CN218025869U - Split ceramic core welding positioning tool - Google Patents

Abstract

The utility model relates to a split ceramic core tailor-welding positioning tool, which comprises a bottom plate, wherein a ceramic core lower part positioning mechanism and a ceramic core upper part positioning mechanism are arranged on the bottom plate; the ceramic core lower part positioning mechanism comprises a ceramic core lower part adjustable bottom surface positioning mechanism, a ceramic core lower part adjustable first side positioning mechanism, a ceramic core lower part adjustable second side positioning mechanism and a ceramic core lower part adjustable third side positioning mechanism are respectively arranged on the side surface of the ceramic core lower part adjustable bottom surface positioning mechanism, and a ceramic core lower part adjustable top surface positioning mechanism is arranged above the ceramic core lower part adjustable bottom surface positioning mechanism; the adjustable first side positioning mechanism of the lower part of the ceramic core and the adjustable second side positioning mechanism of the lower part of the ceramic core are oppositely arranged. The utility model has simple structure and small occupied space; not only improves the dimensional accuracy and the appearance quality of the combined ceramic core, but also effectively shortens the working hours, reduces the operation difficulty of workers, shortens the production period and improves the production efficiency.

Description

Split ceramic core welding positioning tool

Technical Field

The utility model belongs to the technical field of the casting ceramic core frock, a split type ceramic core welding positioning tool is related to.

Background

The ceramic core that the blade casting adopted is because the shape is complicated, so adopt split type tailor-welding to make, at the in-process of tailor-welding, need carry out accurate regulation to ceramic core upper part and ceramic core lower part, make both fix a position after being in suitable position. At present, workshop workers operate the ceramic core connection processing by means of visual and hand feeling of workers when no auxiliary tool is provided, the visual sense and the touch sense of each worker are different, each state of the combined ceramic core is inconsistent, the operation difficulty is high, the size precision cannot be guaranteed, and the subsequent procedures are greatly influenced.

Disclosure of Invention

An object of the utility model is to provide a split type ceramic core welding positioning tool can solve the frock adjustment precision poor, influences the problem of the ceramic core quality after the welding.

According to the utility model provides a technical scheme: a split ceramic core tailor-welding positioning tool comprises a bottom plate, wherein a ceramic core lower part positioning mechanism and a ceramic core upper part positioning mechanism are arranged on the bottom plate; the ceramic core lower part positioning mechanism comprises a ceramic core lower part adjustable bottom surface positioning mechanism, a ceramic core lower part adjustable first side positioning mechanism, a ceramic core lower part adjustable second side positioning mechanism and a ceramic core lower part adjustable third side positioning mechanism are respectively arranged on the side surface of the ceramic core lower part adjustable bottom surface positioning mechanism, and a ceramic core lower part adjustable top surface positioning mechanism is arranged above the ceramic core lower part adjustable bottom surface positioning mechanism; the adjustable first side positioning mechanism of the lower part of the ceramic core and the adjustable second side positioning mechanism of the lower part of the ceramic core are oppositely arranged, and the adjustable third side positioning mechanism of the lower part of the ceramic core is positioned between the adjustable first side positioning mechanism of the lower part of the ceramic core and the adjustable second side positioning mechanism of the lower part of the ceramic core.

As a further improvement of the present invention, the adjustable bottom surface positioning mechanism of the ceramic core lower part comprises a first positioning pin on the bottom surface of the ceramic core lower part, a second positioning pin on the bottom surface of the ceramic core lower part, and a third positioning pin on the bottom surface of the ceramic core lower part, wherein the first positioning pin on the bottom surface of the ceramic core lower part, the second positioning pin on the bottom surface of the ceramic core lower part, and the third positioning pin on the bottom surface of the ceramic core lower part respectively slide in a sixth positioning column of the ceramic core, a second positioning column of the ceramic core, and an eleventh positioning column of the ceramic core; a sliding groove and an adjusting groove are formed in the eleventh positioning column of the ceramic core, the sliding groove is located above the adjusting groove, a third positioning pin on the bottom surface of the lower part of the ceramic core slides in the sliding groove, a locking bolt is arranged on the side surface of the sliding groove, and the locking bolt is in threaded connection with the eleventh positioning column of the ceramic core.

As a further improvement, the adjustable first side positioning mechanism of the ceramic core lower part comprises a ceramic core lower part first side positioning pin which is transversely moved in a ceramic core fourth positioning column and is tightly supported through a screw.

