CN205575914U - Processing inorganic non -metallic material's equipment - Google Patents

Abstract

The utility model discloses a processing inorganic non -metallic material's equipment, this equipment includes: first stack and the first stack gone up is arranged each other parallelly and is used simultaneously in rolling into malactic inorganic non -metallic material with molten state inorganic non -metallic material, stack on second stack and the second is arranged each other parallelly, strutting arrangement, the setting is between first upper and lower stack and the upper and lower stack of second, be used for supporting malactic inorganic non -metallic material and guide it to the upper and lower stack of second from first upper and lower stack, wherein, stack and second stack are constructed as and to be followed opposite direction rotation on the second, make malactic inorganic non -metallic material through among them clearance, when they are rotatory along opposite direction, clearance on the second between stack and the second stack has maximum value and minimum, the minimum in this clearance can make on the second the malactic inorganic non -metallic material disconnection between stack and the second stack.

Description

The equipment of processing Inorganic Non-metallic Materials

Technical field

This utility model relates to field of inorganic nonmetallic material, particularly to a kind of equipment processing Inorganic Non-metallic Materials.

Background technology

The moulding process of Inorganic Non-metallic Materials includes such as moulding by casting, plastic forming, compressing, spraying process molding, winding method molding, wet-process moulding, laminating molding, sheet extrusion molding, textile technology method molding, granulating and forming, blow molding, calendering formation, drawing molding, the various moulding processs of float glass process molding.Such as, the moulding process of the melted Inorganic Non-metallic Materials of such as vitreous humour includes pressing, blowing method, casting, rolling process, drawing and float glass process etc..

Generally, by molten state Inorganic Non-metallic Materials by pouring into a mould, suppress, roll, draw, the forming method such as float glass process obtains hot softener material, after this material is cooled down or after Overheating Treatment cools down then, this material of cold conditions (such as, room temperature state) is cut into the size of regulation.

Such as, a kind of traditional technology for making glass includes: by raw material pulverizing, weighs and mixes to obtain batch, by batch melting, clarification and homogenization to obtain vitreous humour, by vitreous humour float glass process molding, anneals and cuts, to obtain goods.

Such as, Chinese patent is announced CN102531339A and is disclosed a kind of progressive forming method of devitrified glass and the progressive forming equipment of devitrified glass, and the method includes: melt step, is melted by frit and obtains melten glass；Forming step, is that banding obtains band-like plate glass by melten glass calendaring molding；Crystallization step, makes band-like plate glass be held in nucleus and forms the temperature that carries out with crystalline growth, make nucleus be formed, crystallize simultaneously and turn to banding microcrystal glass plate, afterwards, Slow cooling banding microcrystal glass plate and obtain banding microcrystal glass plate；And cut-out step, cut off banding microcrystal glass plate.

Such as, Chinese patent is announced CN103553557A and is disclosed continuous casting calendering technology method and the equipment thereof of the production cast stone of a kind of blast furnace cinder, and the method includes: blast furnace cinder is transferred in the quenched stirring pool of composition, adds modification agent and coloring agent, stirs；Slag enters a cooling area just one-step forming by cinder notch and obtains green shell, subsequently into reducing temperature twice district roller-way；Reducing temperature twice district ensures that the green shell of just one-step forming enters the cooling final molding carrying out next step in couveuse roller-way smoothly；Cooling down in couveuse, spraying enamel material carries out surface coloring treatment, and cooling obtains shaped article；Shaped article carries out sizing cutting process, and carries out surface sanding and polishing and obtain finished product cast stone.

At above-mentioned traditional technology for making glass, Chinese patent announces CN102531339A and Chinese patent is announced in CN103553557A, is all the size that the intermediate products of cold conditions cut into regulation.

Cut in type cold conditions Inorganic Non-metallic Materials in the prior art and do not cut the reason of hot softening Inorganic Non-metallic Materials and be, there is not suitable equipment and the Inorganic Non-metallic Materials of hot softening is cut into small size.Specifically, the core of the Inorganic Non-metallic Materials of hot softening can be generally of molten condition, and when using existing cutting knife to cut this material, the core of molten condition can flow out so that the goods after cutting unsuccessfully or cutting do not have qualified size or shape.In the case of the forming method using such as calendering or float glass process makes molten state material molding, the discharging speed of calender or molten tin bath can be reduced, so that the Inorganic Non-metallic Materials of molding temperature when marching to cutting knife is reduced to be suitable for below the temperature of the regulation of cutting knife cutting；But, the discharging speed of reduction is unfavorable for continuous prodution.Therefore, in the prior art, in order to ensure continuous prodution, it has to cut in type cold conditions Inorganic Non-metallic Materials, and do not cut hot softening Inorganic Non-metallic Materials.This cause for large-sized hot intermediate products are carried and/or the size of equipment (such as, roller kilns) of heat treatment and construction cost huge.Such as, the Equipment for Heating Processing for glass, devitrified glass or crystallite stone material is generally of the length of tens meters the most about 700 meters.

Utility model content

A purpose of the present utility model is to provide a kind of equipment processing Inorganic Non-metallic Materials.

Another object of the present utility model is to provide the equipment of the processing Inorganic Non-metallic Materials of a kind of at least one technical problem that can solve the problem that in above-mentioned technical problem.

Another purpose of the present utility model is the equipment of the processing Inorganic Non-metallic Materials providing a kind of Inorganic Non-metallic Materials that can make softening easily to disconnect.

A further object of the present utility model is to provide the equipment of a kind of processing Inorganic Non-metallic Materials that ensure that continuous prodution.

A further object of the present utility model is to provide a kind of Inorganic Non-metallic Materials that can make softening easily to disconnect and ensures the equipment processing Inorganic Non-metallic Materials of continuous prodution.

