CN116180054A

CN116180054A - Reinforced graphite boat

Info

Publication number: CN116180054A
Application number: CN202310475597.4A
Authority: CN
Inventors: 吕尊华; 姚亮; 徐勤晟
Original assignee: Fujian Fucan New Material Technology Co ltd
Current assignee: Fujian Fucan New Material Technology Co ltd
Priority date: 2023-04-28
Filing date: 2023-04-28
Publication date: 2023-05-30
Anticipated expiration: 2043-04-28
Also published as: CN116180054B

Abstract

The invention relates to the technical field of graphite boats and discloses a reinforced graphite boat, which comprises a bearing plate, wherein two ends of the bearing plate are fixedly connected with side plates, a fixed frame is assembled on one side plate in a sliding manner, a plurality of mounting frames are assembled on the fixed frame, and graphite boat plates are assembled on a plurality of mounting frames; the fixed frame is provided with equidistant adjusting components, and the equidistant adjusting components comprise adjusting components and driving components; and a plurality of mounting frames and corresponding graphite boat plates are provided with dismounting mechanisms. The graphite boat provided by the invention replaces the traditional graphite boat structure, a worker can carry out equidistant adjustment on a plurality of graphite boat plates through the equidistant adjusting assembly, the distance between two adjacent graphite boat plates can be quickly adjusted, convenience is brought to the actual use of the graphite boat, and secondly, the worker can quickly assemble and disassemble the graphite boat plates through the disassembling and assembling mechanism, so that the graphite boat plates are conveniently cleaned, and the operation is convenient.

Description

Reinforced graphite boat

Technical Field

The invention relates to the technical field of graphite boats, in particular to a reinforced graphite boat.

Background

The graphite boat is a graphite mould, the graphite mould is a carrier, raw materials and parts which are needed to be positioned or shaped by people can be placed in the graphite mould together, the graphite mould is formed by high-temperature sintering, the artificial graphite is selected to be formed by machining, corresponding electrode sheets are stored, the electrode sheets are used as the positive electrode and the negative electrode of a power supply, an electric field is generated, gas is ionized into plasma, and a new film layer is formed.

The prior art (CN 106222629B) discloses a graphite boat for coating, belongs to the technical field of solar cell coating, and is designed for solving the problem of uneven film thickness in the conventional graphite boat coating process. The graphite boat for coating provided by the technical scheme comprises a plurality of first graphite boat sheets which are arranged at intervals; the first graphite boat piece is provided with a silicon wafer coating area and a specific area, and the specific area deviates from the silicon wafer coating area by a preset distance; the specific area resistivity of each first graphite boat piece increases gradually along the center of the graphite boat towards the outside, and the film thickness of the film plating graphite boat for film plating provided by the technical scheme is more uniform, the proportion of failed pieces can be reduced, and the battery efficiency is improved, however, the technical scheme has at least the following defects in actual use: (1) In the actual use process of the graphite boat, a worker needs to adjust the distance between two adjacent graphite boat sheets, and the boat pages of the graphite boat provided by the technical scheme are only separated by a cylindrical ceramic tube, so that the adjustment is not easy, the operation is very complicated, and the actual use of the graphite boat is not facilitated; (2) The graphite boat needs to be cleaned after being used for a period of time, but the boat pages of the graphite boat provided by the technical scheme are inconvenient to detach and cannot be quickly detached.

Therefore, there is a need to design a reinforced graphite boat to solve the above problems.

Disclosure of Invention

The invention aims to solve the defects in the prior art and provides a reinforced graphite boat.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the reinforced graphite boat comprises a bearing plate, wherein two ends of the bearing plate are fixedly connected with side plates, a fixing frame is assembled on one side plate in a sliding manner, a plurality of mounting frames are assembled on the fixing frame, and graphite boat plates are assembled on the plurality of mounting frames;

the fixed frame is provided with equidistant adjusting components, and the equidistant adjusting components comprise adjusting components and driving components;

and a plurality of mounting frames and corresponding graphite boat plates are respectively provided with a dismounting mechanism, and the dismounting mechanisms comprise mounting assemblies, dismounting assemblies and control assemblies.

As a preferable technical scheme of the invention, the adjusting assembly comprises a first slide rail, a first slide seat, a first slide plate, an adjusting plate, a plurality of adjusting slide ways and a plurality of adjusting blocks, wherein the first slide rail is fixedly connected to a fixed frame, the first slide seat is slidably assembled on the first slide rail, the first slide plate is fixedly connected to the first slide seat, the adjusting plate is slidably assembled on the fixed frame, the adjusting plate slides up and down in the vertical direction, the adjusting slide ways are respectively arranged on the adjusting plate, the adjusting blocks are respectively fixedly connected to the slide plates, the adjusting blocks are respectively slidably connected to the adjusting slide ways, and the adjusting plates are respectively fixedly connected with the mounting frames.

