deironing pole is adjacent form and be used for supplying the passageway that the batching passed, can adsorb the iron impurity in the batch that passes the elephant trunk fully, furthest reduces the content of iron impurity in the batch, deironing is effectual, and created favorable condition for follow-up glass makes, can solve among the relevant art because the processing quality that iron impurity content is high to lead to is poor, the problem of inefficiency. In addition, the axis direction of elephant trunk intersects with the plane slope at a plurality of deironing poles place, is about to deironing the frame and places inside the elephant trunk aslope, can reduce the batch and pile up on deironing pole, is favorable to quick unloading, can guarantee deironing device's stable work, keeps higher deironing effect and alleviates deironing device's clean maintenance work for a long time. Therefore, the deironing device for float glass batch that this disclosure provided can solve among the prior art because the processing quality that iron impurity content is high to lead to is poor, the problem of inefficiency, and has can stable operation, simple structure and advantage with low costs.

Additional features and advantages of the disclosure will be set forth in the detailed description which follows.

Drawings

The accompanying drawings, which are included to provide a further understanding of the disclosure and are incorporated in and constitute a part of this specification, illustrate embodiments of the disclosure and together with the description serve to explain the disclosure without limiting the disclosure. In the drawings:

fig. 1 is a schematic view of the overall structure of an iron removing apparatus for a float glass batch provided in an exemplary embodiment of the present disclosure;

FIG. 2 is a schematic view of an overall configuration of another angle of an iron removal apparatus for a float glass batch material provided in an exemplary embodiment of the present disclosure;

FIG. 3 is a schematic structural view of an iron removing frame of an iron removing apparatus for a float glass batch provided in an exemplary embodiment of the present disclosure;

FIG. 4 is another schematic structural view of an iron removing frame of the iron removing apparatus for a float glass batch provided in an exemplary embodiment of the present disclosure;

FIG. 5 is a top view of an iron removal apparatus for a float glass batch material provided in an exemplary embodiment of the present disclosure;

fig. 6 is a cross-sectional view taken at the position a-a in fig. 5.

Description of the reference numerals

1-chute; 110-a viewing port; 120-a viewing door; 2-iron removing frame; 210-a de-ironing bar; 220-a connecting rod; 3-a fixing frame; 310-a support bar; 320-a first rod; 330-second lever.

Detailed Description

The following detailed description of specific embodiments of the present disclosure is provided in connection with the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the present disclosure, are given by way of illustration and explanation only, not limitation.

In the present disclosure, unless otherwise specified, "inner and outer" refer to inner and outer relative to the contour of the component or structure itself. In addition, it should be noted that terms such as "first", "second", and the like are used for distinguishing one element from another, and have no order or importance. In addition, in the description with reference to the drawings, the same reference numerals in different drawings denote the same elements.

According to a first aspect of the present disclosure, there is provided an iron removing device for float glass batch, as shown in fig. 1 to 6, the iron removing device comprises a chute 1 and an iron removing frame 2, the iron removing frame 2 is detachably disposed in the chute 1 and comprises a plurality of iron removing rods 210 arranged side by side and at intervals, a channel for the batch to pass through is formed between two adjacent iron removing rods 210 and between the iron removing rods 210 and the inner wall of the adjacent chute 1, so as to adsorb iron impurities in the batch through the iron removing rods 210, wherein the axial direction of the chute 1 obliquely intersects with the plane where the plurality of iron removing rods 210 are located.

Through the technical scheme, this disclosure provides a deironing device for float glass batch that promptly, will remove iron stand 2 detachably sets up in elephant trunk 1 to remove and form the passageway that is used for supplying the cooperation material to pass between two adjacent iron removal poles 210 of iron stand 2 and between the adjacent elephant trunk 1 inner wall of iron removal pole 210, can adsorb the iron impurity in the batch that passes elephant trunk 1 fully, reduce the content of iron impurity in the batch to the at utmost, deironing is effectual, and created favorable condition for follow-up glass manufacturing, can solve in the correlation technique because the processing quality that iron impurity content is high leads to is poor, the inefficiency problem. In addition, the axis direction of elephant trunk 1 intersects with the plane slope that a plurality of iron removal poles 210 belonged to, is about to remove iron stand 2 and places in 1 inside of elephant trunk aslope, can reduce the batch and pile up on iron removal pole 210, is favorable to quick unloading, can guarantee the steady operation of deironing device, keeps higher deironing effect and alleviates the clean maintenance work of deironing device for a long time. Therefore, the deironing device for float glass batch that this disclosure provided can solve among the prior art because the processing quality that iron impurity content is high to lead to is poor, the problem of inefficiency, and has can stable operation, simple structure and advantage with low costs.