Equipment according to processing Inorganic Non-metallic Materials of the present utility model includes: stack on first；With first on the first bottom calender roll of arranging abreast of stack, wherein, on first, stack and the first bottom calender roll for being rolled into the Inorganic Non-metallic Materials of softening by molten state Inorganic Non-metallic Materials；Second bottom calender roll；With the second bottom calender roll arrange abreast second on stack；nullAnd support means，It is arranged on first on stack and the first bottom calender roll and second between stack and the second bottom calender roll，For supporting the Inorganic Non-metallic Materials of softening and the Inorganic Non-metallic Materials softened stack and first bottom calender roll from first being guided to second stack and the second bottom calender roll，Wherein，On second, stack and the second bottom calender roll are configured to rotate in opposite direction，Make the Inorganic Non-metallic Materials softened gap on second between stack and the second bottom calender roll，When on second, stack and the second bottom calender roll rotate in opposite direction，On second, the gap between stack and the second bottom calender roll has maximum and minima，On second, the minima in gap between stack and the second bottom calender roll enables to be in the Inorganic Non-metallic Materials of the softening on second between stack and the second bottom calender roll and disconnects.

According to one side of the present utility model, the dummy line that the center of stack on first and the center of the first bottom calender roll connect is had the angle relative to+2 ° to+10 ° of vertical direction.

According to one side of the present utility model, on second, the maximum in gap between stack and the second bottom calender roll is identical with the thickness of the main body of the Inorganic Non-metallic Materials of the softening of disconnection.

According to one side of the present utility model, on second, the minima in gap between stack and the second bottom calender roll is zero, or more than zero and less than 4mm so that the Inorganic Non-metallic Materials in the gap between stack and the second bottom calender roll can be made on second naturally to disconnect.

According to one side of the present utility model, the second bottom calender roll has the main body of cylinder, and on second, stack includes cylindrical main body and the jut outwardly of the main body from its cylinder.

According to one side of the present utility model, jut has circle, arc, oval or polygonal profile.

According to one side of the present utility model, described jut is multiple jut.

According to one side of the present utility model, on first, on stack, the first bottom calender roll, the second bottom calender roll and second, at least one in stack includes the cooling-part being disposed therein.

According to one side of the present utility model, on second the jut of stack from the ratio of the prominent height of main body and the external diameter of main body in the range of 0.01-0.5.

According to one side of the present utility model, on first, the center in gap between stack and the first bottom calender roll is higher than the center in gap between stack on the second bottom calender roll and second.

According to one side of the present utility model, the dummy line being connected at the center in the gap between the center in stack on first and the gap between the first bottom calender roll with stack on the second bottom calender roll and second tilts the angle of+5 ° to+12 ° relative to horizontal direction.

According to one side of the present utility model, the dummy line being connected with the center in gap between the main body of stack on the second bottom calender roll and second at the center in stack on first and the gap between the first bottom calender roll tilts the angle of+5 ° to+12 ° relative to horizontal direction.

According to one side of the present utility model, on first in stack and the first bottom calender roll on each external diameter and the second bottom calender roll and second ratio of each external diameter in the main body of stack in the range of 1.1-3.

According to one side of the present utility model, on first on gap and second between stack and the first bottom calender roll ratio between the maximum in gap between stack and the second bottom calender roll in the range of 1.05-10.

According to one side of the present utility model, the second bottom calender roll has the main body of cylinder, and on second, stack is off roller.

According to one side of the present utility model, on the second bottom calender roll and second, stack is respectively provided with the main body of cylinder, and described equipment also includes being connected on second stack for making the lowering or hoisting gear that on second, stack lifts relative to the second bottom calender roll.

According to one side of the present utility model, support means is supporting plate water tank or the roller unit including multiple roller.

According to one side of the present utility model, described equipment also includes being arranged on the transporter for the Inorganic Non-metallic Materials transmitting the gap passed through on second between stack and the second bottom calender roll of the downstream of stack and the second bottom calender roll on second.

Equipment and the method performed by this equipment according to processing Inorganic Non-metallic Materials of the present utility model can successfully make the Inorganic Non-metallic Materials of softening disconnect.

In addition, equipment and the method performed by this equipment according to processing Inorganic Non-metallic Materials of the present utility model can successfully make the Inorganic Non-metallic Materials of hot softening disconnect, cut-out is performed afterwards without the Inorganic Non-metallic Materials making thermal state forming is sufficiently cool, thereby it is ensured that continuous prodution.

Accompanying drawing explanation

Fig. 1 is the schematic cross sectional views of the equipment of the processing Inorganic Non-metallic Materials according to one exemplary embodiment of this utility model.

Detailed description of the invention

The equipment of processing Inorganic Non-metallic Materials according to this utility model exemplary embodiment be will be described in detail herein below now.

The term " Inorganic Non-metallic Materials " used in this specification can represent various Inorganic Non-metallic Materials, and is not specifically limited, such as, and glass, devitrified glass, pottery, stone material, cement, refractory material, carbon materials, porous material, etc..The term " softening Inorganic Non-metallic Materials " used in this specification or " Inorganic Non-metallic Materials of softening " can represent have the shell of solid-state but soft generally so that the Inorganic Non-metallic Materials of further machining, and it can include the Inorganic Non-metallic Materials of hot softness.nullSuch as，" softening Inorganic Non-metallic Materials " or " Inorganic Non-metallic Materials of softening " can include that temperature is at 450 DEG C、500℃、550℃、600℃、650℃、700℃、750℃、800℃、850℃、900℃、950℃、1000℃、1050℃、1100℃、1150℃、1200℃、1250℃、1300℃、1350℃、1400℃、1450℃、1500℃、1550℃、1600℃、1650 DEG C or 1700 DEG C，Or any scope of these numerical definitenesses (such as 500 DEG C-1600 DEG C、550℃-1500℃、600℃-1400℃、650℃-1300℃、700℃-1250℃、750℃-1200℃、800℃-1150℃、850℃-1100℃、900 DEG C-1050 DEG C or 950 DEG C-1000 DEG C) in the Inorganic Non-metallic Materials of hot softening.

