CN205989406U - Make the equipment of Inorganic Non-metallic Materials molding - Google Patents

Abstract

Disclose a kind of equipment making Inorganic Non-metallic Materials molding.This equipment includes：First roller；Second roller, is abreast arranged with the first roller；First roller and the second roller limit the shape space consistent with the shape of cross section of the Inorganic Non-metallic Materials product of molding, and wherein, the Inorganic Non-metallic Materials product of molding includes matrix and at least one protuberance being formed on matrix or recess.This equipment can reduce manufacturing cost, simplify manufacturing process and/or shorten the process time.

Description

Make the equipment of Inorganic Non-metallic Materials molding

Technical field

This utility model is related to field of inorganic nonmetallic material, makes setting of Inorganic Non-metallic Materials molding particularly to a kind of Standby.

Background technology

The moulding process of Inorganic Non-metallic Materials may include such as moulding by casting, plastic forming, spraying process molding, winding method Molding, wet-process moulding, laminating molding, sheet extrusion molding, textile technology method molding, granulating and forming, blow molding, drawing Molding, the various moulding processs of float glass process molding.The former of existing Inorganic Non-metallic Materials or method can have and be manufactured into The problem of this height, complex process and/or process time length.

The understanding of the background to utility model only for enhancing of the above- mentioned information disclosed in this background parts, therefore, it Can comprise not constituting the information of known for the person of ordinary skill of the art prior art.

Utility model content

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

Another object of the present utility model is to provide one kind can reduce manufacturing cost, simplify manufacturing process and/or contracting The equipment making Inorganic Non-metallic Materials molding of short processes time.

A further object of the present utility model be to provide a kind of be advantageously implemented continuous prodution make inorganic non-metallic material The equipment of material molding.

Included according to the equipment making Inorganic Non-metallic Materials molding of the present utility model：First roller；Second roller, with the first roller Abreast arrange；It is consistent with the shape of cross section of the Inorganic Non-metallic Materials product of molding that first roller and the second roller limit shape Space, wherein, the Inorganic Non-metallic Materials product of molding includes matrix and at least one protuberance or recessed being formed on matrix Portion.

The height of at least one protuberance described or recess or depth can be 0.2-30 times of the thickness of matrix.

At least one protuberance described or recess include multiple protuberances and recess, the height of highest protuberance and recess the deepest The height of one of depth and minimum protuberance and the ratio of one of the depth of recess the most shallow can be 1.5-100's In the range of.

The part the thickest of the Inorganic Non-metallic Materials product of molding can be 2-150's with the ratio of the thickness of part the thinnest In the range of.

First roller can include the first roller body, the both sides being separately positioned on the first roller body and have a diameter larger than first First alar part of the diameter of roller body and the second alar part, the second roller can include the second roller body, first faced by the second roller body Roller body and separating with the first roller body, the two ends of the second roller body contact the first alar part and the second alar part respectively, and first The outer surface of roller body can limit the first surface of the Inorganic Non-metallic Materials product of molding, and the outer surface of the second roller body can To limit the second surface relative with first surface of the Inorganic Non-metallic Materials product of molding, the first alar part can limit molding Inorganic Non-metallic Materials product the 3rd surface that first surface is connected to second surface, the second alar part can limit molding Inorganic Non-metallic Materials product the 4th surface that first surface is connected to second surface, the 3rd surface and the 4th surface phase Right, the first surface of Inorganic Non-metallic Materials product can include at least one protuberance described or recess.

At least one of first roller and the second roller can include the cooling end being disposed therein, and cooling end is through first The described inner passage of at least one in roller and the second roller.

First roller or the second roller can have axially and radially, and the thickness of Inorganic Non-metallic Materials product can be in the axial direction Change, the radial dimension of the part corresponding with Inorganic Non-metallic Materials product of cooling end can axially with inorganic non-metallic The consistency of thickness ground change of material product.

Included according to the equipment making Inorganic Non-metallic Materials molding of the present utility model：Roller；Plate, with described roller abreast cloth Put；Described roller limits the shape space consistent with the shape of cross section of the Inorganic Non-metallic Materials product of molding with described plate, Wherein, the Inorganic Non-metallic Materials product of molding includes matrix and at least one protuberance being formed on matrix or recess.

The height of at least one protuberance described or recess or depth can be 0.2-30 times of the thickness of matrix.

At least one protuberance described or recess can include multiple protuberances and recess, the height of highest protuberance and the deepest The ratio of one of the height of one of depth of recess and minimum protuberance and the depth of recess the most shallow can be in 1.5- In the range of 100.

The part the thickest of the Inorganic Non-metallic Materials product of molding can be 2-150's with the ratio of the thickness of part the thinnest In the range of.

Described roller can include roller body, be separately positioned on the both sides of roller body and have a diameter larger than the diameter of roller body The first alar part and the second alar part, described plate can have in the face of roller body and the central part that separates with roller body and point Do not contact the first alar part and the both ends of the second alar part, the outer surface of roller body can limit the Inorganic Non-metallic Materials product of molding The first surface of product, the surface of the central part of described plate can limit the Inorganic Non-metallic Materials product of molding and first surface Relative second surface, what the first alar part can limit the Inorganic Non-metallic Materials product of molding is connected to second by first surface 3rd surface on surface, what the second alar part can limit the Inorganic Non-metallic Materials product of molding is connected to second by first surface 4th surface on surface, the 3rd surface is relative with the 4th surface, and the first surface of Inorganic Non-metallic Materials product can include institute State at least one protuberance or recess.

At least one of described roller and described plate can include the cooling end being disposed therein, and cooling end can be through The described inner passage of at least one in described roller and described plate.

Described roller or described plate can have axially and radially, and the thickness of Inorganic Non-metallic Materials product can be in the axial direction Change, the radial dimension of the part corresponding with Inorganic Non-metallic Materials product of cooling end can axially with inorganic non-metallic The consistency of thickness ground change of material product.

Included using the method that the said equipment makes Inorganic Non-metallic Materials molding：Inorganic Non-metallic Materials or softening will be melted Inorganic Non-metallic Materials are fed to described space；First roller and the second roller rotate in opposite direction, thus will melt inorganic non- Metal material or soften Inorganic Non-metallic Materials and be rolled into the Inorganic Non-metallic Materials product of molding.

