CN210753196U - Material deironing device and system of ultra-white glass production line - Google Patents

Abstract

The utility model relates to a material iron removing device and a system of an ultra-white glass production line, belonging to the technical field of glass manufacture, and the device comprises a bracket, a suspender and a magnetic part; the bracket is arranged beside a material conveying belt of a glass production line when in use; the upper end of the suspender is movably connected with the bracket, and the suspender can swing around the upper end of the suspender along the material conveying direction; the magnetic part is installed at the lower end of the suspender, and the magnetic part is suspended above the material and used for adsorbing iron-containing impurities in the material. The device can swing under the material impact, avoids arousing equipment trouble. The device is convenient to install and use, can be effectively contacted with conveyed materials, and has high iron removal efficiency. The device is flexible in installation and splicing, and can be freely combined and spliced according to the width of a belt of a production line.

Description

Material deironing device and system of ultra-white glass production line

Technical Field

The utility model relates to a glass production line material deironing device and system, especially a super white glass production line material deironing device belongs to glass and makes technical field.

Background

In the field of float glass production, in order to improve the color of the glass, further reduce the introduction of iron in a raw material system and enhance the iron removal of the raw material, the requirement of necessary technical development in the production of the float glass is met, and particularly, the low iron control required by the production of ultra-white glass is stricter.

In the existing float glass production, a belt conveyor with the width of 800-1200 mm is mainly adopted to convey materials, and the thickness of the materials is about 200-300 mm; in the prior iron removal technology, iron is removed mainly by adopting modes of an electromagnet, a permanent magnet and the like, and is hung above a belt through a bracket, and the installation height of the general magnet is 200-450 mm away from the belt; the weight of the iron remover is 300-1000 kg.

In order to further reduce iron-containing impurities in the materials, the distance between the magnet and the belt for conveying the materials needs to be controlled to be 50-100mm, and the distance between the iron remover and the materials is difficult to adjust due to the fact that the weight of the iron remover used in the existing equipment is large; if the iron remover is too close to the material surface, when material flow fluctuation occurs in the material conveying process, the material impacts on the iron remover, and the material of the iron remover is scraped to the lower part of the belt, so that the problems of equipment failure, material waste and the like are caused; if the method occurs in a batching system, errors in the accuracy of the formula can be caused to cause quality accidents.

Therefore, when the production of ultra-white glass needs to strictly control the iron-containing impurities, the iron-containing impurities in the materials cannot be effectively removed by adjusting the distance between the iron remover and the materials.

SUMMERY OF THE UTILITY MODEL

The invention of the utility model aims to: when aiming at the production of float ultra-white glass, the requirement on the iron removal of raw materials is higher, the problem of iron-containing impurities in the materials is difficult to effectively remove in the existing equipment by adjusting the distance between the iron remover and the materials, and the material iron removal device for the ultra-white glass production line is provided.

In order to realize the purpose, the utility model discloses a technical scheme be:

a material iron removing device of an ultra-white glass production line comprises a bracket, a suspender and a magnetic part;

the bracket is used for being arranged beside a material conveying belt of a glass production line;

the upper end of the suspender is movably connected with the bracket, and the suspender can swing around the upper end of the suspender along the material conveying direction;

the magnetic part is installed at the lower end of the hanging rod and suspended above the material layer for adsorbing iron-containing impurities in the material layer.

The magnetic part is suspended above the material layer and adsorbs residual iron-containing impurities, and the magnetic part is connected with the lower end of the suspender and can also swing along the conveying direction of the material layer. The distance between the magnetic part and the material can be closer, and iron impurities can be adsorbed more effectively; when the material strikes on the magnetic part, the magnetic part swings, the material is conveyed to the downstream immediately, material accumulation cannot occur, and equipment failure cannot be caused.

As the utility model discloses an optimal scheme, the support includes vertical pole, horizontal pole, locking screw, vertical pole is installed at material conveyer belt both sides relative position, vertical pole upper end is equipped with vertical pole slot hole along vertical direction, the horizontal pole both ends are equipped with the horizontal pole trompil respectively, locking screw passes the horizontal pole trompil with vertical pole slot hole, locking the horizontal pole with the relative position of vertical pole.