Fig. 1 is the schematic cross sectional views of the equipment of the processing Inorganic Non-metallic Materials according to one exemplary embodiment of this utility model.With reference to Fig. 1, include according to the equipment 100 of the processing Inorganic Non-metallic Materials of one exemplary embodiment of this utility model: stack 120 on first；With first on the first bottom calender roll 110 of arranging abreast of stack 120, wherein, on first, stack 120 and the first bottom calender roll 110 for being rolled into the Inorganic Non-metallic Materials 10 of softening by molten state Inorganic Non-metallic Materials 9；Second bottom calender roll 130；With the second bottom calender roll 130 arrange abreast second on stack 140；And support means 160, it is arranged on first on stack 120 and the first bottom calender roll 110 and second between stack 140 and the second bottom calender roll 130, for supporting the Inorganic Non-metallic Materials 10 of softening and the Inorganic Non-metallic Materials of softening stack 120 and first bottom calender roll 110 from first being guided to second stack 140 and the second bottom calender roll 130, wherein, on second, stack 140 and the second bottom calender roll 130 are configured to rotate in opposite direction, make the Inorganic Non-metallic Materials 10 softened clearance G on second between stack 140 and the second bottom calender roll 130.When on second, stack 140 and the second bottom calender roll 130 rotate in opposite direction, on second, the clearance G between stack 140 and the second bottom calender roll 130 has maximum and minima.On second, the minima of clearance G between stack 140 and the second bottom calender roll 130 enables to be in the Inorganic Non-metallic Materials 10 of the softening on second between stack 140 and the second bottom calender roll 130 and disconnects.

On first, stack 120 and the first bottom calender roll 110 rotate in opposite direction." on first, stack 120 and the first bottom calender roll 110 rotate in opposite direction " described here can represent that in the schematic cross sectional views of Fig. 1 on first, the direction of rotation of stack 120 is contrary with the direction of rotation of the first bottom calender roll 110, so that molten state Inorganic Non-metallic Materials 9 can successfully gap between stack 120 and the first bottom calender roll 110 on first.During on first, stack 120 and the first bottom calender roll 110 rotate in opposite direction, on first, stack 120 can be parallel or identical with the tangential direction of the most hithermost two parts of the first bottom calender roll 110.

X-direction shown in Fig. 1 and Z-direction can be horizontal directions perpendicular to one another in horizontal plane, i.e. X-direction limits horizontal plane together with Z-direction.Y-direction shown in Fig. 1 can be vertical direction, i.e. Y-direction is perpendicular to the horizontal plane that X-direction limits together with Z-direction.

On first, stack 120 extends along the Z direction, i.e. on first, stack 120 has and is parallel to the axial of Z-direction.On first, stack 120 can have the cross section of circle and rectangular longitudinal section.It is to say, along stack 120 axial on first, on first, stack 120 has identical or essentially identical cross section and uniform external diameter.In other words, stack 120 can have the main body of cylinder on first.

First bottom calender roll 110 extends along the Z direction, i.e. the first bottom calender roll 110 has and is parallel to the axial of Z-direction.First bottom calender roll 110 can have the cross section of circle and rectangular longitudinal section.It is to say, axial along the first bottom calender roll 110, the first bottom calender roll 110 has identical or essentially identical cross section and uniform external diameter.In other words, the first bottom calender roll 110 can have the main body of cylinder.

On first, stack 120 and the first bottom calender roll 110 arrange have gap separatedly so that molten state Inorganic Non-metallic Materials 9 gap between stack 120 and the first bottom calender roll 110 cool down the Inorganic Non-metallic Materials 10 being shaped to soften on first.On the thickness and first of the Inorganic Non-metallic Materials 10 softened, the gap between stack 120 and the first bottom calender roll 110 is corresponding, such as, equal or of substantially equal.On first, the gap between stack 120 and the first bottom calender roll 110 can be in the range of 6mm to 220mm, 7mm to 190mm, 8mm to 160mm, 9mm to 130mm, 10mm to 110mm, 11mm to 90mm, 12mm to 70mm, 13mm to 60mm, 14mm to 50mm, 14.5mm to 40mm, 15mm to 35mm or 15.5mm to 30mm.

Molten state Inorganic Non-metallic Materials 9 can have any suitable temperature, such as higher than 500 DEG C, 550 DEG C, 600 DEG C, 650 DEG C, 700 DEG C, 750 DEG C, 800 DEG C, 850 DEG C, 900 DEG C, 950 DEG C, 1000 DEG C, 1050 DEG C, 1100 DEG C, 1150 DEG C, 1200 DEG C, 1250 DEG C, 1300 DEG C, 1350 DEG C, 1400 DEG C, 1450 DEG C, 1500 DEG C, 1550 DEG C, 1600 DEG C, 1650 DEG C, 1700 DEG C, 1750 DEG C, 1800 DEG C, 1850 DEG C, 1900 DEG C or the temperature of 1950 DEG C.nullThe Inorganic Non-metallic Materials 10 softened can have 450 DEG C、500℃、550℃、600℃、650℃、700℃、750℃、800℃、850℃、900℃、950℃、1000 ℃、1050℃、1100℃、1150℃、1200℃、1250℃、1300℃、1350℃、1400℃、1450℃、1500℃、1550℃、1600℃、1650 DEG C or 1700 DEG C，Or any scope of these numerical definitenesses (such as 500 DEG C-1600 DEG C、550℃-1500℃、600℃-1400℃、650℃-1300℃、700℃-1250℃、750℃-1200℃、800℃-1150℃、850℃-1100℃、900 DEG C-1050 DEG C or 950 DEG C-1000 DEG C) in temperature.

On first, stack 120 can include the cooling-part 121 being disposed therein, such as cooling water pipeline.First bottom calender roll 110 can include the cooling-part 111 being disposed therein, such as cooling water pipeline.As shown in fig. 1, cooling-part 121 and 111 is separately positioned on stack 120 and the center of the first bottom calender roll 110 on first, but this utility model is not limited to this.Such as, on first bottom calender roll and first, the cooling-part in stack may be provided at any suitable position, such as, multiple cooling-parts outer surface of stack along the first bottom calender roll and first is successively set on the position of the outer surface of stack on the first bottom calender roll and first on the first bottom calender roll and first in stack, to have the cooling effectiveness of raising.