As a further improvement of the utility model, the adjustable second side positioning mechanism of the ceramic core lower part comprises a ceramic core lower part second side positioning screw which is in transverse threaded connection in a ceramic core tenth positioning column.

As a further improvement of the utility model, the adjustable third side positioning mechanism of parts under the ceramic core includes that part third side left locating pin and ceramic core are down part third side right locating pin under the ceramic core, and part third side left locating pin and ceramic core are down part third side right locating pin and ceramic core incline the slip respectively in the eight reference column of ceramic core and the twelfth reference column of ceramic core under the ceramic core to prop up tightly through the screw.

As a further improvement, the adjustable top surface positioning mechanism of the ceramic core lower part comprises a ceramic core first positioning column, the top of the ceramic core first positioning column is hinged with one end of a ceramic core lower part top surface rotating rod through a pin shaft, the other end of the ceramic core lower part top surface rotating rod is provided with a ceramic core lower part top surface compression screw rod in a threaded manner, and the middle part of the ceramic core lower part top surface rotating rod is fixedly connected with the ceramic core first positioning column through a ceramic core lower part top surface fixing bolt.

The positive progress effect of this application lies in:

the utility model has simple structure and small occupied space; the combined ceramic core has the advantages that the size precision and the appearance quality of the combined ceramic core are improved, the working hours can be effectively shortened, the operation difficulty of workers is reduced, the production period can be shortened, and the production efficiency is improved.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a top view of the present invention.

Fig. 3 isbase:Sub>A sectional viewbase:Sub>A-base:Sub>A in fig. 2.

Fig. 4 is a sectional view taken along line B-B of fig. 2.

Fig. 5 is a cross-sectional view taken along line C-C of fig. 2.

Fig. 6 is a cross-sectional view taken along line D-D in fig. 2.

In fig. 1 to 6, the positioning device includes a first positioning post 2 for ceramic core, a second positioning post 3 for ceramic core, a third positioning post 4 for ceramic core, a fourth positioning post 5 for ceramic core, a fifth positioning post 6 for ceramic core, a sixth positioning post 7 for ceramic core, a seventh positioning post 8 for ceramic core, an eighth positioning post 9 for ceramic core, a tenth positioning post 10 for ceramic core, a tenth positioning post 11 for ceramic core, an eleventh positioning post 12 for ceramic core, a twelfth positioning post 13 for ceramic core, etc.

Detailed Description

It should be noted that the embodiments and features of the embodiments of the present invention may be combined with each other without conflict. The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

In order to make the technical solutions of the present invention better understood by those skilled in the art, the technical solutions in the embodiments of the present invention will be described in detail and completely below with reference to the accompanying drawings in the embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts shall belong to the protection scope of the present invention.

It should be noted that the terms "first," "second," and the like in the description and claims of the present invention and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It should be understood that the data so used may be interchanged as appropriate in order to facilitate the embodiments of the invention described herein. Furthermore, "including" and "having," and like terms, mean that "including" and "having," in addition to those already recited in "including" and "having," other content not already recited in the list; for example, a process, method, system, article, or apparatus that may comprise a list of steps or elements is not necessarily limited to those steps or elements explicitly listed, but may include other steps or elements not explicitly listed or inherent to such process, method, article, or apparatus.

As shown in fig. 1-6, the utility model relates to a split ceramic core tailor-welding positioning tool, which comprises a bottom plate 1, and a ceramic core lower part positioning mechanism and a ceramic core upper part positioning mechanism are arranged on the bottom plate 1.

The ceramic core lower part positioning mechanism comprises a ceramic core lower part adjustable bottom surface positioning mechanism, a ceramic core lower part adjustable first side positioning mechanism, a ceramic core lower part adjustable second side positioning mechanism and a ceramic core lower part adjustable third side positioning mechanism are respectively arranged on the side surface of the ceramic core lower part adjustable bottom surface positioning mechanism, and a ceramic core lower part adjustable top surface positioning mechanism is arranged above the ceramic core lower part adjustable bottom surface positioning mechanism. The adjustable first side positioning mechanism of the lower part of the ceramic core and the adjustable second side positioning mechanism of the lower part of the ceramic core are oppositely arranged, and the adjustable third side positioning mechanism of the lower part of the ceramic core is positioned between the adjustable first side positioning mechanism of the lower part of the ceramic core and the adjustable second side positioning mechanism of the lower part of the ceramic core.

