CN214572371U - Braided crucible - Google Patents

Abstract

The utility model relates to a woven crucible, the crucible includes crucible nation and crucible end, crucible nation and crucible end are two parts of detached, crucible nation is woven by one or many carbon fiber ropes or area and is formed, crucible nation includes many axial strips, axial strip and one or many carbon fiber ropes or area are in same curved surface, one or many carbon fiber ropes or area twine around the cladding the axial strip, the axial strip is on a parallel with the center pin of crucible nation, one or many carbon fiber ropes or area twine the spiral of axial strip is woven; the crucible bottom is a bowl-shaped body or other shapes. The utility model provides a crucible circumference intensity increase, the diameter is more accurate from top to bottom, and the spiral is woven, weaves simplely, and the support intensity at the bottom of the crucible has been strengthened to the closely knit processing in bowl bottom at the bottom of the crucible.

Description

Braided crucible

Technical Field

The utility model relates to an application of a fibre combined material in the manufacturing process of monocrystalline silicon or polycrystalline silicon, concretely relates to adopt fibre combined material to weave the coating crucible that has the spiral to weave crucible bang and crucible end of preparation.

Background

In the production of crystals, there is a crucible as one component, and the material of the crucible is generally graphite, ceramic, metal, etc., and there are problems such as cracking and erosion deterioration of the crucible. Moreover, as the diameter of the grown crystal grows thicker and thicker, the diameter of the corresponding furnace is made larger and larger, and thus the reliability of the thermal field is required to be higher and higher. Due to the strength limitation of the existing crucible, the larger the diameter is, the larger the wall thickness requirement is, so the weight is heavy, and the heat capacity is high, so the operation is heavy, the energy consumption is increased, and the cost is increased.

Thus, the prior art crucible also has a place to lift.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a coating crucible that has the spiral to weave crucible bang and crucible end that fibre combined material weaves to solve prior art's problem.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a weave crucible, the crucible includes at the bottom of crucible bang and the crucible, be two parts of detached at the bottom of crucible bang and the crucible, crucible bang is woven by one or many carbon fiber rope or area and is formed, crucible bang includes several axial strips, one or many the carbon fiber rope or area wind axial strip spiral is woven.

According to the preferable implementation of the present application, the crucible pot comprises: well ring portion and the edge sealing portion of at least one end, wherein, well ring portion is an annular cavity dictyosome, well ring portion includes a plurality of axial strip, axial strip and one or many the carbon fiber rope or the area spiral braid direction's contained angle is for being greater than 70 degrees and being less than 90 degrees.

According to the preferable implementation of the present application, the crucible pot comprises: the middle ring part is an annular hollow reticular body and comprises a plurality of axial strips, and the included angle between each axial strip and one or more carbon fiber ropes or carbon fiber ropes in the spiral weaving direction is larger than 70 degrees and smaller than 90 degrees.

According to the braided crucible of the preferred embodiment of the present application, the axial strips are surrounded by one or more carbon fiber ropes or belts in the middle ring part, and are interwoven at an outer time and an inner time.

According to the application preferred implementation the woven crucible, the crucible end includes a bowl bottom, the reticulate body that the dense form of bowl bottom was woven includes partly one or more carbon fiber rope or area and partly encircle to the circular shape one or more carbon fiber rope or area of outwards radiating from the centre of a circle, and one or more carbon fiber rope or area of outwards radiating from the centre of a circle are in the top of encircleing to the circular shape one or more carbon fiber rope or area, and the below cross connection of the circular shape one or more carbon fiber rope or area of a time encircleing is closely knit form.

According to the braided crucible implemented in a preferred embodiment of the application, the crucible bottom comprises a bowl bottom, and the net-shaped body densely braided at the bowl bottom comprises a first group of carbon fiber ropes or belts and a second group of carbon fiber ropes or belts; the carbon fiber ropes or belts forming the first group of carbon fiber ropes or belts have the same direction, and the carbon fiber ropes or belts forming the second group of carbon fiber ropes or belts have the same direction; the first group of carbon fiber ropes or belts are arranged above the second group of carbon fiber ropes or belts at one time, and the second group of carbon fiber ropes or belts are arranged below the first group of carbon fiber ropes or belts at one time in a cross connection mode to form a compact shape.