Included using the method that the said equipment makes Inorganic Non-metallic Materials molding：Inorganic Non-metallic Materials or softening will be melted Inorganic Non-metallic Materials are fed to described space；Described roller rotation, thus will melt Inorganic Non-metallic Materials together with described plate Or soften the Inorganic Non-metallic Materials product that Inorganic Non-metallic Materials are rolled into molding.

Contribute to simplifying manufacturing process according to the equipment making Inorganic Non-metallic Materials molding of the present utility model, reduce and manufacture Cost, and/or shorten the process time.Additionally, being produced according to the equipment making Inorganic Non-metallic Materials molding of the present utility model Raw amount of waste can greatly reduce, and simplify manufacturing process, reduce manufacturing cost, and/or shorten the process time.This Outward, continuous prodution is advantageously implemented according to the equipment making Inorganic Non-metallic Materials molding of the present utility model.

Brief description

Fig. 1 is a kind of perspective view of abnormal shape Inorganic Non-metallic Materials product.

Fig. 2 is the sectional view that the special-shaped Inorganic Non-metallic Materials product shown in Fig. 1 intercepts along line I-I '.

Fig. 3 is the signal of the equipment making Inorganic Non-metallic Materials molding according to one exemplary embodiment of this utility model Property sectional view.

Fig. 4 is to be included according to the equipment making Inorganic Non-metallic Materials molding of one exemplary embodiment of this utility model The schematic cross sectional views that intercept along the line II-II ' in Fig. 3 of two rollers.

Fig. 5 is illustrate the upper roller including cooling end according to one exemplary embodiment of this utility model schematic Sectional view.

Fig. 6 is illustrate the lower roll including cooling end according to one exemplary embodiment of this utility model schematic Sectional view.

Specific embodiment

Fig. 1 is a kind of perspective view of abnormal shape (or " special-shaped ") Inorganic Non-metallic Materials product 100.Fig. 2 is shown in Fig. 1 The sectional view that special-shaped Inorganic Non-metallic Materials product 100 intercepts along line I-I '.For example, the inorganic non-gold of the abnormal shape shown in Fig. 1 Belong to the decorative stones product that material product 100 could be for doorframe (such as elevator door pocket).

See figures.1.and.2, special-shaped Inorganic Non-metallic Materials product 100 has the substantial rectangular plate shape of elongation.Special-shaped The length of Inorganic Non-metallic Materials product 100 is more than width, and the width of special-shaped Inorganic Non-metallic Materials product 100 is more than thickness. The width of special-shaped Inorganic Non-metallic Materials product 100 is defined as the X-direction in Fig. 1, and length direction is defined as in Fig. 1 Y-direction, thickness direction is defined as the Z-direction in Fig. 1.

See figures.1.and.2, special-shaped Inorganic Non-metallic Materials product 100 includes substantially flat matrix 110 and is formed at Multiple protuberances 120,130,140 and 150 on matrix 110.Matrix 110 has the rectangular flat extending with extending in the Y direction Shape, and include flat lower surface 112 that flat upper surface 111 and upper surface 111 be oppositely disposed, by upper surface 111 It is connected to lower surface 112 and the first side surface 113 of being arranged relative to each other and the second side surface 114.First protuberance 120, Two protuberances 130, the 3rd protuberance 140 and the 4th protuberance 150 are successively set on the upper surface 111 of matrix 110 in X direction, and Each in first protuberance 120, the second protuberance 130, the 3rd protuberance 140 and the 4th protuberance 150 is stretched in the Y direction in parallel with each other Extend so that each in the first protuberance 120, the second protuberance 130, the 3rd protuberance 140 and the 4th protuberance 150 has in base longly The elongate in shape extending along Y-direction on body 110.

First protuberance 120, the second protuberance 130, the 3rd protuberance 140 and the 4th protuberance 150 all can have upper with matrix 110 The bottom (or basal surface, inner surface) of surface 111 contact, and all can have the exterior contour of bending.First protuberance 120, The exterior contour of each in two protuberances 130, the 3rd protuberance 140 and the 4th protuberance 150 can have along the X direction increase first so The height reducing afterwards.The outer wheels of each in first protuberance 120, the second protuberance 130, the 3rd protuberance 140 and the 4th protuberance 150 Exterior feature can have the shape of circle, ellipse or arc.Described arc may include semicircle, half elliptic, normal distribution curve shape, Sinusoidal, parabola shaped etc..

Have first between matrix 110 and the first protuberance 120, the second protuberance 130, the 3rd protuberance 140 and the 4th protuberance 150 Separating surface IN1.First separating surface IN1 can also be considered the part for upper surface 111 of matrix 110 or the first protuberance 120, The basal surface of two protuberances 130, the 3rd protuberance 140 and the 4th protuberance 150.Have between first protuberance 120 and the second protuberance 130 Two separating surface IN2.Between 3rd protuberance 140 and the 4th protuberance 150, there is the 3rd separating surface IN3.Second protuberance 130 and the 3rd is convex The end adjoining one another in portion 140 can be in same level with the upper surface 111 of matrix 110 so that the second protuberance 130 and Three protuberances 140 do not have separating surface.

The exterior contour adjacent one another are of the first protuberance 120 and the second protuberance 130 limits the first recess 160, the second protuberance 130 and the 3rd the exterior contour adjacent one another are of protuberance 140 limit the second recess 170, the 3rd protuberance 140 and the 4th protuberance 150 Exterior contour adjacent one another are limit the 3rd recess 180.First protuberance 120, the second protuberance 130, the 3rd protuberance 140 and the 4th Can have gentle transition part between protuberance 150 so that the first recess 160, the second recess 170 and the 3rd recess 180 have flat Suitable profile.

First protuberance 120 width in the X direction can be the 20%-32% of matrix 110 width in the X direction, the Two protuberances 130 width in the X direction can be the 20%-32% of the width of matrix 110, and the 3rd protuberance 140 is in the X direction Width can be the 10%-22% of the width of matrix 110, and the 4th protuberance 150 width in the X direction can be matrix 110 The 7%-19% of width.Matrix 110 also can have not convex by the first protuberance 120, the second protuberance 130, the 3rd protuberance 140 and the 4th The part that portion 150 covers, for example, the both ends in the X direction of matrix 110.

