CN207047087U - Glass furnace water conservancy diversion adjusts fused cast refractories - Google Patents

Abstract

Glass furnace water conservancy diversion adjusts fused cast refractories, including pedestal fused cast refractories, on pedestal fused cast refractories import department is sequentially provided with along melt flow direction, buffer part and export department, import department offers inlet channel, inlet channel is in left large and right small horn-like, buffer part offers dashpot, the cross section of dashpot is square, the right-hand member width of inlet channel is less than the left end width of dashpot, the bottom surface of dashpot is less than the bottom surface of inlet channel and forms closed pockets, export department offers long straight trough, the width of long straight trough is less than the right-hand member width of import department, inlet channel, dashpot and long straight trough are sequentially communicated along melt flow direction, the right-hand member of long straight trough is connected with downwards arc guiding gutter on the right side of pedestal fused cast refractories, the top end face of import department and the top end face of buffer part are located at same level height.The utility model can carry out water conservancy diversion to glass metal, improve the Forming Quality of glass.

Description

Glass furnace water conservancy diversion adjusts fused cast refractories

Technical field

It the utility model is related to a kind of refractory brick, more particularly to a kind of glass furnace water conservancy diversion regulation fused cast refractories.

Background technology

Glass furnace is exactly the equipment of fusion cast glass, and in glass production, the glass metal melted enters chute by runner, Flow into molten tin bath shaping.Runner is typically formed by laying fireproof bricks, and fused cast refractories refer to be poured after batch high temperature melting with fusion method Cast the refractory brick of definite shape.Glass metal by runner before molten tin bath is flowed into, if without water conservancy diversion, the shaping matter of glass Amount can not just be protected, and existing water conservancy diversion brick does not adjust the structure of water conservancy diversion amount.Therefore, the utility model provides a kind of Glass furnace water conservancy diversion adjusts fused cast refractories, can carry out water conservancy diversion to glass metal, improve the Forming Quality of glass.

Utility model content

The utility model is in order to solve weak point of the prior art, there is provided a kind of glass furnace water conservancy diversion adjusts electric smelting Brick, water conservancy diversion can be carried out to glass metal, and with flow structure is adjusted, the Forming Quality of glass can be improved.

In order to solve the above technical problems, the utility model adopts the following technical scheme that：Glass furnace water conservancy diversion adjusts fused cast refractories, bag Pedestal fused cast refractories are included, import department, buffer part and export department, import are sequentially provided with along melt flow direction on pedestal fused cast refractories Portion offers inlet channel, and inlet channel is in left large and right small horn-like, and buffer part offers dashpot, and the cross section of dashpot is in side Shape, the right-hand member width of inlet channel are less than the left end width of dashpot, and the bottom surface of dashpot is less than the bottom surface of inlet channel and forms envelope Groove is closed, export department offers long straight trough, and the width of long straight trough is less than the right-hand member width of import department, inlet channel, dashpot and length Straight trough is sequentially communicated along melt flow direction, and the right-hand member of long straight trough is connected with downwards arc on the right side of pedestal fused cast refractories Guiding gutter.

The top end face of the import department and the top end face of buffer part are provided with flashboard mounting seat, the top end face of flashboard mounting seat Higher than the top end face of export department.

The width of the left part of export department's leading flank and trailing flank is more than the width of right part.

Using above-mentioned technical proposal, after the utility model is arranged in glass metal runner, glass metal enters from horn-like Mouth groove flows into, and is gradually reduced with the width of inlet channel, the flow of glass metal enters row buffering also so as to diminish at dashpot Afterwards, flow into the long straight trough of export department, the glass metal after inlet channel, dashpot and long straight trough water conservancy diversion connects along long straight trough right-hand member The arc guiding gutter outflow connect, can complete the water conservancy diversion to the glass metal after fusing.Flashboard can be installed in flashboard mounting seat, it is necessary to will Glass metal stops completely, and when preventing it from flowing out, the closed pockets bottom surface that flashboard is down to buffering trench bottom can be by glass metal Block completely, prevent glass metal from flowing to outlet slot.The arc guiding gutter that the utility model is set, it is convenient to be flowed out from outlet slot Glass metal along arc guiding gutter flow out, glass metal cross flow can be avoided.Export department of the present utility model is in loudspeaker left large and right small Shape, compared to tetragonal body, a part of material is pruned, neither influence to use, can also reduce material, reduce cost.