According to the braided crucible implemented in a preferred embodiment of the application, the crucible bottom comprises a bowl bottom, and the net-shaped body tightly braided at the bowl bottom comprises at least two groups of carbon fiber ropes or belts; the first group of carbon fiber ropes or belts are woven in a staggered mode from the center of a circle to the outside in a radial mode, the second group of carbon fiber ropes or belts are connected in a compact mode in a surrounding mode around the first group of carbon fiber ropes or belts, the first group of carbon fiber ropes or belts radiating from the center of a circle to the outside are connected above the second group of carbon fiber ropes or belts in a surrounding mode, and the first group of carbon fiber ropes or belts are connected in a crossed mode below the second group of carbon fiber ropes or belts in a surrounding mode in a timely and compact mode.

Weave the crucible according to the implementation of this application preferred, include a bowl somatic part at the bottom of the crucible, the bowl somatic part is a bowl shape dictyosome, weaves with one or many carbon fiber ropes or area and forms, bowl somatic part includes a plurality of axial strips, one or many the carbon fiber rope or area wind axial strip spiral is woven, axial strip and one or many the carbon fiber rope or take the contained angle that the spiral was woven the direction to be greater than 70 degrees and be less than 90 degrees.

According to the better implementation of the application, the crucible bottom is one of the whole crucible bottom made of carbon-carbon materials, the whole crucible bottom made of graphite materials, the spirally woven crucible bottom, the alternately woven crucible bottom or the combined crucible bottom with the split structure of the whole crucible bottom.

Owing to adopted above technical scheme, make the utility model discloses following advantage effect has:

firstly, the circumferential strength of the crucible is increased, and the upper diameter and the lower diameter are more accurate;

secondly, the crucible is woven in a spiral mode, weaving is simpler, the bottom of a bowl at the bottom of the crucible is closely processed, and supporting strength of the crucible bottom is enhanced;

third, the crucible of this application has designed the axial strip, can ensure rigidity and the intensity of crucible bang direction of height.

Of course, implementing any particular embodiment of the present disclosure does not necessarily have all of the above technical advantages at the same time.

Drawings

FIG. 1 is a schematic view of a crucible of the present application;

FIG. 2 is a schematic view of another crucible pot of the present application;

FIG. 3 is a schematic view of a fiber braided tube;

FIG. 4 is one of the weaving diagrams;

FIG. 5 is a second schematic view of knitting;

FIG. 6 is a third schematic view of knitting;

FIG. 7 is a schematic view of a structure of a crucible bottom;

FIG. 8 is a schematic view of a bowl bottom structure;

FIG. 9 is a schematic view of another angle of FIG. 8;

FIG. 10 is a schematic view of another configuration of the bowl bottom;

fig. 11 is a schematic view of another structure of the bowl bottom.

Detailed Description

For the purpose of understanding, the preferred embodiments of the present invention will be described in further detail below with reference to the accompanying drawings.

The core thought of this application lies in, makes a crucible, is woven by one or more carbon fiber rope or area and forms, the crucible of crucible is banned and is firstly need be woven into the preform with one or more carbon fiber rope or area, the preform refers to does not have the body of weaving before densifying the sclerosis, then obtains the crucible bang of sclerosis through densifying the processing. The densification hardening includes vapor deposition, liquid deposition, sintering, etc., which are well known technologies and will not be described herein. The support intensity of crucible direction of height has been strengthened to the perpendicular to axial strip of crucible banger, and the level is to the crucible banger circumference intensity increase of spiral weaving, and the diameter is more accurate from top to bottom, adopts the spiral to weave, weaves simplely, has reduced the preparation time, greatly reduced material cost and use cost, and so-called spiral is one kind and is liked the twisted grain curve of spiral and screw.