Matrix 110 can have substantially uniform thickness t1 in z-direction.First protuberance 120 maximum height in z-direction Degree h1 can be more than the thickness t1 of matrix 110, and the second protuberance 130, the 3rd protuberance 140 and the 4th protuberance 150 are in z-direction Big height h2, h3 and h4 can be less than the thickness t1 of matrix 110.For example, maximum height h1 of the first protuberance 120 can be matrix About 1.4-1.8 times (such as 1.6 times) of 110 thickness t1, maximum height h2 of the second protuberance 130 can be matrix 110 About 0.4-0.8 times (such as 0.6 times) of thickness t1, maximum height h3 of the 3rd protuberance 140 can be the thickness t1 of matrix 110 About 0.1-0.5 times (such as 0.2-0.5 times or 0.3 times), maximum height h4 of the 4th protuberance 150 can be matrix 110 About 0.3-0.7 times (such as 0.5 times) of thickness t1.The minimum point of the first recess 160 is higher than the upper surface 111 of matrix 110, the The minimum point of two recesses 170 is substantially flush with the upper surface 111 of matrix 110, and the minimum point of the 3rd recess 180 is higher than matrix 110 Upper surface 111.The minimum point of the second recess 170 can flush with the upper surface 111 of matrix 110 so that the second protuberance 130 and The end contacting with each other of three protuberances 140 can be in same level with matrix 110.Therefore, special-shaped Inorganic Non-metallic Materials produce Product 100 can have the gross thickness changing in the X direction.

Traditionally, special-shaped Inorganic Non-metallic Materials product can be manufactured by following first methods or second method 100.

In first method, separately made first matrix 110, the first protuberance 120, the second protuberance 130, the 3rd protuberance 140 and the 4th each in protuberance 150, then by the first protuberance 120, the second protuberance 130, the 3rd protuberance 140 and the 4th protuberance 150 engage (for example, bonding) on matrix 110, and by the first protuberance 120, the second protuberance 130, the 3rd protuberance 140 and the 4th Protuberance 150 is engaged with each other (for example, bonding) successively, thus producing special-shaped Inorganic Non-metallic Materials product 100.Mould can be passed through Casting, calendering or float glass process manufacture flat matrix 110, can be by the machining process of molding or such as cutting and/or grinding To manufacture each in the first protuberance 120, the second protuberance 130, the 3rd protuberance 140 and the 4th protuberance 150.

In the second approach, preparing thickness first is the thickness of matrix 110 and the maximum height sum of the first protuberance 120 Plate shaped, one raw material, then by this raw material process (for example, cutting and/or grinding) become to have matrix 110, First protuberance 120, the special-shaped Inorganic Non-metallic Materials product 100 of the second protuberance 130, the 3rd protuberance 140 and the 4th protuberance 150. This raw material flat can be manufactured by molding, calendering or float glass process.

Can be by above-mentioned first method and second method be combined to manufacture special-shaped Inorganic Non-metallic Materials product 100.For example, it is possible to separately made first protuberance 120 with maximum height；Prepare the thickness and that thickness is matrix 110 The height sum of one protuberance of highest in two protuberances 130, the 3rd protuberance 140 and the 4th protuberance 150 plate shaped, integrally Raw material, then by the cutting of this raw material and/or be ground to matrix 110, the second protuberance 130, the 3rd protuberance 140 and the Four protuberances 150；Finally by the knot of the first protuberance 120 and matrix 110, the second protuberance 130, the 3rd protuberance 140 and the 4th protuberance 150 Zoarium is engaged with each other to manufacture special-shaped Inorganic Non-metallic Materials product 100.

In above-mentioned first method, need separately made matrix 110, the first protuberance 120, the second protuberance 130, the In three protuberances 140 and the 4th protuberance 150 each and they are engaged, therefore manufacturing cost is high, complex process, and the process time Long.In above-mentioned second method, because special-shaped Inorganic Non-metallic Materials product is machined into by the raw material of large volume 100, so producing substantial amounts of waste material, and manufacturing cost height, complex process, and the process time is long.Additionally, above-mentioned the first Method and second method are all difficult to continuous prodution.

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

Used in this specification, term " Inorganic Non-metallic Materials " can represent various Inorganic Non-metallic Materials, without tool Body limits, for example, glass, devitrified glass, pottery, stone material (such as microlite), cement, refractory material, carbon materials, porous material Material, etc..Inorganic Non-metallic Materials can have the ductility more much lower than metal material.As skilled in the art to understand , used in this specification, term " melting (state) Inorganic Non-metallic Materials " or " Inorganic Non-metallic Materials of melting " can represent Liquid or the Inorganic Non-metallic Materials of liquid phase, it may include hot liquid phase Inorganic Non-metallic Materials.For example, " melting is inorganic non- Metal material " or " Inorganic Non-metallic Materials of melting " may include temperature 460 DEG C, 500 DEG C, 550 DEG C, 600 DEG C, 650 DEG C, 700℃、750℃、800℃、850℃、900℃、950℃、1000℃、1050℃、1100℃、1150℃、1200℃、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 or more than 1700 DEG C, or this A little numerical definitenesses any scope (such as 500 DEG C -1600 DEG C, 550 DEG C -1500 DEG C, 600 DEG C -1400 DEG C, 650 DEG C -1300 DEG C, 700 DEG C -1250 DEG C, 750 DEG C -1200 DEG C, 800 DEG C -1150 DEG C, 850 DEG C -1100 DEG C, 900 DEG C -1050 DEG C or 950 DEG C -1000 DEG C) hot liquid phase Inorganic Non-metallic Materials.As understood by those skilled in the art, term used in this specification " softening Inorganic Non-metallic Materials " or " Inorganic Non-metallic Materials of softening " can represent the shell can with solid-state but generally soft Soft Inorganic Non-metallic Materials, it may include the Inorganic Non-metallic Materials of hot softness.The Inorganic Non-metallic Materials softening can have There is the ductility more much lower than metal material.For example, " softening Inorganic Non-metallic Materials " or " Inorganic Non-metallic Materials of softening " May include temperature 450 DEG C, 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 ℃、1000℃、1050℃、1100℃、1150℃、1200℃、1250℃、1300℃、1350℃、1400℃、1450℃、1500 DEG C, 1550 DEG C, 1600 DEG C, 1650 DEG C or more than 1700 DEG C, or (such as 500 DEG C -1600 of any scope of these numerical definitenesses ℃、550℃-1500℃、600℃-1400℃、650℃-1300℃、700℃-1250℃、750℃-1200℃、800℃- 1150 DEG C, 850 DEG C -1100 DEG C, 900 DEG C -1050 DEG C or 950 DEG C -1000 DEG C) hot softening Inorganic Non-metallic Materials.