The adjustable bottom surface positioning mechanism of the lower part of the ceramic core adopts three positioning pins to evenly bear the weight of the lower part 41 of the ceramic core according to the principle of three-point surface positioning; the ceramic core lower part bottom surface first positioning pin 30, the ceramic core lower part bottom surface second positioning pin 31 and the ceramic core lower part bottom surface third positioning pin 35 are included, and the ceramic core lower part bottom surface first positioning pin 30, the ceramic core lower part bottom surface second positioning pin 31 and the ceramic core lower part bottom surface third positioning pin 35 respectively slide in the ceramic core sixth positioning column 7, the ceramic core second positioning column 3 and the ceramic core eleventh positioning column 12.

As shown in fig. 3, the eleventh positioning post 12 of the ceramic core is provided with a sliding groove and an adjusting groove 12-1, the sliding groove is located above the adjusting groove 12-1, the third positioning pin 35 on the bottom surface of the lower part of the ceramic core slides in the sliding groove, the adjusting groove 12-1 is used for placing a standard gauge block to accurately adjust the height of the third positioning pin 35 on the bottom surface of the lower part of the ceramic core, the side surface of the sliding groove is provided with a locking bolt 42 for fixing the third positioning pin 35 on the bottom surface of the lower part of the ceramic core in the sliding groove, and the locking bolt 42 is in threaded connection with the eleventh positioning post 12 of the ceramic core.

The specific adjustment operation is as follows: firstly, a proper standard gauge block is placed in the adjusting groove 12-1, then the bottom of the third positioning pin 35 on the bottom surface of the ceramic core lower part is tightly attached to the top of the standard gauge block, finally, the locking bolt 42 is screwed, and the third positioning pin 35 on the bottom surface of the ceramic core lower part is fixed in the sliding groove to complete adjustment.

The first bottom positioning column 7 and the ceramic core second positioning column 3 have the same structure as the ceramic core eleventh positioning column 12.

The adjustable first side positioning mechanism of the ceramic core lower part comprises a ceramic core lower part first side positioning pin 28, and the ceramic core lower part first side positioning pin 28 transversely moves in the ceramic core fourth positioning column 5 and is tightly supported through a screw.

The specific adjustment operation is as follows: the dowels 28 on the first side of the lower part of the ceramic core are slid into place and then tightened by screws.

The adjustable second side positioning mechanism of the ceramic core lower part comprises a second side positioning screw 14 of the ceramic core lower part, and the second side positioning screw 14 of the ceramic core lower part is transversely screwed in the tenth positioning column 11 of the ceramic core.

The specific adjustment operation is as follows: the second side set screw 14 of the lower part of the ceramic core is rotated, and the lateral position of the second side set screw 14 of the lower part of the ceramic core is adjusted by the thread structure.

The adjustable third side positioning mechanism of the ceramic core lower part adopts double-point positioning and is stable in positioning, and comprises a third side left positioning pin 33 of the ceramic core lower part and a third side right positioning pin 33-1 of the ceramic core lower part, wherein the third side left positioning pin 33 of the ceramic core lower part and the third side right positioning pin 33-1 of the ceramic core lower part respectively slide in the ceramic core eighth positioning column 9 and the ceramic core twelfth positioning column 13 in an inclined mode and are supported and tightened through screws.

The specific adjustment operation is as follows: the third side left positioning pin 33 of the lower part of the ceramic core and the third side right positioning pin 33-1 of the lower part of the ceramic core are slid to be in proper positions and then are tightly supported by screws.

The adjustable top surface positioning mechanism of parts includes the first locating post 2 of ceramic core down, and 16 one end of the first locating post 2 top of ceramic core is articulated the lower part top surface swing arm of ceramic core through round pin axle 17, 16 other end screw threads of the lower part top surface swing arm of ceramic core install the lower part top surface compression screw 18 of ceramic core, and 16 middle parts of the lower part top surface swing arm of ceramic core pass through the first locating post 2 fixed connection of lower part top surface fixing bolt 19 of ceramic core and ceramic core.