The present application will be described in detail below with reference to the accompanying drawings. Please refer to fig. 1, which is a schematic view of a crucible of the present application, the crucible of the present application is a spirally woven crucible of a crucible cover, the crucible includes a crucible cover 10 and a crucible bottom 20, the crucible is woven by one or more carbon fiber ropes or belts 30, and one or more carbon fiber ropes or belts 30 are one of carbon fiber, ceramic fiber or metal fiber. The crucible pot includes a plurality of axial strips 50, one or more the carbon fiber rope or belt is wound the axial strips spiral is woven. The crucible bottom is a bowl-shaped body or other shapes, and can be one of the whole crucible bottom made of carbon-carbon materials, the whole crucible bottom made of graphite materials, the spirally woven crucible bottom, the alternately woven crucible bottom or the combined crucible bottom of a split structure of the whole crucible bottom. In the embodiment of the present application, as shown in fig. 1, the crucible bottom is a bowl-shaped reticular body, that is, belongs to a crucible bottom which is woven in a staggered manner, and is woven by one or more carbon fiber ropes or belts, as shown in fig. 7, the crucible bottom 20 comprises a bowl body portion 21 or can simultaneously comprise a bowl bottom portion 22, but the present application is not limited thereto.

An embodiment of the crucible pot of the application is: the crucible pot comprises: a middle ring part 12 and a sealing part at least at one end, in the embodiment of fig. 1, the number of the sealing parts is two, that is, an upper sealing part 11 and a lower sealing part 13, but it should be understood that the present application is not limited thereto, and it is within the scope of the present application that less than one of them can be stably connected, the upper sealing part 11, the middle ring part 12 and the lower sealing part 13 are sequentially connected, wherein the middle ring part 12 is an annular hollow body having a substantially cylindrical hollow shape opened at an upper surface and a lower surface, the annular hollow body of the middle ring part 12 is formed by weaving one or more carbon fiber ropes or tapes 30 to cross with respect to the axial strips 50 in a spiral weaving manner, the angle between the axial strips and the spiral weaving direction of one or more carbon fiber ropes or tapes is more than 70 degrees and less than 90 degrees, as shown in fig. 1, in the embodiment, the angle between one or more carbon fiber ropes or tapes spirally woven around the axial strips is 89 degrees, but can not be used for limiting the application, and the protection scope of the application is only that the angle is small and the circumferential strength is large, and the axial strip is parallel to the central axis of the crucible pot. Each of the one or more carbon fiber ropes or belts 30 includes a plurality of fiber yarns, the center of the rope is the fiber yarn parallel to the axis of the rope, and the fiber yarn parallel to the axis is covered with a fiber braided tube 40, wherein the fiber braided tube 40 is as shown in fig. 3.

The plurality of axial strips can be pre-embedded, and the pre-embedded axial strips mean that a designed number of hard axial strips are axially inserted into a preset position, and then one or more carbon fiber ropes or belts are wound and covered on the axial strips. The hard axial strip is one of a carbon rod, a graphite rod, a high-temperature ceramic rod and a high-temperature metal rod, and the axial strip is parallel to the central shaft of the crucible pot. When a rigid axial strip is used, the axial strip and the upper and lower sealing edge portions 11 and 13 may be unconnected or in contact.

The upper edge sealing part 11 and the lower edge sealing part 13 are annular bodies and are formed by weaving one or more carbon fiber ropes or belts 30, so that the tail end of the edge sealing is not easy to loosen. Referring to fig. 1, when the axial strips 50 are connected with the middle ring part 12, the axial strips are surrounded by one or more carbon fiber ropes or belts inside and outside the middle ring part, and the axial strips 50 are interlaced and connected at an outer time when meeting the middle ring part 12 from top to bottom or from bottom to top; the axial strips 50 can secure the height of the crucible pot 10 because they are parallel to the central axis.