The vertical rod elongated hole is arranged along the vertical direction, and the vertical direction is the vertical direction along the vertical direction of the vertical rod when the iron removing device is used and is not absolutely perpendicular to the ground. Through the arrangement of the long holes of the vertical rods, the horizontal height of the cross rod is adjustable, and further the distance between the magnetic part and the material is adjustable.

As the preferred scheme of the utility model, the horizontal pole trompil is along the horizontal direction horizontal pole slot hole.

The cross bar elongated hole is arranged along the horizontal direction, and the horizontal direction is the horizontal direction along the horizontal direction of the cross bar when the iron removing device is used and is not absolutely parallel to the ground. The holes of the cross rod are arranged to be long holes of the cross rod, so that the width of the iron removing device is adjustable, and the iron removing device is suitable for material conveying lines with different widths.

As the utility model discloses a preferred scheme still includes stop device, stop device installs on the jib, stop device is used for controlling the orientation of magnetic part magnetic pole.

The magnetic poles of the magnetic part face the material, the magnetic lines of force at the magnetic pole positions of the magnetic part are dense, the magnetic poles are large, and the adsorption of iron-containing impurities is better.

As the utility model discloses a preferred scheme, the jib includes U type jib, the magnetic part is installed on the base of U type structure, U type upper end swing joint be in on the support.

The jib sets up to the U type, connects on the support through two extreme points of U type, has two swing arms simultaneously, avoids the jib to follow the swing of the direction outside the direction of delivery, and the swing direction of whole device is more stable.

As the preferred scheme of the utility model, the magnetic part includes a plurality of magnet pieces, a plurality of magnet pieces splice together.

The magnet blocks are spliced together, the magnet blocks can be attracted together by utilizing the magnetic force of the magnet blocks to form a whole, and the magnet blocks can also be fixed by other fixing devices, and the magnet blocks provide larger magnetic force.

As the preferred scheme of the utility model, be equipped with the spacer block between the adjacent magnet piece, the spacer block is made by non-ferromagnetic material.

As the utility model discloses an optimal scheme, a plurality of magnet pieces are even linear type and arrange, the straight line is on a parallel with the material plane, sharp perpendicular to the direction of delivery of material.

The spacing blocks made of non-ferromagnetic materials are arranged between the adjacent magnets, so that mutual influence between every two adjacent magnets is avoided, and overlarge local magnetic force is also avoided, so that the whole magnetic force field is more uniformly distributed.

As the preferable proposal of the utility model, the distance between the magnetic part and the material is 50-100 mm.

At the distance, the iron-containing impurities in the materials can be effectively removed, and the materials are not easy to impact the magnetic part.

The utility model also relates to a material iron removal system of the ultrawhite glass production line, which comprises a glass production line iron remover and the iron removal device; the iron removing device is arranged at the downstream of the iron remover of the glass production line.

The iron removal device is used for adsorbing a small amount of iron-containing impurities, when the iron removal device is used for production, most of the iron-containing impurities are adsorbed by the heavy ton electromagnet and the heavy ton permanent magnet, and the residual trace amount of iron-containing impurities are adsorbed by the iron removal device, so that the iron removal device is more suitable for production and use of the ultra-white glass with higher requirement on iron content. Can install the low reaches at current glass production line de-ironing separator with the deironing device in this application, refit ordinary glass's material conveyor for super white glass's material conveyor.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

1. the utility model provides a material deironing device of ultrawhite glass production line, the device can take place the swing under the material strikes, avoids arousing equipment trouble. The device is convenient to install and use, can be effectively contacted with conveyed materials, and has high iron removal efficiency.

2. The utility model discloses a material deironing device of ultrawhite glass production line light, the installation concatenation is nimble, can splice according to production line belt width, independent assortment.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural front view of embodiment 2 of the present invention.