The specific adjustment operation is as follows: firstly, rotating the ceramic core lower part top surface pressing screw rod 18 to adjust to a proper position, when the ceramic core lower part 41 needs to be pressed, turning over the ceramic core lower part top surface rotary rod 16 to enable the ceramic core lower part top surface pressing screw rod 18 to be located above the ceramic core lower part bottom surface second positioning pin 31, then screwing down the ceramic core lower part top surface fixing bolt 19 to enable the ceramic core first positioning column 2 to be fixed with the ceramic core lower part top surface rotary rod 16, pressing the top surface of the ceramic core lower part 41 at the bottom of the ceramic core lower part top surface pressing screw rod 18, after the splicing welding of the ceramic core upper part 40 and the ceramic core lower part 41 is completed, loosening the ceramic core lower part top surface fixing bolt 19, turning over the ceramic core lower part top surface rotary rod 16, enabling the ceramic core lower part top surface pressing screw rod 18 to leave the position above the ceramic core lower part bottom surface second positioning pin 31, and taking out the ceramic core lower part 41.

The ceramic core upper part positioning mechanism comprises an adjustable bottom surface positioning of the ceramic core upper part, the adjustable bottom surface positioning side of the ceramic core upper part is respectively provided with an adjustable first side positioning mechanism of the ceramic core upper part, an adjustable second side positioning mechanism of the ceramic core upper part and an adjustable third side positioning mechanism of the ceramic core upper part, and an adjustable top surface positioning mechanism of the ceramic core upper part is arranged above the adjustable bottom surface positioning of the ceramic core upper part. The adjustable first side positioning mechanism of the ceramic core upper part and the adjustable second side positioning mechanism of the ceramic core upper part are oppositely arranged, and the adjustable third side positioning mechanism of the ceramic core upper part is positioned between the adjustable first side positioning mechanism of the ceramic core upper part and the adjustable second side positioning mechanism of the ceramic core upper part.

The adjustable bottom surface of the ceramic core upper part is positioned, and three positioning pins are adopted to uniformly bear the gravity of the ceramic core upper part 40 according to the three-point plane-fixing principle; the ceramic core upper part bottom surface positioning device comprises a ceramic core upper part bottom surface first positioning pin 29, a ceramic core upper part bottom surface second positioning pin 36 and a ceramic core upper part bottom surface third positioning pin 37, wherein the ceramic core upper part bottom surface first positioning pin 29, the ceramic core upper part bottom surface second positioning pin 36 and the ceramic core upper part bottom surface third positioning pin 37 respectively slide in a ceramic core sixth positioning column 7, a ceramic core eleventh positioning column 12 and a ceramic core fourth positioning column 5.

The eleventh positioning post 12 for ceramic core and the fourth positioning post 5 for ceramic core have the same structure.

The adjustable first side positioning mechanism of the ceramic core upper part comprises a first side positioning pin 24 of the ceramic core upper part, and the first side positioning pin 24 of the ceramic core upper part is transversely moved in the fourth positioning column 4 of the ceramic core and is tightly supported by a screw.

The specific adjustment operation is as follows: the ceramic core upper part first side positioning pin 24 is slid into place and then tightened by a screw.

The adjustable second side positioning mechanism of the ceramic core upper part comprises a second side positioning screw 15 of the ceramic core upper part, and the second side positioning screw 15 of the ceramic core upper part is transversely screwed in the tenth positioning column 11 of the ceramic core.

The specific adjustment operation is as follows: the second side set screw 15 of the upper part of the ceramic core is rotated, and the horizontal position of the second side set screw 15 of the upper part of the ceramic core is adjusted through the thread structure.

The adjustable third side positioning mechanism of the ceramic core upper part adopts double-point positioning and is stable in positioning, and comprises a third side left positioning block 25 of the ceramic core upper part and a third side right positioning block 39 of the ceramic core upper part, the third side left positioning block 25 of the ceramic core upper part and the third side right positioning block 39 of the ceramic core upper part are respectively and slidably mounted at the tops of a fifth positioning column 6 of the ceramic core and a ninth positioning column 10 of the ceramic core, sliding grooves are formed at the tops of the fifth positioning column 6 of the ceramic core and the ninth positioning column 10 of the ceramic core and are used for guiding the sliding of the third side left positioning block 25 of the ceramic core upper part and the third side right positioning block 39 of the ceramic core upper part, adjusting waist grooves are respectively arranged in the third positioning block 25 of the ceramic core upper part and the third side right positioning block 39 of the ceramic core upper part, a third side left screw 26 of the ceramic core upper part and a third side right screw 38 of the ceramic core upper part are respectively penetrated through the adjusting waist grooves and then are in threaded connection with the fifth positioning column 6 of the ceramic core and the ninth positioning column 10 of the ceramic core, and a third side left positioning pin 27 of the ceramic core upper part and a right positioning pin of the ceramic core upper part are arranged at the outer sides of the third side left positioning block 25 of the ceramic core upper part and the third side of the ceramic core upper part.