The axial strips 50 are connected to one or more carbon fiber ropes or belts in a spiral weave so that the mesh body can be enlarged in the circumferential direction when a force expanding in the circumferential direction acts on the crucible, thereby absorbing the expansion in the circumferential direction. Therefore, breakage of the fiber is unlikely to occur, the shape is not largely lost, and thus the crucible has excellent shape stability. And only one direction of weaving mode is available, so that the weaving is simpler.

The carbon fiber ropes or ribbons 30 are each formed by bundling about tens of thousands of fibers. As the fibers constituting the carbon fiber rope or tape 30, pitch-based fibers, PAN-based fibers, viscose-based fibers, and the like can be used. The fibers making up the carbon fiber rope or ribbon 30 may be the same material or different materials.

The upper and lower hem portions 11 and 13 are knitted or woven, and as shown in fig. 4, 5 and 6, the upper and lower hem portions 11 and 13 are formed by knitting one or more carbon fiber ropes or tapes 30 in various knitting manners.

In addition, the axial strips 50 may be longer, and both ends of the axial strips are respectively connected with the upper sealing edge part 11 and the lower sealing edge part 13 to increase the strength; when the axial strips are made of soft materials such as carbon fiber ropes, the upper edge sealing part is connected with the axial strips in a weaving mode, and the lower edge sealing part can also be connected with the axial strips in a weaving mode. In general, the axial strips may or may not be connected to the upper and lower hem portions 11, 13. If the connection is carried out, the connection is suitable for the axial strips and the carbon fiber ropes, so that the connection can be fixed together with the circumferential carbon fiber ropes in a mixed manner. The connection is generally not required because the circumferential carbon fiber rope has already tightly fixed the axial strips, and the axial strips are connected with the upper sealing edge part 11 and the lower sealing edge part 13 in a contact manner.

Referring to fig. 2, another embodiment of the crucible cover of the present application is schematically illustrated, and the difference between the embodiment of the present application and the embodiment of fig. 1 is that there is no upper sealing edge portion and no lower sealing edge portion, and the crucible cover only has a middle ring portion 12; the crucible nation is woven by one or more carbon fiber rope or area and is formed, the crucible nation includes several axial strip 50, axial strip and one or many carbon fiber rope or area are in same curved surface, the axial strip is on a parallel with the center pin of crucible nation, one or many carbon fiber rope or area twine around the cladding the axial strip, carbon fiber rope or area wind axial strip spiral is woven, axial strip and one or many the carbon fiber rope or area spiral are woven the contained angle of direction and are being greater than 70 degrees and be less than 90 degrees, as shown in fig. 2, in this embodiment, one or many carbon fiber rope or area wind the angle that axial strip spiral was woven is 89 degrees, but can not be used to restrict this application, and the angle is little as long as can guarantee that circumference intensity is big, all should be the protection scope of this application. As shown in fig. 2, the crucible cover in this embodiment does not have an upper edge sealing portion and a lower edge sealing portion, and after one or more carbon fiber ropes or belts are spirally woven around the axial strips, one or more carbon fiber ropes or belts are fixed at both ends, so that the carbon fiber ropes or belts are ensured not to be loosened, and the crucible cover does not need to be densely woven.

The weave pattern of this embodiment we refer to as a spiral weave pattern. When the spiral weaving is carried out, the middle ring part comprises a plurality of axial strips for supporting, so that the edge sealing part can be omitted, or the edge sealing part can be simply surrounded and is not in a compact shape.

The embodiment of the present application will be described below with reference to the pot bottom being a bowl-shaped mesh body, as shown in fig. 1, the pot bottom is a alternately woven pot bottom, and is woven by one or more carbon fiber ropes or belts, and the pot bottom 20 includes a bowl body portion 21 or may include a bowl bottom portion 22 at the same time, but it should not be construed as limiting the present application. In fig. 7 the bowl body 21 is a bowl-shaped netted body, and is woven with one or more carbon fiber ropes or bands to form, the bowl body 21 includes a plurality of axial strips, one or more the carbon fiber rope or band wind axial strip spiral is woven, axial strip and one or more the carbon fiber rope or band spiral are woven the contained angle of direction and are greater than 70 degrees and are less than 90 degrees.