Fig. 3 is the signal of the equipment making Inorganic Non-metallic Materials molding according to one exemplary embodiment of this utility model Property sectional view.Fig. 4 be according to one exemplary embodiment of this utility model make wrap in the equipment of Inorganic Non-metallic Materials molding The schematic cross sectional views that two rollers including intercept along the line II-II ' in Fig. 3.

With reference to Fig. 3 and Fig. 4, setting of Inorganic Non-metallic Materials molding made according to one exemplary embodiment of this utility model Standby 200 include upper roller 210 and the lower roll 220 abreast arranged with upper roller 210.Upper roller 210 and lower roll 220 are inorganic for melting Nonmetallic materials or softening Inorganic Non-metallic Materials 300 are rolled into special-shaped Inorganic Non-metallic Materials product 100.

Upper roller 210 and lower roll 220 can rotate in opposite direction.It is described here that " upper roller 210 and lower roll 220 are along phase Anti- direction rotates " the rotation side of direction of rotation and the lower roll 220 of schematic sectional in figure upper roller 210 in Fig. 3 can be represented To contrary, so that melting Inorganic Non-metallic Materials or softening Inorganic Non-metallic Materials 300 can be successfully through upper roller 210 Hes Space S between lower roll 220.During upper roller 210 and lower roll 220 rotate in opposite direction, upper roller 210 and lower roll The tangential direction of 220 hithermost each other two parts can be parallel or identical.

X-direction in Fig. 3 and Fig. 4, Y-direction and Z-direction can be and the X-direction in Fig. 1 and Fig. 2, Y-direction and Z-direction Consistent direction respectively.

Upper roller 210 extends along the X direction, i.e. upper roller 210 has the axial direction parallel to X-direction.Upper roller 210 includes upper roller Body 211, be separately positioned on roller body 211 both sides and have a diameter larger than roller body 211 diameter the first alar part 212 and second alar part 213, and be arranged on the first alar part 212 outside first on power transmission shaft 214 and be arranged on the second alar part Power transmission shaft 215 on the second of 213 outsides.

Upper roller body 211 can be work department.With reference to Fig. 3 and Fig. 4, upper roller body 211 can have the cross section of circle, with And exterior contour and the profile consistent (for example, identical) of the upper surface of special-shaped Inorganic Non-metallic Materials product 100 to be formed Longitudinal section.More particularly, the diameter of the circular cross section of upper roller body 211 can change in the X direction, with different with to be formed The gross thickness of the change of type Inorganic Non-metallic Materials product 100 corresponds to.The upper profile of the longitudinal section of upper roller body 211 and bottom profiled Profile consistent (for example, identical) all with the upper surface of special-shaped Inorganic Non-metallic Materials product 100 to be formed, and with respect to Upper roller body 211 substantially symmetrical about its central axis.In other words, the roll surface of upper roller body 211 limits special-shaped inorganic non-metallic material to be formed The upper surface of material product 100, the upper surface 111 including the exposure of matrix 110 and the first protuberance 120, the second protuberance 130, the Three protuberances 140 and the upper surface of the 4th protuberance 150.

First alar part 212 is separately positioned on the relative both sides of upper roller body 211 with the second alar part 213, and its diameter It is all higher than the diameter of roller body 211, i.e. radially project from upper roller body 211.First alar part 212 and the second alar part 213 can be work department.First alar part 212 can have the cross section of circle and the longitudinal section of rectangle.That is, along X side To the first alar part 212 has identical or essentially identical cross section and uniform external diameter.In other words, the first alar part 212 can have There is the shape of cylinder.Second alar part 213 can have the cross section of circle and the longitudinal section of rectangle.That is, along X side To the second alar part 213 has identical or essentially identical cross section and uniform external diameter.In other words, the second alar part 213 can have There is the shape of cylinder.First alar part 212 and the second alar part 213 can have identical diameter.

The inner surface of the first alar part 212 and the second alar part 213 can limit special-shaped inorganic non-metallic to be formed respectively First side surface 113 of the matrix 110 of material product 100 and the second side surface 114.

On first, power transmission shaft 214 is arranged on the outside in the axial direction of the first alar part 212, and on second, power transmission shaft 215 is arranged on Outside in the axial direction of the second alar part 213.On power transmission shaft 214 and second on first, power transmission shaft 215 can be that diameter is less than upper roller The cylinder of the diameter of body 211, the first alar part 212 and the second alar part 213.Power transmission shaft on power transmission shaft 214 and second on first The both sides of 215 assemblys that can be symmetrically disposed in roller body 211, the first alar part 212 and the second alar part 213, and can have Identical diameter.

Power transmission shaft 215 on power transmission shaft 214 and second on upper roller body 211, the first alar part 212, the second alar part 213, first May be integrally formed.Upper roller 210 can be made up of any suitable material, for example, be made up of metal or pottery.Preferably, on Roller 210 can be made up of heat-resisting metal or pottery.

Lower roll 220 includes lower roller body 221 and is separately positioned on the first lower drive shaft of the both sides of lower roller body 221 224 and second lower drive shaft 225.

Lower roller body 221 can be work department.Lower roller body 221 extends along the X direction, i.e. lower roller body 221 has flat Row is in the axial direction of X-direction.Lower roller body 221 can have the cross section of circle and the longitudinal section of rectangle.That is, along X side To lower roller body 221 has identical or essentially identical cross section and uniform external diameter.In other words, lower roller body 221 can have There is the shape of cylinder.

The roll surface at the both ends of lower roller body 221 respectively with the first alar part 212 of upper roller 210 and the roller of the second alar part 213 Face contacts, to prevent from melting Inorganic Non-metallic Materials or to soften spilling of Inorganic Non-metallic Materials 300.Lower roller body 221 is not The roll surface contacting with the first alar part 212 and the second alar part 213 limits the base of special-shaped Inorganic Non-metallic Materials product 100 to be formed The flat bottom surface 112 of body 110.

The outer surface of lower roller body 221 can be with the outer surface of the first alar part 212 and the second alar part 213 in Z-direction Upper alignment.However, this utility model not limited to this.The outer surface of lower roller body 221 can extend beyond the first alar part 212 He The outer surface of the second alar part 213, or the outer surface of the first alar part 212 and the second alar part 213 can extend beyond lower roll The outer surface of body 221.