On first, the size of stack 120 and the first bottom calender roll 110 is not particularly limited.nullOn first, each external diameter in stack 120 and the first bottom calender roll 110 can be 20mm、30mm、40mm、50mm、60mm、70mm、80mm、90mm、100mm、110mm、120mm、130mm、140mm、150mm、160mm、170mm、180mm、190mm、200mm、210mm、240mm、270mm、300mm、330mm、350mm、400mm，Or any scope (the such as 20mm-400mm at these numerical definitenesses、30mm-350mm、40mm-330mm、50mm-300mm、60mm-270mm、70mm-240mm、80mm-210mm、90mm-200mm、100mm-190mm、110mm-180mm、120mm-170mm、130mm-160mm、In 140mm-150mm).On first, stack 120 and the first bottom calender roll 110 can have essentially identical external diameter.But, this utility model is not limited to this.On first, stack 120 and the first bottom calender roll 110 can have different external diameters.Specifically, the external diameter of stack 120 can be more than the external diameter of the first bottom calender roll 110 on first；Or selectively, the external diameter of the first bottom calender roll 110 can be more than the external diameter of stack 120 on first.

The dummy line that the center of stack on first 120 and the center of the first bottom calender roll 110 connect can be had+2 ° to+10 ° ,+3 ° to+9 ° ,+4 ° to+8 ° ,+5 ° to+7 ° or the angle of+5.5 ° to+6.5 ° relative to Y-direction (that is, vertical direction).Symbol here "+" (just) can represent that the dummy line by the center of stack on first 120 and the center of the first bottom calender roll 110 connect offsets in the clockwise direction relative to Y-direction.This angle makes to be easy on than first that stack 120 and the first bottom calender roll 110 are arranged relatively lowly on second that stack 140 and the second bottom calender roll 130 transmit the Inorganic Non-metallic Materials 10 softened.

On first, stack 120 and the first bottom calender roll 110 can be made up of any suitable material, such as, be made up of metal or pottery.Preferably, stack 120 and the first bottom calender roll 110 can be made up of heat-resisting metal or pottery on first.

The equipment 100 of the processing Inorganic Non-metallic Materials according to one exemplary embodiment of this utility model may also include supplies the fluid groove 150 of molten state Inorganic Non-metallic Materials 9 for stack 120 and the first bottom calender roll 110 on first.

Second bottom calender roll 130 extends along the Z direction, i.e. the second bottom calender roll 130 is parallel to the axial of Z-direction.Second bottom calender roll 130 can have the cross section of circle and rectangular longitudinal section.It is to say, axial along the second bottom calender roll 130, the second bottom calender roll 130 has identical or essentially identical cross section and uniform external diameter.In other words, the second bottom calender roll 130 can have the main body of cylinder.

On second, stack 140 is arranged abreast with the second bottom calender roll 130 above the second bottom calender roll 130.Therefore, stack 140 extends also along Z-direction on second, i.e. on second, stack 140 has and is parallel to the axial of Z-direction.On second, stack 140 is axial, and on second, stack 140 has identical or essentially identical cross section.On second, stack 140 can have rectangular longitudinal section.On second, stack 140 includes the main body 141 of cylinder and from cylindrical main body 141 jut 142 outwardly.

Jut 142 can have the profile of normal distribution curve shape.But, the shape of jut 142 is not limited to this.Jut 142 can also have such as circle, semicircle, arc, ellipse, sinusoidal, parabola shaped or polygonal any suitable profile.Described polygon can include triangle, tetragon, pentagon, hexagon, heptagon, octagon etc..Preferably, there is smooth transition part between main body 141 and jut 142.Preferably, jut 142 has the profile of gradual (such as, non-pointed), such that it is able to disconnect the Inorganic Non-metallic Materials 10 of softening swimmingly.

On second, the clearance G between stack 140 and the second bottom calender roll 130 can represent the beeline between the outer surface of stack 140 on second and the outer surface of the second bottom calender roll 130.On second, clearance G between stack 140 and the second bottom calender roll 130 can be identical or essentially identical with the thickness softening Inorganic Non-metallic Materials being on second between stack 140 and the second bottom calender roll 130.Because stack 140 includes the main body 141 of cylinder and from cylindrical main body 141 jut 142 outwardly on second, so along with on second stack 140 and the second bottom calender roll 130 rotate in opposite direction, on second, the clearance G between stack 140 and the second bottom calender roll 130 has maximum and minima.The maximum of clearance G can be the beeline when jut 142 does not contact and softens Inorganic Non-metallic Materials 10 between outer surface and the outer surface of the second bottom calender roll 130 of main body 141.The minima of clearance G can be the distance between the top of the jut 142 when jut 142 is near the second bottom calender roll 130 and the outer surface of the second bottom calender roll 130.

The maximum of clearance G can with to be broken (such as, pass through the clearance G between stack 140 and the second bottom calender roll 130 on second, but do not disconnect) or the thickness of main body (such as, plate-shaped main body) softening Inorganic Non-metallic Materials that disconnected identical or essentially identical.But, this utility model is not limited to this.The maximum of clearance G can be more than the thickness of softening Inorganic Non-metallic Materials 10, also greater than the thickness of the main body softening Inorganic Non-metallic Materials 11 or 12 disconnected so that on second, the main body of stack 140 does not contact softening Inorganic Non-metallic Materials 10.Preferably, the maximum of clearance G is less than the thickness softening Inorganic Non-metallic Materials 10 so that softens Inorganic Non-metallic Materials 10 and is thinned in clearance G between stack 140 and the second bottom calender roll 130 on second.

When on second, stack 140 rotates and makes jut 142 near the second bottom calender roll 130, the outermost end of jut 142 can contact with the outer surface of the second bottom calender roll 130.It is to say, the minima of clearance G between stack 140 can be zero on the second bottom calender roll 130 and second.But, this utility model is not limited to this.But the minima of the clearance G on the second bottom calender roll 130 and second between stack 140 can sufficiently small be not zero so that clearance G between stack 140 there is the Inorganic Non-metallic Materials of little thickness naturally disconnect on the second bottom calender roll 130 and second.

Such as, on the second bottom calender roll 130 and second, the maximum of clearance G between stack 140 can be in the range of 5mm to 200mm, 6mm to 170mm, 7mm to 140mm, 8mm to 110mm, 9mm to 80mm, 10mm to 60mm, 11mm to 50mm, 12mm to 45mm, 13mm to 40mm, 14mm to 35mm, 15mm to 30mm or 16mm to 25mm.On second bottom calender roll 130 and second minima of clearance G between stack 140 can less than 4mm, less than 3mm, less than 2mm, less than 1mm, less than 0.7mm, less than 0.4mm, less than 0.2mm or less than 0.1mm in the range of.