In the float glass manufacturing industry, the raw materials uniformly mixed in a certain ratio are called batch materials. The raw materials can be divided into raw materials and clinker, wherein the raw materials are natural mineral substances containing a large amount of oxides, the raw materials containing a large amount of oxides are mixed into batch materials according to a certain proportion, and the clinker, namely cullet, is added into the batch materials in the actual production process, so that the melting rate of the batch materials is improved, the energy is saved, and the service life of a kiln is prolonged.

In some specific embodiments, referring to fig. 1 to 6, a plurality of deferrization bars 210 are arranged at intervals along a first direction and all extend along a second direction, the axial direction of the chute 1 is parallel to the vertical direction and obliquely intersects with a plane formed by the first direction and the second direction, and the first direction is perpendicular to the vertical direction. As shown in fig. 6, the vertical direction is the up-down direction of the drawing in fig. 6, the first direction is the direction perpendicular to the drawing in fig. 6, and the second direction is the X direction in fig. 6. A plurality of iron removing rod 210 extend aslope, can increase iron removing rod 210's length, can increase the adsorption area to the batch mixture promptly, are favorable to reaching better deironing effect. In addition, the included angle a between the extending direction of the iron removing rod 210 and the vertical direction may adopt any suitable angle, and the disclosure is not limited in detail herein. In addition, a plurality of de-ironing bars 210 can be selected to have a suitable number according to the actual application requirements, and fig. 1, fig. 3 and fig. 4 all exemplarily show that the number of the de-ironing bars 210 is 7 and the de-ironing bars are all configured as cylindrical rod bodies, which can facilitate the falling of the batch materials and avoid the accumulation of the batch materials, so as to facilitate the iron removal effect of the de-ironing bars 210 and create favorable conditions for the subsequent processing of high-quality glass. Wherein, the deironing rod 210 may adopt a permanent magnet, and in other embodiments, the deironing rod 210 may also adopt an electromagnet, for example, and the disclosure is not limited in detail herein.

In order to better ensure that the iron removing frame 2 is stably placed in the chute 1, in some embodiments, referring to fig. 1 and 2, the iron removing device further comprises a fixing frame 3 fixedly connected inside the chute 1, and the iron removing frame 2 is lapped above the fixing frame 3 so as to facilitate the stable work of the iron removing frame 2 inside the chute 1.

The deferral rack 2 and the fixing rack 3 can be constructed in any suitable manner according to the practical application requirements, for example, in some embodiments, as shown in fig. 1, fig. 2 and fig. 3, the deferral rack 2 comprises two connecting rods 220 arranged at intervals along the second direction and extending along the first direction, a plurality of deferral rods 210 are fixedly connected between the two connecting rods 220, the fixing rack 3 comprises at least two supporting rods 310 arranged at intervals along the first direction and extending along the second direction, the supporting rods 310 are fixedly connected to the chute 1, and the two connecting rods 220 are lapped on the at least two supporting rods 310.

In other embodiments, referring to fig. 1, 2 and 4, the fixing frame 3 is configured as a U-shaped frame, and comprises two first rods 320 arranged in parallel and a second rod 330 connected between the two first rods 320, wherein the two first rods 320 extend along a first direction, the iron removing frame 2 comprises a connecting rod 220, one end of the plurality of iron removing rods 210 is fixedly connected to the connecting rod 220, the connecting rod 220 is overlapped on one end of the two first rods 320 far from the second rod 330, and the other end of the plurality of iron removing rods 210 far from the connecting rod 220 is overlapped on the second rod 330. Through this kind of mode, when guaranteeing mount 3 and 2 stability of deironing frame, can reduce mount 3 and the materials cost of deironing frame 2, also can alleviate the weight of deironing frame 2 simultaneously to convenient taking when clearance deironing frame 2.

In some embodiments, the chute 1 may be configured as a rectangular or circular tube or any other suitable shape for the purpose of conveying batch materials, as shown with reference to fig. 1 and 2, which both exemplarily show embodiments in which the chute 1 is configured as a rectangular tube. And, one of the two opposite side walls of the chute 1 with respect to the first direction is provided with an observation port 110 for allowing the iron removing rack 2 to pass through and an observation door 120 openably and closably arranged at the observation port 110, when the observation door 120 is in an open state, the observation port 110 is in a communicating state, so that the iron removing rack 2 can be placed in the chute through the observation port 110 and the iron removing rack 2 can be taken out from the inside of the chute 1 from the observation port 110 when being cleaned, and when the observation door 120 is in a closed state, the observation port 110 is in a closed state, so that the batch can be prevented from splashing outwards through the observation port 110.

The better operation of the operator is facilitated when the iron removing frame 2 is replaced. Therefore, in some embodiments, a handle (not shown) is disposed on a side of the deironing stand 2 close to the observation opening 110, so that the operator can carry the deironing stand 2 more easily through the handle, and the handle may be configured in any suitable manner, for example, as a U-shaped handle, and the like, which is not limited in the present disclosure.

