CN211847692U - Combined floating ring in glass aggregate pool - Google Patents

Abstract

The utility model discloses a combined floating ring in a glass aggregate pool, which comprises two semicircular combined floating rings and two blocking bricks with right angles and cambered surfaces; wherein: the combined floating ring is provided with a symmetrical outer convex edge, the matching surface of each outer convex edge is provided with a floating ring convex-concave buckle, and the side end surface of one outer convex edge is provided with a floating ring step; the right-angled position of the triangular baffle brick is provided with a mounting hole, and the triangular baffle brick is provided with a baffle brick limiting step platform which is assembled with the floating ring step platform at the matching end between the outer convex edges of the combined floating ring; the combined floating ring and the triangular blocking bricks are combined and installed to limit displacement in three directions of XYZ. Therefore, this is novel through adopting reasonable combination quartzy floating collar of project organization, through quartzy floating collar, be triangle-shaped and keep off arc terminal surface, ladder platform on the brick, controlled the rotation and the displacement of the three direction of XYZ of combination floating collar in the pond that gathers materials. Therefore, the problem of inaccurate positioning of the floating ring, easy generation of bubbles and impurities on the quality of the formed glass in the prior art is solved.

Description

Combined floating ring in glass aggregate pool

Technical Field

The utility model belongs to the glass product industry and relates to a glass collecting tank, in particular to a combined quartz floating ring in the glass collecting tank.

Background

In the glass hot melting molding industry, when the material ball is used for reeling glass liquid from a glass aggregate pool, the material ball rotates to take the material, so that the glass liquid level fluctuates. Therefore, a floating ring is required to be added around the material taking position in the glass aggregate pool to prevent the fluctuation of the glass liquid level. Because the material taking port of the collecting tank is limited to be small in size, the material taking port needs to be divided into a plurality of parts to be assembled in the collecting tank, the temperature in the collecting tank is 1200 ℃, and the floating ring installation process is required to be rapid and accurate. What adopt in the tradition is combination refractory soil floating collar, including the floating collar and the bar fender brick of components of a whole that can function independently, do not have spacing and fit clearance between floating collar and the combination of bar fender brick moreover. In addition, the limitation of the material taking port can not ensure the rapidness and the accuracy during the installation and the replacement. Therefore, due to the fluctuation of the glass liquid level, the floating ring and the blocking brick are acted to move in multiple directions to rub and the material falls off, a large amount of bubbles and impurities are easily generated, and the taken-out glass material is also provided with bubbles and stones. Thus, the formed product contains bubbles and stones, and the qualification rate of the product is seriously influenced. In addition, because the liquid level outside the floating ring in the glass aggregate pond cannot be effectively covered, the heat loss is large, and the formed glass product is easy to generate stripe defects.

Disclosure of Invention

In view of the above-mentioned current situation, the utility model provides a combination floating collar in glass aggregate pond has effectively solved the defect that the glass feed liquid in the glass aggregate pond produced bubble, calculus, has guaranteed glassware's quality, has prolonged the change time of combination floating collar, has improved life.

The technical solution of the utility model is that: a combined floating ring in a glass aggregate pool comprises two semicircular floating rings and two triangular blocking bricks with right angles and cambered surfaces; wherein:

two sides of the two semicircular floating rings are provided with symmetrical outer convex edges, the matching surface of each outer convex edge is provided with a convex-concave buckle of the floating ring, and the lateral end surface of each outer convex edge is provided with a step of the floating ring;

the right-angled position of the triangular blocking brick is provided with a mounting hole, and the triangular blocking brick is provided with a triangular blocking brick limiting step platform which is assembled with the floating ring step platform at the matching end between the outer convex edges of the floating ring.

The two semicircular floating rings and the triangular blocking bricks are assembled and installed to limit displacement in three directions of XYZ.

In the above, the floating ring and the triangular blocking brick are formed by using quartz materials.

The utility model has the advantages that: through the reasonable combination floating ring of project organization, utilize bar triangle to keep off the right angle, arc end and mounting hole of brick, can hang and lean on realizing accurate location and coincide on glass collecting tank inner wall, realized effective cover. In addition, the limit in three directions of XYZ is realized through the quartz floating ring, the upper arc-shaped end surface of the triangular blocking brick and the step table, the mutual displacement is avoided, the rotation and the displacement of the quartz floating ring in the collecting tank are controlled, and most of the liquid level outside the floating ring is covered. Not only effectively solves the positioning problem of the floating ring, but also avoids the generation of bubbles and impurities and the defects of stripes and the like of the formed glass caused by heat loss. Meanwhile, the heat preservation effect of the material liquid in the collecting tank is obviously improved, 4 heating wires are reduced compared with the traditional method using 16 heating wires, and the energy is saved by 25%.