On second bottom calender roll 130 and second, the main body 141 of stack 140 can have essentially identical external diameter.But, it is not limited to this according to the equipment 100 of the processing Inorganic Non-metallic Materials of this utility model exemplary embodiment.On second bottom calender roll 130 and second, the main body 141 of stack 140 can have different external diameters.Specifically, the external diameter of the second bottom calender roll 130 can be more than the external diameter of the main body 141 of stack 140 on second；Or selectively, the external diameter of the main body 141 of stack 140 can be more than the external diameter of the second bottom calender roll 130 on second.nullOn second bottom calender roll 130 and second, each external diameter in the main body 141 of stack 140 can be 20mm、30mm、40mm、50mm、60mm、70mm、80mm、90mm、100mm、110mm、120mm、130mm、140mm、150mm、160mm、170mm、180mm、190mm、200mm、210mm、240mm、270mm、300mm、330mm、350mm、400mm，Or any scope (the such as 20mm-400mm at these numerical definitenesses、30mm-350mm、40mm-330mm、50mm-300mm、60mm-270mm、70mm-240mm、80mm-210mm、90mm-200mm、100mm-190mm、110mm-180mm、120mm-170mm、130mm-160mm、In 140mm-150mm).On second, the jut 142 of stack 140 can be in the range of 0.01-0.5,0.02-0.4,0.03-0.3,0.04-0.2,0.05-0.1 from the ratio of the prominent height of main body 141 with the external diameter of main body 141.

With reference to Fig. 1, on the center and second of the second bottom calender roll 130, the dummy line at the center of the main body 141 of stack 140 extends along the Y direction, i.e., on second, stack 140 is arranged on the surface on gravity direction of the second bottom calender roll 130, or on second, stack 140 and the second bottom calender roll 130 are relative to each other vertically provided.But, it is not limited to this according to the equipment 100 of the processing Inorganic Non-metallic Materials of this utility model exemplary embodiment.Specifically, on the second bottom calender roll 130 and second, stack 140 can be arranged obliquely relative to vertical direction；Or selectively, on the second bottom calender roll 130 and second, stack 140 can the most flatly be arranged or arrange obliquely relative to horizontal direction.

On first, the center in gap between stack 120 and the first bottom calender roll 110 is higher than the center of clearance G between stack 140 on the second bottom calender roll 130 and second so that softens Inorganic Non-metallic Materials 10 and can be based at least partially on the clearance G that gravity gap from first between stack 120 and the first bottom calender roll 110 successfully marches on the second bottom calender roll 130 and second between stack 140.

The dummy line being connected with the center in gap between the main body 141 of stack 140 on the second bottom calender roll 130 and second at the center in the gap between stack on first 120 and the first bottom calender roll 110 can tilt+5 ° to+12 ° ,+6 ° to+11 ° ,+7 ° to+10 ° or the angle of+8 ° to+9 ° relative to X-direction (that is, horizontal direction).Symbol here "+" (just) can represent that the dummy line by the center in the gap between stack on first 120 and the first bottom calender roll 110 is connected with the center in gap between the main body 141 of stack 140 on the second bottom calender roll 130 and second offsets in the clockwise direction relative to X-direction.This angle makes on second stack 140 and the second bottom calender roll 130 transmit downwards the Inorganic Non-metallic Materials 10 softened obliquely so that softens Inorganic Non-metallic Materials 10 and can be based at least partially on the clearance G that gravity gap from first between stack 120 and the first bottom calender roll 110 successfully marches on second between stack 140 and the second bottom calender roll 130.If this angle is more than 12 °, the angle then softening Inorganic Non-metallic Materials 10 inclination is the biggest, the support force that softening Inorganic Non-metallic Materials 10 is supported by support means 160 is not enough and drops or ruptures, the flatness that maybe may make softening Inorganic Non-metallic Materials 10 is deteriorated, or the gait of march softening Inorganic Non-metallic Materials 10 makes cooling deficiency too soon；If this angle is less than 5 °, then soften the possible deficiency of power that Inorganic Non-metallic Materials 10 is advanced forward.

On first, in stack 120 and the first bottom calender roll 110, on each external diameter and the second bottom calender roll 130 and second, proportionate relationship between each external diameter in the main body 141 of stack 140 is not particularly limited.In the exemplary embodiment, in stack 120 and the first bottom calender roll 110, on each external diameter and the second bottom calender roll 130 and second, the ratio of each external diameter in the main body 141 of stack 140 can be in the range of 1.1-3,1.2-2.5,1.3-2 or 1.4-1.7 on first.In the exemplary embodiment, on first, stack 120 and the first bottom calender roll 110 have essentially identical external diameter, on second bottom calender roll 130 and second, the main body 141 of stack 140 has an essentially identical external diameter, and on first, in stack 120 and the first bottom calender roll 110, on each external diameter and the second bottom calender roll 130 and second, the ratio of each external diameter in the main body 141 of stack 140 can be in the range of 1.1-3,1.2-2.5,1.3-2 or 1.4-1.7.

Preferably, the second bottom calender roll 130 can include the cooling-part 131 being disposed therein.Cooling-part 131 can be cooling water pipeline.Preferably, stack 140 can include the cooling-part 143 being disposed therein on second.Cooling-part 143 can be cooling water pipeline.Therefore, Inorganic Non-metallic Materials 10 is softened cooled while clearance G between stack 140 on the second bottom calender roll 130 and second.As shown in fig. 1, cooling-part 131 and 143 is separately positioned on the center of stack 140 on the second bottom calender roll 130 and second, but this utility model is not limited to this.Such as, on second bottom calender roll and second, the cooling-part in stack may be provided at any suitable position, such as, multiple cooling-parts outer surface of stack along the second bottom calender roll and second is successively set on the position of the outer surface of stack on the second bottom calender roll and second on the second bottom calender roll and second in stack, to have the cooling effectiveness of raising.

On second bottom calender roll 130 and second, stack 140 can be made up of any suitable material, such as, be made up of metal or pottery.Preferably, on the second bottom calender roll 130 and second, stack 140 can be made up of heat-resisting metal or pottery.