Fig. 3 is a schematic plan view of a magnet structure according to embodiment 4 of the present invention.

FIG. 4 is a schematic view showing the position relationship between the iron remover and the production line during use.

The labels in the figure are: 1-vertical rod, 2-cross rod, 3-nut, 4-suspension rod, 5-magnetic part, 6-limiting device, 7-conveying belt, 8-production line iron remover, 11-vertical rod long hole, 21-cross rod long hole, 41-bearing, 51-magnetic rod, 52-cover plate and 53-bottom plate.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings.

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

In order to more clearly express the structure and the position relation of the iron removing device in use, the terms of the upper direction, the lower direction, the horizontal direction, the vertical direction and the like in the specification are all based on the direction of the iron removing device in use. However, the directionality of the iron removing device is not limited.

Example 1

A material iron removal device for an ultra-white glass production line is shown in figure 1 and comprises a support, wherein the support comprises two vertical rods 1, a cross rod 2 and a nut 3, and the iron removal device further comprises a hanging rod 4 and a magnetic part 5; the material conveying belt is characterized in that the vertical rod 1 is installed at the relative positions of two sides of the material conveying belt when in use, a vertical rod elongated hole 11 is formed in the upper end of the vertical rod 1 in the vertical direction, cross rod openings are formed in two ends of the cross rod 2 respectively, and the nut 3 penetrates through the cross rod openings and the vertical rod elongated hole 11 to lock the relative positions of the cross rod 2 and the vertical rod 1. The upper end of the suspender 4 is movably connected with the cross rod 2 of the support, the upper end of the suspender 4 is provided with a bending part, the bending part is rotatably connected in the sleeve, and the sleeve is welded on the cross rod. The suspender 4 can swing around the upper end of the suspender 4 along the material conveying direction; the magnetic part 5 is arranged at the lower end of the suspender 4, and the magnetic part 5 is suspended above the material of the conveyer belt 7 and used for adsorbing iron-containing impurities in the material. The magnetic member 5 includes a plurality of magnet blocks. The magnet blocks are mutually attracted and connected together through the magnetic force of the magnet blocks.

The magnetic part 5 is suspended above the material to adsorb residual iron-containing impurities, and the magnetic part 5 is connected with the lower end of the suspender 4 and can also swing along the material conveying direction. When the material impacts on the magnetism removing part 5, the magnetism removing part 5 swings, and the material is conveyed to the downstream randomly, so that equipment failure is avoided. The magnet blocks are attracted together by utilizing the magnetic force of the magnet blocks to form a whole body, and provide larger magnetic force.

The distance between the magnetic part 5 and the material is 50-100 mm. At this distance, the iron-containing impurities in the material can be effectively removed, and the material is not easy to impact the magnetic member 5.

Through the setting of vertical pole slot hole 11 for the level height of horizontal pole 2 is adjustable, and then makes the distance of magnetic part 5 and material adjustable.

As shown in fig. 4, the iron removing device is installed downstream of the iron remover 8 of the glass production line. The arrow direction indicates the conveyor belt transport direction. The iron removal device is used for adsorbing a small amount of iron-containing impurities, when the iron removal device is used for production, most of the iron-containing impurities are adsorbed by the heavy ton electromagnet and the heavy ton permanent magnet, and the residual trace amount of iron-containing impurities are adsorbed by the iron removal device, so that the iron removal device is more suitable for production and use of the ultra-white glass with higher requirement on iron content.

Example 2

The difference between the embodiment and the embodiment 1 is that, as shown in fig. 2, the cross rod hole is a cross rod elongated hole 21 in the horizontal direction, and the cross rod hole is set to be the cross rod elongated hole 21, so that the width of the iron removing device is adjustable, and the iron removing device is suitable for material conveying lines with different widths.

The iron removing device further comprises a limiting device 6, wherein the limiting device 6 is installed on the hanging rod 4, and the limiting device 6 is used for enabling one of the magnetic poles of the magnetic part 5 to face towards the material. The magnetic pole position magnetic force line of magnet is intensive, and the magnetic pole is great, and is better to the absorption of iron-containing impurity.