In addition, the bowl body 21 is connected with the bowl bottom 22 by weaving. Further, as shown in fig. 7, 8 and 9, in the first embodiment, the net-shaped body knitted by the bowl bottom 22 in a dense state includes a part of one or more carbon fiber ropes or belts radiating outward from the center of the circle and a part of one or more carbon fiber ropes or belts encircling the circle, when two parts of the carbon fiber ropes or belts cross, the one or more carbon fiber ropes or belts radiating outward from the center of the circle are in a state of being crossed above the one or more carbon fiber ropes or belts encircling the circle at a time, and are in a state of being crossed and connected in a dense state at a time below the one or more carbon fiber ropes or belts encircling the circle at a time. As used herein, the term "compact" refers to a state in which carbon fiber ropes or tapes are held against each other without intentionally leaving voids.

Referring to fig. 10, in a second embodiment, the densely woven mesh body of the bowl bottom 22 includes a first group of carbon fiber ropes or belts and a second group of carbon fiber ropes or belts; the carbon fiber ropes or belts forming the first group of carbon fiber ropes or belts have the same direction, and the carbon fiber ropes or belts forming the second group of carbon fiber ropes or belts have the same direction; the first group of carbon fiber ropes or belts are arranged above the second group of carbon fiber ropes or belts at one time, and the second group of carbon fiber ropes or belts are arranged below the first group of carbon fiber ropes or belts at one time in a cross connection mode to form a compact shape. As used herein, the term "compact" refers to a state in which carbon fiber ropes or tapes are held against each other without intentionally leaving voids.

In another embodiment, as shown in fig. 11, the densely woven mesh body of the bowl bottom 22 includes at least two groups of carbon fiber ropes or belts; the first group of carbon fiber ropes or belts are woven in a staggered mode from the center of a circle to the outside in a radial mode, the second group of carbon fiber ropes or belts are connected in a compact mode in a surrounding mode around the first group of carbon fiber ropes or belts, the first group of carbon fiber ropes or belts radiating from the center of a circle to the outside are connected above the second group of carbon fiber ropes or belts in a surrounding mode, and the first group of carbon fiber ropes or belts are connected in a crossed mode below the second group of carbon fiber ropes or belts in a surrounding mode in a timely and compact mode. As used herein, the term "compact" refers to a state in which carbon fiber ropes or tapes are held against each other without intentionally leaving voids.

As described above, the three shapes of the net-shaped body of the bowl bottom 22 are not intended to limit the present invention, and the present invention should be construed as being limited thereto as long as the net-shaped body is formed in a woven manner.

The crucible of this application adopts fibre combined material's carbon fiber rope or area 30 to weave, need not make the idiosome, and the shape of crucible does not receive the restriction of idiosome, can design in a flexible way, because the raw materials specification is unified, can batch production, and production efficiency improves greatly moreover, shortens greatly in crucible manufacture in-process during labour time simultaneously, so the cost is lower, and delivery cycle is short, easily supplies.

Compared with the prior art, the method has the advantages and positive effects that the method adopts the technology as follows:

firstly, the circumferential strength of the crucible is increased, and the upper diameter and the lower diameter are more accurate;

secondly, the crucible is woven in a spiral mode, weaving is simpler, the bottom of a bowl at the bottom of the crucible is closely processed, and supporting strength of the crucible bottom is enhanced;

third, the crucible of this application has designed the axial strip, can ensure rigidity and the intensity of crucible bang direction of height.

Of course, it is not necessary to implement any particular embodiment of the present invention to achieve all of the above technical effects at the same time.