Between center and the center in gap between the main body 141 of stack 140 on the second bottom calender roll 130 and second in gap between stack 120 and the first bottom calender roll 110 on first, distance in the X direction is not particularly limited.nullThis distance can be 100mm、120mm、140mm、160mm、180mm、200mm、210mm、220mm、230mm、240mm、250mm、260mm、270mm、280mm、 300mm、320mm、340mm、360mm、380mm、400mm、420mm、440mm、450mm、500mm、550mm、600mm、700mm、800mm、1000mm、1200mm、1400mm、1600mm、1800mm、2000mm，Or these numerical definitenesses any scope (such as，100mm-2000mm、120mm-1800mm、140mm-1600mm、160mm-1400mm、180mm-1200mm、200mm-1000mm、210mm-800mm、220mm-700mm、230mm-600mm、240mm-550mm、250mm-500mm、In 260mm-450mm).

On first, on gap and second between stack 120 and the first bottom calender roll 110, proportionate relationship between the maximum of clearance G between stack 140 and the second bottom calender roll 130 is unrestricted.On first gap between stack 120 and the first bottom calender roll 110 can greater than, equal to or less than second on the maximum of clearance G between stack 140 and the second bottom calender roll 130.Preferably, on first gap between stack 120 and the first bottom calender roll 110 more than second on the maximum of clearance G between stack 140 and the second bottom calender roll 130 so that soften Inorganic Non-metallic Materials 10 and be thinned the thickness into main body less than the Inorganic Non-metallic Materials 11 of the thickness softening Inorganic Non-metallic Materials 10 in clearance G between stack 140 and the second bottom calender roll 130 on second.Such as, on first on gap and second between stack 120 and the first bottom calender roll 110 ratio between the maximum of clearance G between stack 140 and the second bottom calender roll 130 in the range of 1.05-10,1.1-9,1.15-8,1.2-7,1.25-6,1.3-5,1.35-4,1.4-3,1.45-2.5,1.5-2.3.

Although be described above on first in stack 120 and the first bottom calender roll 110 each its respective axially on there is identical or essentially identical cross section (i.e., its respective axially on there is homogeneous or regular shape), such as, on first, each in stack 120 and the first bottom calender roll 110 can be cylindrical roller, but this utility model is not limited to this.On first at least one in stack 120 and the first bottom calender roll 110 can its respective axially on there is the shape of (such as, heterogeneity or irregular) of change.Such as, at least one in stack 120 and the first bottom calender roll 110 can be the profiled roller of axially top external diameter change on first.Such as, the first bottom calender roll 110 is cylindrical roller, and on first, stack 120 is the profiled roller of axially top external diameter change.Such as, on first, stack 120 is cylindrical roller, and the first bottom calender roll 110 is the profiled roller of axially top external diameter change.

Although be described above on second in stack 140 and the second bottom calender roll 130 each its respective axially on there is identical or essentially identical cross section (i.e., its respective axially on there is homogeneous or regular shape), but this utility model is not limited to this.It is to say, on second at least one in stack 140 and the second bottom calender roll 130 can its respective axially on there is the shape of (such as, heterogeneity or irregular) of change.Such as, at least one in stack 140 and the second bottom calender roll 130 can be the profiled roller of axially top external diameter change on second.Such as, the second bottom calender roll 130 is cylindrical roller, and on second, stack 140 is the profiled roller of axially top external diameter change.

Support means 160 is arranged on first on stack 120 and the first bottom calender roll 110 and second between stack 140 and the second bottom calender roll 130, for supporting the Inorganic Non-metallic Materials 10 of softening and the Inorganic Non-metallic Materials of softening stack 120 and first bottom calender roll 110 from first being guided on second stack 140 and the second bottom calender roll 130.Support means 160 can be supporting plate water tank or the roller unit including multiple roller.Roller unit can equipped with or be not charged with cooling-part.

As mentioned above, the dummy line being connected with the center in gap between the main body 141 of stack 140 on the second bottom calender roll 130 and second at the center in the gap between stack on first 120 and the first bottom calender roll 110 can tilt+5 ° to+12 ° ,+6 ° to+11 ° ,+7 ° to+10 ° or the angle of+8 ° to+9 ° relative to X-direction (that is, horizontal direction).Support means 160 can have upper surface corresponding with this angle, downward-sloping so that softens Inorganic Non-metallic Materials 10 and can be based at least partially on the clearance G that gravity gap from first between stack 120 and the first bottom calender roll 110 successfully marches on second between stack 140 and the second bottom calender roll 130.

The equipment 100 of the processing Inorganic Non-metallic Materials according to one exemplary embodiment of this utility model may also include the transporter 170 of the Inorganic Non-metallic Materials 11 and 12 for transmitting the clearance G passed through on second between stack 140 and the second bottom calender roll 130.Transporter 170 can include the multiple rollers that can rotate.Transporter 170 may also include the cooling-part (not shown) being disposed therein, such as, cooling water pipeline.

The method describing processing Inorganic Non-metallic Materials now with reference to Fig. 1.

With reference to Fig. 1, using as the molten state Inorganic Non-metallic Materials 9 of raw material gap between stack 120 and the first bottom calender roll 110 from fluid groove 150 is supplied to first；On first rotated in opposite direction, stack 120 and the first bottom calender roll 110 extrude, cool down and tractive molten state Inorganic Non-metallic Materials 9, to obtain the Inorganic Non-metallic Materials 10 softened, and the Inorganic Non-metallic Materials 10 softened to support means 160 conveying；Support means 160 supports the Inorganic Non-metallic Materials 10 softened, and Inorganic Non-metallic Materials 10 is guided on second the clearance G between stack 140 and the second bottom calender roll 130 by support means 160 under the effect of stack 120 and the thrust of the first bottom calender roll 110 and himself gravity on first, preferably, the cooling-part in support means 160 cools down Inorganic Non-metallic Materials 10 simultaneously；The Inorganic Non-metallic Materials 10 that on second rotated in opposite direction, stack 140 and the extruding of the second bottom calender roll 130 soften, and the Inorganic Non-metallic Materials 10 that tractive softens so that the Inorganic Non-metallic Materials 10 of softening clearance G between stack 140 and the second bottom calender roll 130 on second.Main body 141 contact of stack 140 softens on second Inorganic Non-metallic Materials 10 and second on the jut 142 of stack 140 away from the Inorganic Non-metallic Materials 10 softened time, the Inorganic Non-metallic Materials 10 of softening is formed as, while clearance G between stack 140 and the second bottom calender roll 130 on second, the Inorganic Non-metallic Materials 11 that thickness is of substantially equal with clearance G.When stack 140 rotates and makes jut 142 near the second bottom calender roll 130 on second, soften Inorganic Non-metallic Materials 10 and disconnect with the Inorganic Non-metallic Materials 11 after molding or separate.Use identical technique, before Inorganic Non-metallic Materials 11, form the Inorganic Non-metallic Materials 12 shown in Fig. 1.Transporter 170 can transmit the Inorganic Non-metallic Materials 12 and 11 of disconnection.