Drawings

FIG. 1 is a schematic view of the present invention;

FIG. 2 is a left side view of FIG. 1;

FIG. 3 is a schematic view of the float ring of FIG. 1;

fig. 4 is a schematic view of the triangular shaped retaining block of fig. 1.

Detailed Description

The present invention will be further explained with reference to the embodiments of the drawings.

The combined floating ring in the aggregate pond shown in figures 1 to 4 comprises two semicircular combined floating rings 3 and two triangular blocking bricks 1 with right angles and cambered surfaces. The combined floating ring 3 of the embodiment is provided with a symmetrical outer convex edge 4, a floating ring convex-concave buckle 5 is arranged on the matching surface of each outer convex edge 4, and a floating ring step 7 is arranged on the lateral end surface of the outer convex edge 4. Two separated triangular blocking bricks 1 are arranged on one floating ring 3 and are in contact fit with the floating ring 3 through the arc-shaped surface on the blocking bricks. A gap A is reserved between the two end faces of the triangular blocking brick 1 in a matched mode, the two side ends of the triangular blocking brick 1 are parallel to the outer convex edge 4 of the combined floating ring 3, and a blocking brick limiting step 6 is also arranged at one end of the triangular blocking brick 1, so that the blocking brick limiting step 6 is in contact and matched with a floating ring step 7 on the combined floating ring 3 to form the same plane for limiting. Displacement of the combined float 3 in three XYZ directions is controlled. The mounting holes 2 of the triangular blocking bricks 1 are used for facilitating the hooks to hang and the glass aggregate to be sent into the pool from the mouth of the glass aggregate pool. The right-angle part of the triangular blocking brick 1 is used for limiting the contact with the pool wall; and the arc-shaped surface of the triangular blocking brick 1 is used for limiting the floating ring. The function of the brick retaining limiting step 6 of the triangular brick retaining 1 is to prevent the up-and-down displacement of the matching end surfaces of the outer convex edges 4 of the two floating rings 3. The two combined floating rings 3 are locked with each other by the convex-concave buckles 5 on the outer convex edges 4, and the displacement of the two combined floating rings with each other is prevented. The floating ring step platforms 7 on the lateral end faces of the two combined floating ring outer convex edges 4 are used for preventing the combined floating rings from displacing each other through the installation and the matching of the two combined floating ring step platforms 7 and the blocking brick limiting step platforms 6 on the triangular blocking bricks 1. In this embodiment, the triangular retainer ring 1 and the floating ring 4 are formed by using quartz materials.

The specific installation mode is as follows: because the material taking port of collecting tank is smaller, so hook earlier with the hook and be the mounting hole 2 on the triangle-shaped keeps off brick 1 during the installation, with two be triangle-shaped and keep off brick 1 parallel and put into the glass collecting tank in, utilize two right angle parts that are triangle-shaped and keep off brick 1 to press close to glass collecting tank inner wall and fix a position and prevent lateral shifting, leave one gap A with two intermediate portions that are after the laminating of triangle-shaped fender brick 1, then put into combination floating collar 3 in proper order in the cambered surface that is triangle-shaped and keep off brick 1. The displacement of the combined floating ring 3 is limited by the convex-concave buckles 5 of the floating rings on the two combined floating rings 3 after being matched with each other, the horizontal movement of the floating ring 4 is limited by the arc-shaped end surface of the triangular blocking brick 1, and the up-and-down floating of the floating ring 4 is limited by the step platform 6 of the triangular blocking brick 1. Therefore, the designed combined floating ring 3 avoids the problems that the glass liquid level in the combined floating ring 3 fluctuates, and the formed glass product contains bubbles and stones due to the multi-directional movement friction and material falling between the combined floating ring 3 and the triangular blocking brick 1, and a large amount of bubbles and impurities are generated.

Claims (2)

1. A combined floating ring in a collecting pool is characterized by comprising two semicircular combined floating rings and two blocking bricks with right angles and cambered surfaces; wherein:

the combined floating ring is provided with a symmetrical outer convex edge, the matching surface of each outer convex edge is provided with a floating ring convex-concave buckle, and the side end surface of one outer convex edge is provided with a floating ring step;

the right-angled position of the triangular baffle brick is provided with a mounting hole, and the triangular baffle brick is provided with a baffle brick limiting step platform which is assembled with the floating ring step platform at the matching end between the outer convex edges of the floating ring;

the combined floating ring and the triangular blocking bricks are combined and installed to limit displacement in three directions of XYZ.

2. The combined floating ring in the aggregate pond according to claim 1, wherein the triangular baffle bricks of the combined floating ring are made of quartz materials.

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