The suspender 4 is U-shaped, the magnetic part 5 is arranged on the bottom edge of the U-shaped, and the upper end of the U-shaped is connected to the bracket. The jib 4 sets up to the U type, connects on the horizontal pole 2 of support through two extreme points of U type, and jib 4 has two swing arms simultaneously, avoids jib 4 to follow the swing of the direction outside the direction of delivery, and the swing direction of whole device is more stable.

Example 3

This embodiment is different from embodiment 1 or embodiment 2 in that a spacer is provided between the magnet blocks, and the spacer is made of a non-ferromagnetic material. The non-ferromagnetic material may be wear resistant plastic.

The spacing blocks made of non-ferromagnetic materials are arranged between the adjacent magnets, so that mutual influence between every two adjacent magnets is avoided, and overlarge local magnetic force is also avoided, so that the whole magnetic force field is more uniformly distributed. The magnets are uniformly distributed along the direction perpendicular to the material conveying direction.

Example 4

The present embodiment is different from one of embodiments 1 to 3 in that the magnetic member in the present embodiment is composed of a plurality of magnetic rods 51. Specifically, a plurality of magnetic rods 51 are arranged on a bottom plate 53, both ends of the magnetic rods 51 are fixed by a cover plate 52, and the magnetic rods 51 are fixed on the bottom plate 53. The boom 4 is connected to the base plate 53 by a bearing welded to the base plate 53. Fig. 3 is a schematic top view of the magnetic member according to this embodiment.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. A material iron removing device of an ultra-white glass production line is characterized by comprising a bracket, a suspender and a magnetic part;

the bracket is used for being arranged beside a material conveying belt of a glass production line;

the upper end of the suspender is movably connected with the bracket, and the suspender can swing around the upper end of the suspender along the material conveying direction;

the magnetic part is installed at the lower end of the hanging rod and suspended above the material layer for adsorbing iron-containing impurities in the material layer.

2. The material iron removal device of the ultra-white glass production line of claim 1, wherein the support comprises a vertical rod, a cross rod and a locking screw;

the vertical rods are arranged at opposite positions on two sides of the material conveying belt, and vertical rod elongated holes are formed in the upper ends of the vertical rods in the vertical direction;

two ends of the cross rod are respectively provided with a cross rod hole;

and the locking screw penetrates through the transverse rod opening and the vertical rod elongated hole to lock the relative positions of the transverse rod and the vertical rod.

3. The material iron removal device of the ultra-white glass production line of claim 2, wherein the cross bar hole is a cross bar elongated hole along the horizontal direction.

4. The material iron removal device for the ultra-white glass production line according to claim 1, further comprising a limiting device, wherein the limiting device is mounted on the hanger rod, and the limiting device is used for controlling the orientation of the magnetic pole of the magnetic member.

5. The material iron removal device for the ultra-white glass production line according to claim 1, wherein the hanger rod comprises a U-shaped rod, the magnetic member is mounted on the bottom edge of the U-shaped structure, and the upper end of the U-shaped structure is movably connected to the support.

6. The material iron removal device for the ultra-white glass production line according to claim 1, wherein the magnetic member comprises a plurality of magnet blocks, and the magnet blocks are spliced together.

7. The material iron removal device for ultra-white glass production lines as claimed in claim 6, wherein a spacer block is arranged between adjacent magnet blocks, and the spacer block is made of non-ferromagnetic material.

8. The material iron removal device of the ultra-white glass production line of claim 7, wherein the magnets are arranged in a uniform linear pattern, the linear pattern is parallel to the material plane, and the linear pattern is perpendicular to the material conveying direction.

9. The material iron removal device of the ultra-white glass production line of claim 1, wherein the distance between the magnetic member and the material on the conveyor belt is 50-100 mm.

10. A material iron removal system for an ultra-white glass production line is characterized by comprising a glass production line iron remover and the iron removal device of any one of claims 1 to 9; the iron removing device is arranged at the downstream of the iron remover of the glass production line.

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