During because stack 140 rotates on second, on second the jut 142 of stack 140 can substantially from all tilt relative to horizontal direction and vertical direction oblique (such as, with second on the substantially uniform direction of the direction of rotation of stack 140) Inorganic Non-metallic Materials 10 that softens of upper extruding, make the part of stack 140 in the contact second of Inorganic Non-metallic Materials 10 the most thinning, rather than the Inorganic Non-metallic Materials 10 that in the vertical direction cutting softens as the sharp-pointed cutting knife of prior art, so compared with the cutting knife of prior art, the Inorganic Non-metallic Materials 10 of softening can be disconnected swimmingly.Even if the Inorganic Non-metallic Materials 10 softened has the core of molten state, it is also possible to the core of molten state is enclosed in Inorganic Non-metallic Materials 11 internal without spilling.

In addition, the cooling-part 143 and/or 131 that can include in stack 140 and/or the second bottom calender roll 130 on second promotes to soften the cooling of Inorganic Non-metallic Materials 10 (such as, make to soften Inorganic Non-metallic Materials 10 to harden with certain speed cooling), therefore, the solid rate softening Inorganic Non-metallic Materials 10 including molten state core increases, this smooth disconnection being also beneficial to soften Inorganic Non-metallic Materials.

The Inorganic Non-metallic Materials 12 and the Inorganic Non-metallic Materials 11 that disconnect can have identical length.Each length of Inorganic Non-metallic Materials 12 and Inorganic Non-metallic Materials 11 can with second on the girth of main body 141 of stack 140 of substantially equal.Shape and/or the size of stack 140 on second can be designed according to the desired size of the Inorganic Non-metallic Materials after disconnecting.

Therefore, the Inorganic Non-metallic Materials of softening can be successfully made to disconnect according to the equipment 100 processing Inorganic Non-metallic Materials of this utility model exemplary embodiment and the method performed by equipment 100.Inorganic Non-metallic Materials that can will be switched off, undersized takes off from transporter 170, so that it is performed post processing, such as machining or heat treatment.Such as, Inorganic Non-metallic Materials that can will be switched off, undersized layering loading Equipment for Heating Processing carries out heat treatment, this Equipment for Heating Processing can have the multi-layer framework for accommodating and support multilamellar Inorganic Non-metallic Materials, thus with existing Equipment for Heating Processing (such as, roller kilns) compare, it is greatly reduced floor space and construction cost.

In addition, equipment 100 and the method performed by equipment 100 of the processing Inorganic Non-metallic Materials according to this utility model exemplary embodiment can successfully make the Inorganic Non-metallic Materials of hot softening disconnect, cut-out is performed afterwards without the Inorganic Non-metallic Materials making thermal state forming is sufficiently cool, thereby it is ensured that continuous prodution.

Although in the equipment 100 of the processing Inorganic Non-metallic Materials according to one exemplary embodiment of this utility model, on second, stack 140 only includes a jut 142, but this utility model is not limited to this.On in the equipment of the processing Inorganic Non-metallic Materials according to this utility model another exemplary embodiment second, stack can include the main body of cylinder and from cylindrical main body multiple juts outwardly.Multiple juts can be identical or different.Each jut can be essentially identical or similar to jut 142 described above, the most here repeats no more.Multiple juts can uniformly or non-uniformly be distributed in main body.The adjacent distance between jut can determine according to the desired size of the Inorganic Non-metallic Materials after disconnecting.The shape being similar to gear can be had including stack on the second of multiple juts.

In the equipment of the processing Inorganic Non-metallic Materials according to this utility model another exemplary embodiment, on second, stack 140 is replaced by eccentric roller.I.e., with aforesaid equipment 100, the equipment of the processing Inorganic Non-metallic Materials according to this another exemplary embodiment differs primarily in that this equipment includes the second bottom calender roll 130 and the eccentric roller (not shown) arranged abreast with the second bottom calender roll 130, second bottom calender roll 130 and eccentric roller can rotate in opposite direction so that the Inorganic Non-metallic Materials of softening gap between the second bottom calender roll 130 and eccentric roller.When the second bottom calender roll 130 and eccentric roller rotate in opposite direction, the clearance G between the second bottom calender roll 130 and eccentric roller has maximum and minima.The softening Inorganic Non-metallic Materials that the minima of the clearance G between the second bottom calender roll 130 and eccentric roller is between the second bottom calender roll 130 and eccentric roller disconnects.

In the equipment of the processing Inorganic Non-metallic Materials according to this utility model further example embodiment, on second, stack is only to include that main body does not include the cylindrical roller of jut.In this exemplary embodiment, the equipment of processing Inorganic Non-metallic Materials also includes being connected on second stack for making the lowering or hoisting gear of stack lifting on second.Lowering or hoisting gear can be any suitable lowering or hoisting gear, such as, and cylinder or the lowering or hoisting gear being made up of ball-screw and motor.On second bottom calender roll 130 and second, stack is arranged abreast, and can rotate in opposite direction so that the Inorganic Non-metallic Materials of softening gap between stack on the second bottom calender roll 130 and second.When on the second bottom calender roll 130 and second, stack rotates in opposite direction, clearance G between stack on second bottom calender roll 130 and second because on second the lifting (such as, regular lifting) of stack and there is maximum and minima.The softening Inorganic Non-metallic Materials that on second bottom calender roll 130 and second, the minima of clearance G between stack is on the second bottom calender roll 130 and second between stack disconnects.