For better enhancement deironing device's deironing effect, in some embodiments, the quantity of deironing frame 2 is a plurality of, and a plurality of deironing frame 2 are arranged along the axis direction interval of elephant trunk 1, like this, get rid of iron impurity through a plurality of times of deironing frame 2 to do benefit to and reach optimum deironing effect.

According to the second aspect of the present disclosure, there is also provided an iron removing apparatus for float glass batch, comprising a conveyer belt for conveying batch and the above iron removing device, wherein the discharge end of the conveyer belt is connected to the batch inlet of the chute 1 of the iron removing device. This deironing equipment can solve among the correlation technique because the processing quality that iron impurity content is high to lead to is poor, the problem of inefficiency, and has all beneficial effects of above-mentioned deironing device, and this disclosure is no longer repeated here.

The preferred embodiments of the present disclosure are described in detail with reference to the accompanying drawings, however, the present disclosure is not limited to the specific details of the above embodiments, and various simple modifications may be made to the technical solution of the present disclosure within the technical idea of the present disclosure, and these simple modifications all belong to the protection scope of the present disclosure.

It should be noted that, in the foregoing embodiments, various features described in the above embodiments may be combined in any suitable manner, and in order to avoid unnecessary repetition, various combinations that are possible in the present disclosure are not described again.

In addition, any combination of various embodiments of the present disclosure may be made, and the same should be considered as the disclosure of the present disclosure, as long as it does not depart from the spirit of the present disclosure.

Claims (9)

1. The iron removing device for the float glass batch is characterized by comprising a chute (1) and an iron removing frame (2), wherein the iron removing frame (2) is detachably arranged in the chute (1) and comprises a plurality of iron removing rods (210) which are arranged side by side at intervals, a channel for the batch to pass through is formed between every two adjacent iron removing rods (210) and between the iron removing rods (210) and the inner wall of the adjacent chute (1) so as to adsorb iron impurities in the batch through the iron removing rods (210), and the axial direction of the chute (1) is obliquely intersected with the plane where the iron removing rods (210) are located.

2. The iron removing device for float glass batch according to claim 1, wherein a plurality of the iron removing rods (210) are arranged at intervals along a first direction and all extend along a second direction, the axial direction of the chute (1) is parallel to a vertical direction and obliquely intersects with a plane formed by the first direction and the second direction, and the first direction is perpendicular to the vertical direction.

3. The iron removal device for float glass batch according to claim 2, characterized in that the iron removal device further comprises a fixed frame (3) fixedly connected to the inside of the chute (1), and the iron removal frame (2) is lapped above the fixed frame (3).

4. The iron removal device for float glass batch according to claim 3, characterized in that the iron removal frame (2) comprises two connecting rods (220) arranged at intervals along the second direction and extending along the first direction, a plurality of the iron removal rods (210) are fixedly connected between the two connecting rods (220), the fixing frame (3) comprises at least two supporting rods (310) arranged at intervals along the first direction and extending along the second direction, the supporting rods (310) are fixedly connected to the chute (1), and the two connecting rods (220) are lapped on at least two of the supporting rods (310).

5. The iron removal device for float glass batch according to claim 3, characterized in that the fixed frame (3) is configured as a U-shaped frame comprising two first rods (320) arranged in parallel and a second rod (330) connected between the two first rods (320), both of the first rods (320) extending in the first direction, the iron removal frame (2) comprises a connecting rod (220), one end of the plurality of iron removal rods (210) is fixedly connected to the connecting rod (220), the connecting rod (220) is lapped on one end of the two first rods (320) far away from the second rod (330), and the other end of the plurality of iron removal rods (210) far away from the connecting rod (220) is lapped on the second rod (330).

6. The iron removal apparatus for float glass batch according to claim 3, wherein the chute (1) is configured as a rectangular tube, one of two side walls of the chute (1) opposite with respect to the first direction is provided with a viewing port (110) for passing the iron removing frame (2), and a viewing door (120) openably and closably provided at the viewing port (110).

7. The iron removal device for float glass batch according to claim 6, characterized in that a handle is arranged on one side of the iron removal frame (2) close to the observation opening (110).

8. The iron removal device for float glass batch according to any one of claims 1 to 7, characterized in that the number of the iron removal frame (2) is plural, and the plural iron removal frames (2) are arranged at intervals along the axial direction of the chute (1).

9. An iron removal apparatus for float glass batch, characterized in that it comprises a conveyor belt for conveying the batch and an iron removal device according to any one of claims 1 to 8, the discharge end of the conveyor belt being connected to the batch inlet of the chute (1) of the iron removal device.

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