First lower drive shaft 224 and the second lower drive shaft 225 are separately positioned on the both sides in the axial direction of lower roller body 221. First lower drive shaft 224 and the second lower drive shaft 225 can be the cylinders of the diameter that diameter is less than lower roller body 221.First Lower drive shaft 224 and the second lower drive shaft 225 can be symmetrically disposed in the both sides of lower roller body 221, and it is straight to have identical Footpath.

Lower roller body 221, the first lower drive shaft 224 and the second lower drive shaft 225 may be integrally formed.Lower roll 220 can To be made up of any suitable material, for example, it is made up of metal or pottery.Preferably, lower roll 220 can be by heat-resisting metal or pottery Porcelain is made.

Due to construction as above and the arrangement of upper roller 210 and lower roll 220, upper roller 210 and lower roll 220 can limit shape The space S of shape and the shape of cross section consistent (for example, identical) of special-shaped Inorganic Non-metallic Materials product 100 to be formed.More Say, the roll surface of upper roller body 211 limits the upper surface of special-shaped Inorganic Non-metallic Materials product 100 to be formed, first wing body The inner surface of portion 212 and the second alar part 213 limits the matrix of special-shaped Inorganic Non-metallic Materials product 100 to be formed respectively 110 the first side surface 113 and the second side surface 114, not the connecing with the first alar part 212 and the second alar part 213 of lower roller body 221 Tactile roll surface limits the lower surface 112 of the matrix 110 of special-shaped Inorganic Non-metallic Materials product 100 to be formed.

Fig. 5 is illustrate the upper roller including cooling end according to one exemplary embodiment of this utility model schematic Sectional view.Fig. 6 is illustrate the lower roll including cooling end according to one exemplary embodiment of this utility model schematic Sectional view.

With reference to Fig. 5, upper roller 210 can also include the cooling end 216 being disposed therein.Cooling end 216 can be along axle To running through upper roller 210, for example, axially in turn run through power transmission shaft 214 on first, the first alar part 212, upper roller body 211, The internal gutter of power transmission shaft 215 or chamber on second alar part 213 and second.The cross section of described internal gutter or chamber can be Circle, semicircle, ellipse, half elliptic, regular polygon, irregular polygon etc..Cooling end 216 can be arranged on upper roller 210 center diametrically, or any other suitable position.

When execution makes the method for Inorganic Non-metallic Materials molding, cooling medium can flow in cooling end 216, so that Inorganic Non-metallic Materials must be melted or softening Inorganic Non-metallic Materials 300 are cooled.Cooling medium is not particularly limited, and for example may be used To be water, oil, air, cooling solution etc..

What cooling end 216 included sequentially communicating with each other runs through the Part I 216a of power transmission shaft 214 on first, runs through The Part II 216b of one alar part 212, run through roller body 211 with matrix 110 part not covered by multiple protuberances The Part III 216c of corresponding part, run through the Part IV with the corresponding part of the first protuberance 120 of roller body 211 216d, run through the Part V 216e with the corresponding part of the second protuberance 130 of roller body 211, run through upper roller body 211 With the Part VI 216f of the corresponding part of the 3rd protuberance 140, run through upper roller body 211 with the corresponding portion of the 4th protuberance 150 The Part VII 216g dividing, the another part not covered by multiple protuberances with matrix 110 running through roller body 211 are corresponding Partial Part VIII 216h, run through the Part IX 216i of the second alar part 213 and run through the tenth of power transmission shaft 214 on first Divide 216j.

The radial ruler of each in Part I 216a, Part II 216b, Part IX 216i and Part X 216j Very little (diameter for example radially, height or length) can be less than the radial dimension of Part III 216c to Part VIII 216h (such as diameter, height or length).

The radial dimension of each in Part III 216c to Part VIII 216h can more than Part I 216a, second The radial dimension of each in part 216b, Part IX 216i and Part X 216j.However, Part I 216a, second The radial dimension of each in part 216b, Part IX 216i and Part X 216j can be unrestricted.

The radial dimension of each in Part III 216c to Part VIII 216h can respectively with special-shaped inorganic non-metallic The maximum gauge (or height) of each several part in X-direction (i.e., axially) of material product 100 is corresponding.As it was previously stated, along axle To each several part of, special-shaped Inorganic Non-metallic Materials product 100 can have successively maximum gauge t1, t1+h1, t1+h2, t1+h3, T1+h4 and t1.Therefore, the radial dimension of Part III 216c to Part VIII 216h can respectively with maximum gauge t1, t1+ H1, t1+h2, t1+h3, t1+h4 are corresponding with t1.In the exemplary embodiment, Part III 216c's to Part VIII 216h is vertical Cross section profile can be unanimous on the whole with the profile of the upper surface of special-shaped Inorganic Non-metallic Materials product 100.

Amount of cooling water (or cooling capacity) at axially each position of cooling end 216 can be with the radial ruler of cooling end 216 Very little consistent (for example, proportional).Therefore, from the Part III 216c of cooling end 216 to Part VIII 216h, cooling capacity is permissible Consistent with maximum gauge t1, t1+h1, t1+h2, t1+h3, t1+h4 and t1 respectively.In other words, for special-shaped inorganic non-metallic material The thicker part of material product 100, applies larger amount of cooling water, and relatively thin for special-shaped Inorganic Non-metallic Materials product 100 Part, apply less amount of cooling water.Therefore, it can contribute to the equal of each several part of special-shaped Inorganic Non-metallic Materials product 100 Even, consistent cooling.

Although having the cooling end 216 of different cooling capacities at each position describing in the axial direction above with reference to Fig. 5, But this utility model not limited to this.In the case of amount of cooling water abundance, cooling end can have at each position in the axial direction Uniform cooling capacity.Although describing to realize in the axial direction by adjusting the radial dimension of cooling end 216 above with reference to Fig. 5 Each position at different cooling capacity, but this utility model not limited to this.For example, can be by each position in the axial direction Realize not at each position that the cooling pipe (that is, the various arrangements of cooling pipe) putting place's arrangement varying number comes in the axial direction Same cooling capacity.Although describing, above with reference to Fig. 5, the center diametrically that cooling end 216 is arranged on upper roller 210, this Utility model not limited to this.Cooling end may be provided at any other suitable position, and for example, multiple cooling-parts are along upper roller 210 Outer surface be successively set on the position of the outer surface of close upper roller 210 in upper roller 210, to have the cooling effectiveness of raising.