Equipment and the method performed by this equipment of the processing Inorganic Non-metallic Materials according to this utility model exemplary embodiment can successfully make the Inorganic Non-metallic Materials of softening disconnect.

In addition, equipment and the method performed by this equipment of the processing Inorganic Non-metallic Materials according to this utility model exemplary embodiment can successfully make the Inorganic Non-metallic Materials of hot softening disconnect, cut-out is performed afterwards without the Inorganic Non-metallic Materials making thermal state forming is sufficiently cool, thereby it is ensured that continuous prodution.

Although describing the equipment processing Inorganic Non-metallic Materials according to this utility model exemplary embodiment and the method performed by this equipment above with reference to accompanying drawing, but this utility model being not limited to this.It is understood to one skilled in the art that in the case of without departing from spirit and scope of the present utility model, it can be made the various changes in form and in details.

Claims (18)

1. the equipment processing Inorganic Non-metallic Materials, it is characterised in that described equipment includes:

Stack on first；

With first on the first bottom calender roll of arranging abreast of stack, wherein, on first, stack and the first bottom calender roll for being rolled into the Inorganic Non-metallic Materials of softening by molten state Inorganic Non-metallic Materials；

Second bottom calender roll；

With the second bottom calender roll arrange abreast second on stack；And

Support means, it is arranged on first on stack and the first bottom calender roll and second between stack and the second bottom calender roll, for supporting the Inorganic Non-metallic Materials of softening and the Inorganic Non-metallic Materials softened stack and first bottom calender roll from first being guided to second stack and the second bottom calender roll

Wherein, stack and the second bottom calender roll are configured to rotate in opposite direction on second so that the Inorganic Non-metallic Materials of softening gap between stack and the second bottom calender roll on second,

When on second, stack and the second bottom calender roll rotate in opposite direction, on second, the gap between stack and the second bottom calender roll has maximum and minima,

On second, the minima in gap between stack and the second bottom calender roll enables to be in the Inorganic Non-metallic Materials of the softening on second between stack and the second bottom calender roll and disconnects.

The equipment of processing Inorganic Non-metallic Materials the most according to claim 1, it is characterised in that the dummy line that the center of the center of stack on first and the first bottom calender roll connects is had the angle relative to+2 ° to+10 ° of vertical direction.

The equipment of processing Inorganic Non-metallic Materials the most according to claim 1, it is characterised in that on second, the maximum in gap between stack and the second bottom calender roll is identical with the thickness of the main body of the Inorganic Non-metallic Materials of the softening of disconnection.

The equipment of processing Inorganic Non-metallic Materials the most according to claim 1, it is characterized in that, on second, the minima in gap between stack and the second bottom calender roll is zero, or more than zero and less than 4mm so that the Inorganic Non-metallic Materials in the gap between stack and the second bottom calender roll can be made on second naturally to disconnect.

The equipment of processing Inorganic Non-metallic Materials the most according to claim 1, it is characterised in that the second bottom calender roll has the main body of cylinder, on second, stack includes cylindrical main body and the jut outwardly of the main body from its cylinder.

The equipment of processing Inorganic Non-metallic Materials the most according to claim 5, it is characterised in that jut has circle, arc, oval or polygonal profile.

The equipment of processing Inorganic Non-metallic Materials the most according to claim 5, it is characterised in that described jut is multiple jut.

The equipment of processing Inorganic Non-metallic Materials the most according to claim 1, it is characterised in that on first, on stack, the first bottom calender roll, the second bottom calender roll and second, at least one in stack includes the cooling-part being disposed therein.

The equipment of processing Inorganic Non-metallic Materials the most according to claim 5, it is characterised in that on second the jut of stack from the ratio of the prominent height of main body and the external diameter of main body in the range of 0.01-0.5.

The equipment of processing Inorganic Non-metallic Materials the most according to claim 1, it is characterised in that on first, the center in gap between stack and the first bottom calender roll is higher than the center in gap between stack on the second bottom calender roll and second.

The equipment of 11. processing Inorganic Non-metallic Materials according to claim 10, it is characterized in that, the dummy line being connected at the center in the gap between the center in stack on first and the gap between the first bottom calender roll with stack on the second bottom calender roll and second tilts the angle of+5 ° to+12 ° relative to horizontal direction.

The equipment of 12. processing Inorganic Non-metallic Materials according to claim 5, it is characterized in that, the dummy line being connected with the center in gap between the main body of stack on the second bottom calender roll and second at the center in stack on first and the gap between the first bottom calender roll tilts the angle of+5 ° to+12 ° relative to horizontal direction.

13. the equipment of processing Inorganic Non-metallic Materials according to claim 5, it is characterized in that, on first in stack and the first bottom calender roll on each external diameter and the second bottom calender roll and second ratio of each external diameter in the main body of stack in the range of 1.1-3.

The equipment of 14. processing Inorganic Non-metallic Materials according to claim 1, it is characterized in that, on first on gap and second between stack and the first bottom calender roll ratio between the maximum in gap between stack and the second bottom calender roll in the range of 1.05-10.

The equipment of 15. processing Inorganic Non-metallic Materials according to claim 1, it is characterised in that the second bottom calender roll has the main body of cylinder, and on second, stack is off roller.

The equipment of 16. processing Inorganic Non-metallic Materials according to claim 1, it is characterized in that, on second bottom calender roll and second, stack is respectively provided with the main body of cylinder, and described equipment also includes being connected on second stack for making the lowering or hoisting gear that on second, stack lifts relative to the second bottom calender roll.

The equipment of 17. processing Inorganic Non-metallic Materials according to claim 1, it is characterised in that support means is supporting plate water tank or the roller unit including multiple roller.

The equipment of 18. processing Inorganic Non-metallic Materials according to claim 1, it is characterized in that, described equipment also includes being arranged on the transporter for the Inorganic Non-metallic Materials transmitting the gap passed through on second between stack and the second bottom calender roll of the downstream of stack and the second bottom calender roll on second.