The specific adjustment operation is as follows: firstly, appropriate standard gauge blocks are respectively placed between the third side left positioning reference pin 27 of the ceramic core upper part and the third side left positioning block 25 of the ceramic core upper part and between the third side right positioning reference pin of the ceramic core upper part and the third side right positioning block 39 of the ceramic core upper part, then the third side left positioning block 25 of the ceramic core upper part and the third side right positioning block 39 of the ceramic core upper part are tightly attached to one end of the placed standard gauge block, the other end of the standard gauge block is tightly attached to the third side left positioning reference pin 27 of the ceramic core upper part and the third side right positioning reference pin of the ceramic core upper part, finally, the third side left screw 26 of the ceramic core upper part and the third side right screw 38 of the ceramic core upper part are fixed with the fifth positioning column 6 of the ceramic core and the ninth positioning column 10 of the ceramic core upper part through the third side left positioning block 25 of the ceramic core upper part and the third side right positioning block 39 of the ceramic core upper part respectively, and the adjustment is completed.

The adjustable top surface positioning mechanism of the ceramic core upper part comprises a ceramic core fourth positioning column 4, the top of the ceramic core fourth positioning column 4 is fixedly connected with one end of a ceramic core upper part quick-detaching rod 22 through a ceramic core upper part top surface fixing bolt 23, and the other end of the ceramic core upper part quick-detaching rod 22 is in threaded installation with a ceramic core upper part top surface compression screw 21.

The specific adjustment operation is as follows: when the ceramic core upper part 40 needs to be pressed, firstly, the ceramic core upper part top surface fixing bolt 23 is screwed down to fix the ceramic core fourth positioning column 4 and the ceramic core upper part quick-release rod 22, then the ceramic core upper part top surface pressing screw rod 21 is rotated to enable the bottom of the ceramic core upper part top surface pressing screw rod 21 to press the top surface of the ceramic core upper part 40, after the ceramic core upper part 40 and the ceramic core upper part 40 are welded, the ceramic core upper part top surface fixing bolt 23 is loosened to move the ceramic core upper part quick-release rod 22 out of the top of the ceramic core fourth positioning column 4, the ceramic core upper part top surface pressing screw rod 21 leaves the position above the ceramic core upper part bottom surface second positioning pin 36, and the ceramic core upper part 40 is taken out.

A ceramic core sixth positioning column 7, a ceramic core eleventh positioning column 12, a ceramic core fourth positioning column 5, a ceramic core fourth positioning column 4, a ceramic core tenth positioning column 11, a ceramic core upper part third side left positioning column 9 and a ceramic core upper part third side right positioning column 13, wherein the ceramic core fourth positioning column 4 is installed on the bottom plate 1.

The ceramic core first positioning column 2, the ceramic core second positioning column 3, the ceramic core third positioning column 4, the ceramic core fourth positioning column 5, the ceramic core fifth positioning column 6, the ceramic core sixth positioning column 7, the ceramic core seventh positioning column 8, the ceramic core eighth positioning column 9, the ceramic core tenth positioning column 10, the ceramic core tenth positioning column 11, the ceramic core eleventh positioning column 12 and the ceramic core twelfth positioning column 13 are arranged on the bottom plate 1.

The head parts of the first locating pin 30 on the bottom surface of the ceramic core lower part, the second locating pin 31 on the bottom surface of the ceramic core lower part, the third locating pin 35 on the bottom surface of the ceramic core lower part, the first side locating pin 28 on the ceramic core lower part, the third left locating pin 33 on the side of the ceramic core lower part, the third right locating pin 33-1 on the side of the ceramic core lower part, the first locating pin 29 on the bottom surface of the ceramic core upper part, the second locating pin 36 on the bottom surface of the ceramic core upper part, the third locating pin 37 on the bottom surface of the ceramic core upper part and the first side locating pin 24 on the ceramic core upper part are provided with ball head structures, and the locating is accurate.

The working process of the utility model is as follows:

firstly, the lower ceramic core part 41 is placed into the lower ceramic core part positioning mechanism for positioning, then the upper ceramic core part 40 is placed into the upper ceramic core part positioning mechanism for positioning, and the lower ceramic core part and the upper ceramic core part are welded together in a gap mode after positioning is completed.