With reference to Fig. 6, lower roll 220 can also include the cooling end 226 being disposed therein.Cooling end 226 can be along axle To running through lower roll 220, for example, the first lower drive shaft 224, lower roller body 221 and the second underdrive are axially in turn run through The internal gutter of axle 225 or chamber.The cross section of described internal gutter or chamber can be circular, semicircle, oval, half ellipse Circle, regular polygon, irregular polygon etc..Cooling end 226 can be arranged on the center diametrically of lower roll 220, or Any other suitable position.

When execution makes the method for Inorganic Non-metallic Materials molding, cooling medium can flow in cooling end 226, so that Inorganic Non-metallic Materials must be melted or softening Inorganic Non-metallic Materials 300 are cooled.Cooling medium is not particularly limited, and for example may be used To be water, oil, air, cooling solution etc..

Shape that the shape of cooling end 226, construction and function can be figure 5 illustrates with the cooling end 216 of upper roller 210, Construction and functional similarity or essentially identical.Therefore, for sake of simplicity, being not described in detail the shape of cooling end 226, construction here And function.

In the case of amount of cooling water abundance, uniform at each position that the cooling end of lower roll 220 can have in the axial direction Cooling capacity.Although describing each by adjusting that the radial dimension of cooling end 216 realizes in the axial direction above with reference to Fig. 5 Different cooling capacity at position, but the cooling end not limited to this of lower roll 220.For example, can be by each position in the axial direction Realize not at each position that the cooling pipe (that is, the various arrangements of cooling pipe) putting place's arrangement varying number comes in the axial direction Same cooling capacity.Although describing, above with reference to Fig. 6, the center diametrically that cooling end 226 is arranged on lower roll 220, this Utility model not limited to this.Cooling end may be provided at any other suitable position, and for example, multiple cooling-parts are along lower roll 220 Outer surface be successively set on the position of the outer surface of close lower roll 220 in lower roll 220, to have the cooling effectiveness of raising.

With reference to Fig. 3, through the center of lower roll 220 and the center of upper roller 210 dummy line (not shown) along the Z direction perpendicular Nogata upwardly extends, i.e. upper roller 210 is arranged on the surface on gravity direction of lower roll 220, or upper roller 210 and lower roll 220 are relative to each other vertically provided.However, this utility model not limited to this.Specifically, lower roll 220 and upper roller 210 are permissible Obliquely arrange with respect to vertical direction；Or selectively, lower roll 220 and upper roller 210 can relative to each other flatly cloth Put or obliquely arrange with respect to horizontal direction.

External diameter (more particularly, the external diameter of upper roller body 211, the external diameter of the first alar part 212 and second wing of upper roller 210 The external diameter in portion 213) the proportionate relationship and external diameter (more particularly, the external diameter of lower roller body 221) of lower roll 220 between do not had Body limits.

Make Inorganic Non-metallic Materials molding equipment 200 may also include with first on power transmission shaft on power transmission shaft 214, second 215th, the bearing arrangement (not shown) of the first lower drive shaft 224 and the second lower drive shaft 225 assembling and for upper roller 210 and/or The driving means (not shown) of the powered rotation of lower roll 220.

The equipment 200 of Inorganic Non-metallic Materials molding is made to may also include：Raw material supply groove 230, be arranged on upper roller 210 and under The upstream of roller 220, for upper roller 210 and lower roll 220 supply melting Inorganic Non-metallic Materials or softening Inorganic Non-metallic Materials 300；Support meanss 240, are arranged on upper roller 210 and the downstream of lower roll 220, for supporting and guiding the inorganic non-gold of abnormal shape of molding Belong to material product 100；And transporter 250, it is arranged on the downstream of support meanss 240, pass through support dress for transmission Put 240 special-shaped Inorganic Non-metallic Materials product 100.

Raw material supply groove 230 can be fluid groove, for accommodating melting Inorganic Non-metallic Materials or softening inorganic non-metallic Material 300.

Support meanss 240 can be supporting plate, supporting plate water tank or the roller unit including multiple rollers.Roller unit can equipped with or It is not charged with cooling-part.With reference to Fig. 3, support meanss 240 can flatly be arranged along the Y direction.However, this utility model does not limit In this.Support meanss 240 can dip down tiltedly along the direct of travel of in type abnormal shape Inorganic Non-metallic Materials product 100 Setting；In this case, upper roller 210 and lower roll 220 obliquely can be arranged with respect to vertical direction, i.e. by lower roll 220 The dummy line that the center of center and upper roller 210 connects can offset in the clockwise direction with respect to Z-direction so that upper roller 210 Center move in the Y direction with respect to the center of lower roll 220.In this case, the special-shaped Inorganic Non-metallic Materials of molding The thrust that product 100 can be provided based on its own gravity and upper roller 210 and lower roll 220, from upper roller 210 and lower roll 220 it Between space S swimmingly transmit to transporter 250.

Transporter 250 may include the multiple rollers that can rotate.Transporter 250 may also include the cooling being disposed therein Part (not shown), for example, cooling water pipeline.

Make Inorganic Non-metallic Materials molding equipment 200 may also include be arranged on support meanss 240 and transporter 250 it Between or be arranged on the downstream of transporter 250 or be arranged on transporter 250 multiple rollers between make special-shaped inorganic non-gold Belong to the device that material product 100 disconnects.Make the device that special-shaped Inorganic Non-metallic Materials product 100 disconnects can be cutting knife, or Be by be arranged parallel to each other and gap therebetween can change so that special-shaped Inorganic Non-metallic Materials product 100 disconnect to The disconnection device that few two rollers are formed.

The method making Inorganic Non-metallic Materials molding is described now in detail hereinafter with reference to Fig. 3 and Fig. 4.

Using as raw material melting Inorganic Non-metallic Materials or soften Inorganic Non-metallic Materials 300 from raw material supply groove 230 Supply to the space S between upper roller 210 and lower roll 220；The upper roller 210 rotating in opposite direction and lower roll 220 extrude, cool down And tractive melting Inorganic Non-metallic Materials or softening Inorganic Non-metallic Materials 300, to obtain the special-shaped inorganic non-metallic material of molding Material product 100, and the special-shaped Inorganic Non-metallic Materials product 100 of molding is conveyed to support meanss 240；Support meanss 240 support The special-shaped Inorganic Non-metallic Materials product 100 of molding, and the special-shaped Inorganic Non-metallic Materials product 100 of molding is in upper roller 210 With the thrust of lower roll 220 and optionally guided to transporter 250 by support meanss 240 in the presence of its own gravity.