The above disclosure is only for the preferred embodiment of the present invention, but not intended to limit itself, and those skilled in the art can make variations and changes equally without departing from the spirit of the present invention, and all such variations and changes are deemed to fall within the scope of the present invention.

Claims (8)

1. A woven crucible is characterized by comprising a crucible side and a crucible bottom, wherein the crucible side and the crucible bottom are two separated parts, the crucible side is woven by one or more carbon fiber ropes or belts, the crucible side comprises a plurality of axial strips, and one or more carbon fiber ropes or belts are spirally woven around the axial strips;

the crucible bottom is one of a whole crucible bottom made of carbon and carbon materials, a whole crucible bottom made of graphite materials, a spirally woven crucible bottom, a staggered woven crucible bottom or a combined crucible bottom with a split structure of the whole crucible bottom.

2. The woven crucible of claim 1, wherein the crucible pot comprises: well ring portion and the edge sealing portion of at least one end, wherein, well ring portion is an annular cavity dictyosome, well ring portion includes a plurality of axial strip, axial strip and one or many the carbon fiber rope or the area spiral braid direction's contained angle is for being greater than 70 degrees and being less than 90 degrees.

3. The woven crucible of claim 1, wherein the crucible pot comprises: the middle ring part is an annular hollow reticular body and comprises a plurality of axial strips, and the included angle between each axial strip and one or more carbon fiber ropes or carbon fiber ropes in the spiral weaving direction is larger than 70 degrees and smaller than 90 degrees.

4. The woven crucible of claim 2 or 3, wherein the axial strips are surrounded by one or more carbon fiber cords or tapes of the middle ring portion, interweaved at an outer time and an inner time.

5. The woven crucible of claim 4, wherein the crucible bottom comprises a bowl bottom, and the net-shaped body woven densely at the bowl bottom comprises one or more carbon fiber ropes or belts partially radiating from the center of the circle and one or more carbon fiber ropes or belts partially encircling the circle, and the one or more carbon fiber ropes or belts radiating from the center of the circle are crossly connected compactly at a time above the one or more carbon fiber ropes or belts encircling the circle and at a time below the one or more carbon fiber ropes or belts encircling the circle.

6. The woven crucible of claim 4, wherein said crucible bottom comprises a bowl bottom, said bowl bottom densely woven mesh comprising a first plurality of carbon fiber strands or ribbons and a second plurality of carbon fiber strands or ribbons; the carbon fiber ropes or belts forming the first group of carbon fiber ropes or belts have the same direction, and the carbon fiber ropes or belts forming the second group of carbon fiber ropes or belts have the same direction; the first group of carbon fiber ropes or belts are arranged above the second group of carbon fiber ropes or belts at one time, and the second group of carbon fiber ropes or belts are arranged below the first group of carbon fiber ropes or belts at one time in a cross connection mode to form a compact shape.

7. The woven crucible of claim 4, wherein said crucible bottom comprises a bowl bottom, said bowl bottom densely woven mesh comprising at least two groups of carbon fiber ropes or ribbons; the first group of carbon fiber ropes or belts are woven in a staggered mode from the center of a circle to the outside in a radial mode, the second group of carbon fiber ropes or belts are connected in a compact mode in a surrounding mode around the first group of carbon fiber ropes or belts, the first group of carbon fiber ropes or belts radiating from the center of a circle to the outside are connected above the second group of carbon fiber ropes or belts in a surrounding mode, and the first group of carbon fiber ropes or belts are connected in a crossed mode below the second group of carbon fiber ropes or belts in a surrounding mode in a timely and compact mode.

8. The woven crucible of claim 4, wherein the crucible bottom comprises a bowl body portion, the bowl body portion is a bowl-shaped net body and is woven by one or more carbon fiber ropes or belts, the bowl body portion comprises a plurality of axial strips, one or more carbon fiber ropes or belts are spirally woven around the axial strips, and an included angle between the axial strips and the direction in which one or more carbon fiber ropes or belts are spirally woven is greater than 70 degrees and less than 90 degrees.

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