It is to be understood that the above embodiments are merely exemplary embodiments adopted to illustrate the principles of the present invention, and the present invention is not limited thereto. It will be apparent to those skilled in the art that various modifications and improvements can be made without departing from the spirit and substance of the invention, and these modifications and improvements are also considered to be within the scope of the invention.

Claims (6)

1. A split ceramic core tailor-welding positioning tool is characterized by comprising a bottom plate (1), wherein a ceramic core lower part positioning mechanism and a ceramic core upper part positioning mechanism are arranged on the bottom plate (1); the ceramic core lower part positioning mechanism comprises a ceramic core lower part adjustable bottom surface positioning mechanism, a ceramic core lower part adjustable first side positioning mechanism, a ceramic core lower part adjustable second side positioning mechanism and a ceramic core lower part adjustable third side positioning mechanism are respectively arranged on the side surface of the ceramic core lower part adjustable bottom surface positioning mechanism, and a ceramic core lower part adjustable top surface positioning mechanism is arranged above the ceramic core lower part adjustable bottom surface positioning mechanism; the adjustable first side positioning mechanism of the lower part of the ceramic core and the adjustable second side positioning mechanism of the lower part of the ceramic core are oppositely arranged, and the adjustable third side positioning mechanism of the lower part of the ceramic core is positioned between the adjustable first side positioning mechanism of the lower part of the ceramic core and the adjustable second side positioning mechanism of the lower part of the ceramic core.

2. The split type ceramic core tailor-welding positioning tool according to claim 1, wherein the adjustable bottom positioning mechanism of the ceramic core lower part comprises a first positioning pin (30) on the bottom surface of the ceramic core lower part, a second positioning pin (31) on the bottom surface of the ceramic core lower part, and a third positioning pin (35) on the bottom surface of the ceramic core lower part, wherein the first positioning pin (30) on the bottom surface of the ceramic core lower part, the second positioning pin (31) on the bottom surface of the ceramic core lower part, and the third positioning pin (35) on the bottom surface of the ceramic core lower part respectively slide in a sixth positioning pin (7) on the ceramic core, a second positioning pin (3) on the ceramic core, and an eleventh positioning pin (12) on the ceramic core; a sliding groove and an adjusting groove (12-1) are formed in the eleventh positioning column (12) of the ceramic core, the sliding groove is located above the adjusting groove (12-1), a third positioning pin (35) on the bottom surface of the lower part of the ceramic core slides in the sliding groove, a locking bolt (42) is arranged on the side face of the sliding groove, and the locking bolt (42) is in threaded connection with the eleventh positioning column (12) of the ceramic core.

3. The split type ceramic core tailor-welding positioning tool according to claim 1, wherein the adjustable first side positioning mechanism of the ceramic core lower component comprises a ceramic core lower component first side positioning pin (28), and the ceramic core lower component first side positioning pin (28) is laterally moved in the ceramic core fourth positioning post (5) and is fastened by a screw.

4. The split type ceramic core tailor-welding positioning tool according to claim 1, wherein the adjustable second side positioning mechanism of the ceramic core lower component comprises a ceramic core lower component second side positioning screw (14), and the ceramic core lower component second side positioning screw (14) is in transverse threaded connection in the ceramic core tenth positioning column (11).

5. The split type ceramic core tailor-welding positioning tool according to claim 1, wherein the adjustable third side positioning mechanism of the ceramic core lower part comprises a third side left positioning pin (33) of the ceramic core lower part and a third side right positioning pin (33-1) of the ceramic core lower part, and the third side left positioning pin (33) of the ceramic core lower part and the third side right positioning pin (33-1) of the ceramic core lower part respectively slide in the ceramic core eighth positioning column (9) and the ceramic core twelfth positioning column (13) in an inclined manner and are tightly supported by screws.

6. The split type ceramic core welding and positioning tool according to claim 1, wherein the adjustable top surface positioning mechanism of the ceramic core lower part comprises a ceramic core first positioning column (2), the top of the ceramic core first positioning column (2) is hinged to one end of a ceramic core lower part top surface rotating rod (16) through a pin shaft (17), the other end of the ceramic core lower part top surface rotating rod (16) is in threaded installation with a ceramic core lower part top surface pressing screw rod (18), and the middle part of the ceramic core lower part top surface rotating rod (16) is fixedly connected with the ceramic core first positioning column (2) through a ceramic core lower part top surface fixing bolt (19).

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