The special-shaped Inorganic Non-metallic Materials product 100 that space S between upper roller 210 and lower roll 220 is discharged can be soft Product that change or hardening.Preferably, while being formed or transmit special-shaped Inorganic Non-metallic Materials product 100, upper roller 210th, the cooling end that lower roll 220, support meanss 240 and/or transporter 250 include is to special-shaped Inorganic Non-metallic Materials product 100 are cooled down.

Device alternatively including, making special-shaped Inorganic Non-metallic Materials product 100 disconnect can will be inorganic for the abnormal shape of molding Nonmetallic materials product 100 is broken as small-size product.Abnormal shape Inorganic Non-metallic Materials product that can will be switched off, undersized 100 take off from former 200, so that it is executed with post processing, such as machining (such as surface finish, cutting etc.) or heat Process.

Because that, upper roller 210 and lower roll 220 define that shape is produced with special-shaped Inorganic Non-metallic Materials to be formed The space S of the shape of cross section of product 100 consistent (for example, identical), so shape can integratedly be rolled by upper roller 210 and lower roll 220 Become special-shaped Inorganic Non-metallic Materials product 100.

Because integratedly can be rolled by upper roller 210 and lower roll 220 that special-shaped Inorganic Non-metallic Materials product 100 is formed, Compared with the aforementioned first method of correlation technique, become according to the Inorganic Non-metallic Materials that make of this utility model exemplary embodiment The method of type simplifies manufacturing process, reduces manufacturing cost, and shortens the process time.Additionally, with correlation technique before State second method to compare, produced according to the method making Inorganic Non-metallic Materials molding of this utility model exemplary embodiment Amount of waste greatly reduces, and simplifies manufacturing process, reduces manufacturing cost, and shortens the process time.Additionally, according to this reality It is advantageously implemented continuous prodution with the method making Inorganic Non-metallic Materials molding of new exemplary embodiment.

Although the length being described above special-shaped Inorganic Non-metallic Materials product 100 is more than width, this practicality is new Type not limited to this.The width of special-shaped Inorganic Non-metallic Materials product 100 can be more than its length.That is, by according to this reality With the equipment or the method that make Inorganic Non-metallic Materials molding of new exemplary embodiment, the inorganic of any length-width ratio can be manufactured Nonmetallic materials product.

Although being described above upper roller 210 to include the upper of its roll surface profile and special-shaped Inorganic Non-metallic Materials product 100 Go up roller body 211 for one that the profile on surface is consistent, but this utility model not limited to this.Upper roller 210 may include along upper roller The multiple upper roller body that 210 axial direction (that is, X-direction) is sequentially arranged, the roll surface profile of roller body and a special-shaped nothing on each The profile of the upper surface of machine nonmetallic materials product 100 is consistent.Can be provided with by space S respectively between roller body on multiple The lattice separating.In which case it is possible to use a upper roller 210 manufactures independent multiple abnormal shape Inorganic Non-metallic Materials Product 100, thus improve productivity ratio.The lattice that space S is spaced one from can be not provided with multiple between roller body, That is, multiple space S communicate with each other.In this case, the multiple abnormal shape Inorganic Non-metallic Materials being bonded to each other can be prepared to produce Multiple abnormal shape Inorganic Non-metallic Materials products 100 can be separated by product 100 by cutting.

Although describing according to exemplary above in conjunction with the special-shaped Inorganic Non-metallic Materials product 100 with given shape The equipment and the method that make Inorganic Non-metallic Materials molding of embodiment, but of the present utility model make Inorganic Non-metallic Materials molding Equipment and method be not limited to the given shape shown in in figure of special-shaped Inorganic Non-metallic Materials product 100.

In one exemplary embodiment, the special-shaped Inorganic Non-metallic Materials product shown in Fig. 1 and Fig. 2 also includes arranging At least one protuberance on the lower surface of matrix.In this case, Inorganic Non-metallic Materials are made shown in Fig. 3 and Fig. 4 The lower roll of the equipment of molding includes at least one recess corresponding with this at least one protuberance.

In one exemplary embodiment, special-shaped Inorganic Non-metallic Materials product to be formed includes thering is regular shape Matrix and at least one protuberance being formed on matrix and/or at least one recess.Make inorganic non-gold according to of the present utility model Belong to first roller (such as upper roller) of equipment of material molding and the second roller (such as lower roll) limits space, this space has and treats shape Profile corresponding (such as identical) profile of the special-shaped Inorganic Non-metallic Materials product becoming.

Described regular shape can be plate shaped, prismatic, cylindrical, semi-cylindrical, elliptical cylinder-shape or semiellipse cylindricality Deng.The height of at least one protuberance described or recess or depth can be 0.2-30 times of the thickness of matrix, 0.3-28 times, 0.4-26 Again, 0.5-24 times, 0.6-22 times, 0.7-20 times, 0.8-18 times, 1-15 times, 1.5-12 times, 2-10 times, 3-8 times.Highest is convex In one of the height in portion and the depth of recess the deepest and the height of minimum protuberance and the depth of recess the most shallow one The ratio of person can be in the range of 1.5-100,2-80,5-60,8-50,10-40,12-35,15-30,20-25.Due to special-shaped nothing The concaveconvex shape of machine nonmetallic materials product, the maximum gauge (or maximum height) of special-shaped Inorganic Non-metallic Materials product and minimum Ratio between thickness (or minimum constructive height) can be in 2-150,2.5-140,3-130,3.5-120,4-110,4.5-100,5- 80th, in the range of 5.5-60,6-40,6.5-30,7-25,7.5-20,8-15,8.5-12, or these numerical value given here In the range of arbitrarily limiting, such as in the range of 2-8,2.5-12,3-40.

Therefore, make the equipment of Inorganic Non-metallic Materials molding and method permissible according to this utility model exemplary embodiment It is easily manufactured the Inorganic Non-metallic Materials product between different positions with big difference in height or thickness difference.