The utility model novel in structural design, glass metal can be subjected to water conservancy diversion, prevent glass metal sideslip in molten tin bath, improved The Forming Quality of glass, glass metal can also be blocked when running into fortuitous event by the way that closed pockets and flashboard are used cooperatively, Prevent it from flowing to outlet slot, also can be by the way that dashpot and flashboard be used cooperatively, by the aperture regulation glass for controlling flashboard The flow of liquid.

Brief description of the drawings

Fig. 1 is structural representation of the present utility model；

Fig. 2 is the position view of arc guiding gutter in the utility model.

Embodiment

As depicted in figs. 1 and 2, the left-hand using Fig. 1 left side as the following content, using Fig. 1 right side to be following described The dextrad of content, glass furnace water conservancy diversion of the present utility model adjusts fused cast refractories, including pedestal fused cast refractories, along glass on pedestal fused cast refractories Glass liquid flow direction is sequentially provided with import department, buffer part and export department 5, and import department offers inlet channel 1, and inlet channel 1 is in left big Right small horn-like, buffer part offers dashpot 2, and the cross section of dashpot 2 is square, and the right-hand member width of inlet channel 1 is less than The left end width of dashpot 2, the bottom surface of dashpot 2 are less than the bottom surface of inlet channel 1 and form closed pockets 3, set in dashpot 2 The flashboard for adjusting glass metal uninterrupted can be moved up and down, when needing to stop glass metal completely, when preventing it from flowing out, Flashboard is down into the bottom surface of closed pockets 3 glass metal entered from import department can be blocked completely, export department 5 offers long straight trough 4, the width of long straight trough 4 is less than the right-hand member width of import department, and inlet channel 1, dashpot 2 and long straight trough 4 are along melt flow direction It is sequentially communicated, the right-hand member of long straight trough 4 is connected with downwards arc guiding gutter 7 on the right side of pedestal fused cast refractories, convenient from outlet The glass metal flowed out in portion 5 flows out along arc guiding gutter 7, avoids glass metal cross flow.

The top end face of the import department and the top end face of buffer part are provided with flashboard mounting seat 6, the top of flashboard mounting seat 6 Face is higher than the top end face of export department 5.

The width of the left part of the leading flank of export department 5 and trailing flank is more than the width of right part.Material can so be reduced Material, reduces cost.

In use, the utility model is arranged in glass metal runner, glass metal flows into from horn-like inlet channel 1, As the width of inlet channel 1 is gradually reduced, the flow of glass metal after entering row buffering at dashpot 2, flows into out also so as to diminish In the long straight trough 4 of oral area 5, the glass metal after inlet channel 1, dashpot 2 and the long water conservancy diversion of straight trough 4 connects along the long right-hand member of straight trough 4 Arc guiding gutter 7 flow out, arc guiding gutter 7 can avoid glass metal cross flow.

Flashboard can be installed in flashboard mounting seat 6, it is necessary to which glass metal is stopped completely, when preventing it from flowing out, flashboard is dropped Glass metal can be blocked completely to the bottom surface of closed pockets 3 of the bottom of dashpot 2, prevent it from flowing to outlet slot；Need to adjust During the flow of glass metal, by the way that dashpot 2 and flashboard are used cooperatively, by controlling the aperture of flashboard to can adjust glass metal Flow.

The present embodiment not makees any formal limitation, every foundation to shape of the present utility model, material, structure etc. Any simple modification, equivalent change and modification that the technical essence of the utility model is made to above example, belongs to this reality With the protection domain of new technique scheme.

Claims (3)

1. glass furnace water conservancy diversion adjusts fused cast refractories, it is characterised in that：Including pedestal fused cast refractories, along glass liquid stream on pedestal fused cast refractories Dynamic direction is sequentially provided with import department, buffer part and export department, and import department offers inlet channel, and inlet channel is in loudspeaker left large and right small Shape, buffer part offer dashpot, and the cross section of dashpot is square, and the right-hand member width of inlet channel is wide less than the left end of dashpot Degree, the bottom surface of dashpot are less than the bottom surface of inlet channel and form closed pockets, and export department offers long straight trough, the width of long straight trough Less than the right-hand member width of import department, inlet channel, dashpot and long straight trough are sequentially communicated along melt flow direction, the right side of long straight trough End is connected with downwards arc guiding gutter on the right side of pedestal fused cast refractories.

2. glass furnace water conservancy diversion according to claim 1 adjusts fused cast refractories, it is characterised in that：The top end face of the import department and The top end face of buffer part is provided with flashboard mounting seat, and the top end face of flashboard mounting seat is higher than the top end face of export department.

3. glass furnace water conservancy diversion according to claim 1 adjusts fused cast refractories, it is characterised in that：Export department's leading flank is with after The width of the left part of side is more than the width of right part.