In one exemplary embodiment, lower roll 220 can be replaced as flat board.Described flat board can be fixing or can Movement.In the case that described flat board is fixing, upper roller 210 can be moved in negative direction in the Y direction while rotation.Cause Limit the shape of cross section of shape and special-shaped Inorganic Non-metallic Materials product 100 to be formed for upper roller 210 and described flat board The unanimously space S of (for example, identical), so integratedly can be rolled by upper roller 210 and described flat board that special-shaped inorganic non-metallic is formed Material product 100.In the case, compared with simple molding, the manufacturing cost of equipment can be reduced and improve productivity ratio.? Described flat board be movably in the case of, while upper roller 210 rotation, described flat board also moves so that upper roller 210 and described flat The direction of motion of hithermost each other two parts of plate can be parallel or identical.In this case, it is possible to realize and reference 3 Exemplary embodiment identical effect with Fig. 4 description.

Although the Inorganic Non-metallic Materials that make according to this utility model exemplary embodiment become above with reference to Description of Drawings The equipment of type and method, but this utility model not limited to this.It is understood to one skilled in the art that new without departing from this practicality In the case of the spirit and scope of type, it can be made with the various changes in form and in details.

Claims (14)

1. a kind of equipment making Inorganic Non-metallic Materials molding is it is characterised in that described equipment includes：

First roller；

Second roller, is abreast arranged with the first roller；

First roller and the second roller limit the shape space consistent with the shape of cross section of the Inorganic Non-metallic Materials product of molding,

Wherein, the Inorganic Non-metallic Materials product of molding includes matrix and at least one protuberance being formed on matrix or recess.

2. the equipment making Inorganic Non-metallic Materials molding according to claim 1 is it is characterised in that described at least one is convex The height of portion or recess or depth are 0.2-30 times of the thickness of matrix.

3. the equipment making Inorganic Non-metallic Materials molding according to claim 1 is it is characterised in that described at least one is convex Portion or recess include multiple protuberances and recess, one of the height of highest protuberance and the depth of recess the deepest with minimum The ratio of one of the height of protuberance and the depth of recess the most shallow is in the range of 1.5-100.

4. the equipment making Inorganic Non-metallic Materials molding according to claim 1 is it is characterised in that the inorganic non-gold of molding Belong to the part the thickest of material product and the ratio of the thickness of part the thinnest in the range of 2-150.

5. the equipment making Inorganic Non-metallic Materials molding according to claim 1 is it is characterised in that the first roller includes first Roller body, it is separately positioned on the both sides of the first roller body and has a diameter larger than first alar part of diameter and of the first roller body Two alar parts, the second roller includes the second roller body, and the second roller body separated in the face of the first roller body and with the first roller body, the The two ends of two roller bodies contact the first alar part and the second alar part respectively,

The outer surface of the first roller body limits the first surface of the Inorganic Non-metallic Materials product of molding, the appearance of the second roller body Face limits the second surface relative with first surface of the Inorganic Non-metallic Materials product of molding, and the first alar part limits the nothing of molding The 3rd surface first surface being connected to second surface of machine nonmetallic materials product, the second alar part limits the inorganic non-of molding The 4th surface first surface being connected to second surface of product of metal material, the 3rd surface is relative with the 4th surface,

The first surface of Inorganic Non-metallic Materials product includes at least one protuberance described or recess.

6. the equipment making Inorganic Non-metallic Materials molding according to claim 1 is it is characterised in that the first roller and the second roller At least one of include the cooling end that is disposed therein, cooling end be through in the first roller and the second roller described at least one Inner passage.

7. the equipment making Inorganic Non-metallic Materials molding according to claim 6 is it is characterised in that the first roller or the second roller Have axially and radially, the thickness of Inorganic Non-metallic Materials product changes in the axial direction, cooling end and Inorganic Non-metallic Materials The radial dimension of the corresponding part of product axially with the consistency of thickness of Inorganic Non-metallic Materials product change.

8. a kind of equipment making Inorganic Non-metallic Materials molding is it is characterised in that described equipment includes：

Roller；

Plate, is abreast arranged with described roller；

Described roller limits the shape space consistent with the shape of cross section of the Inorganic Non-metallic Materials product of molding with described plate,

Wherein, the Inorganic Non-metallic Materials product of molding includes matrix and at least one protuberance being formed on matrix or recess.

9. the equipment making Inorganic Non-metallic Materials molding according to claim 8 is it is characterised in that described at least one is convex The height of portion or recess or depth are 0.2-30 times of the thickness of matrix.

10. the equipment making Inorganic Non-metallic Materials molding according to claim 8 it is characterised in that described at least one Protuberance or recess include multiple protuberances and recess, one of the height of highest protuberance and the depth of recess the deepest with minimum The height of protuberance and one of the depth of recess the most shallow ratio in the range of 1.5-100.

11. equipment making Inorganic Non-metallic Materials molding according to claim 8 it is characterised in that molding inorganic non- The part the thickest of product of metal material and the ratio of the thickness of part the thinnest are in the range of 2-150.

12. equipment making Inorganic Non-metallic Materials molding according to claim 8 are it is characterised in that described roller includes roller Body, it is separately positioned on the both sides of roller body and has a diameter larger than the first alar part of diameter and second alar part of roller body, institute State plate to have in the face of roller body and the central part that separates with roller body and contact the first alar part and the second alar part respectively Both ends,

The outer surface of roller body limits the first surface of the Inorganic Non-metallic Materials product of molding, the surface of the central part of described plate Limit the second surface relative with first surface of the Inorganic Non-metallic Materials product of molding, the first alar part limits the inorganic of molding The 3rd surface first surface being connected to second surface of nonmetallic materials product, the second alar part limits the inorganic non-gold of molding Belong to the 4th surface that first surface is connected to second surface of material product, the 3rd surface is relative with the 4th surface,

The first surface of Inorganic Non-metallic Materials product includes at least one protuberance described or recess.

13. equipment making Inorganic Non-metallic Materials molding according to claim 8 are it is characterised in that described roller and described The cooling end that the inclusion of at least one of plate is disposed therein, cooling end is through in described roller and described plate described at least one Individual inner passage.

14. equipment making Inorganic Non-metallic Materials molding according to claim 13 are it is characterised in that described roller or described Plate has axially and radially, and the thickness of Inorganic Non-metallic Materials product changes in the axial direction, cooling end with inorganic non-metallic material Material the corresponding part of product radial dimension axially with the consistency of thickness of Inorganic Non-metallic Materials product change.