As a preferable technical scheme of the invention, the driving assembly comprises a screw, a lifting seat, a second slide rail, a bearing seat, a rotating shaft and a rotating block, wherein one end of the screw is rotationally assembled on a fixing frame, the bearing seat is fixedly connected on the fixing frame, the other end of the screw is rotationally assembled on the bearing seat, the lifting seat is in threaded sleeve joint with the screw, the lifting seat is fixedly connected on an adjusting plate, the second slide seat is fixedly connected on the adjusting plate, the second slide rail is fixedly connected on the fixing frame, the second slide seat is slidingly assembled on the second slide rail, one end of the rotating shaft is fixedly connected with one end of the screw, and the other end of the rotating shaft penetrates through the fixing frame and is fixedly connected with the rotating block.

As a preferable technical scheme of the invention, the mounting assembly comprises two openings, two clamping blocks, four limiting grooves, four limiting blocks, four first springs and two clamping grooves, wherein the two openings are formed in the mounting frame, the two clamping blocks are respectively and slidably assembled in the two openings, the four limiting grooves are formed in a group by group and are respectively formed in the inner surfaces of the two openings, the four limiting blocks are respectively and fixedly connected to the two clamping blocks, the four limiting blocks are respectively and slidably connected in the four limiting grooves, one ends of the four first springs are respectively connected with the groove walls of the four limiting grooves, the other ends of the four first springs are respectively connected with the four limiting blocks, and the two clamping grooves are formed in the graphite boat plate.

As a preferable technical scheme of the invention, the dismounting assembly comprises two limit sleeves, two sliding rods, a supporting rod and two tension springs, wherein the two limit sleeves are fixedly connected to the inner face of the mounting frame through the supporting rod, the two sliding rods are respectively and slidably assembled in the two limit sleeves, one ends of the two tension springs are connected to the inner face of the mounting frame, the other ends of the two tension springs are respectively connected with the two sliding rods, and the ends, far away from each other, of the two sliding rods are respectively opposite to the two clamping blocks.

As a preferable technical scheme of the invention, the control component comprises a slideway, a control block, two guide grooves, two guide blocks, two springs II and a connecting block, wherein the slideway is arranged on the bottom surface of the installation frame and is communicated with the inside of the installation frame, the control block is slidingly assembled in the slideway, the two guide grooves are arranged on the inner surface of the slideway, the two guide blocks are respectively and fixedly connected to the control block, the two guide blocks are respectively and slidingly connected in the two guide grooves, one end of each spring II is respectively connected with the two guide grooves, the other end of each spring II is respectively connected with the two guide blocks, the connecting block is fixedly connected to the bottom surface of the control block, the connecting block extends to the outside of the slideway, and the control block is arranged opposite to one end, close to the two sliding rods.

As a preferable technical scheme of the invention, the top end of the control block is provided with two inclined planes with opposite inclined directions, and one ends of the two sliding rods, which are opposite to each other, are respectively opposite to the two inclined planes.

As a preferable technical scheme of the invention, the top ends and the bottom ends of the regulating slide ways are all positioned on the same horizontal line, the regulating slide ways are all obliquely arranged, the distances between the top ends of two adjacent regulating slide ways are the same, the distances between the bottom ends of two adjacent regulating slide ways are the same, and the regulating slide ways jointly form an axisymmetric structure.

As a preferable technical scheme of the invention, the outer edge of the adjusting block is mutually attached with the inner face of the adjusting slide way.

As a preferable technical scheme of the invention, the screw block is provided with a screw groove with a regular hexagon cross section.

The invention has the following beneficial effects:

according to the invention, by arranging the equidistant adjusting assemblies, a worker can carry out equidistant adjustment on a plurality of graphite boat plates through the equidistant adjusting assemblies, so that the traditional graphite boat structure is replaced, the distance between two adjacent graphite boat plates can be quickly adjusted, and convenience is brought to the actual use of the graphite boat;

according to the invention, by arranging the dismounting mechanism, a worker can quickly dismount and mount the graphite boat plate through the dismounting mechanism, so that the graphite boat plate is convenient to clean, and the operation is convenient.

In summary, under the cooperation of the parts, the reinforced graphite boat provided by the invention replaces the traditional graphite boat structure, a worker can carry out equidistant adjustment on a plurality of graphite boat plates through equidistant adjustment assemblies, the distance between two adjacent graphite boat plates can be quickly adjusted, convenience is brought to the actual use of the graphite boat, and secondly, the worker can quickly assemble and disassemble the graphite boat plates through the disassembly and assembly mechanism, so that the graphite boat plates are convenient to clean and convenient to operate.

Drawings

FIG. 1 is a schematic view of a reinforced graphite boat according to the present invention;

FIG. 2 is a schematic structural view of an adjustment assembly;

FIG. 3 is a schematic diagram of a driving assembly;

FIG. 4 is an enlarged view of the structure at A of FIG. 2;

FIG. 5 is a schematic diagram of an exploded construction of the mounting frame and graphite boat plate;

FIG. 6 is an enlarged view of the structure at B of FIG. 5;

fig. 7 is an enlarged view of the structure at C of fig. 5.

In the figure: 1 bearing plate, 2 side plates, 3 fixing frames, 4 mounting frames, 5 graphite boat plates, 6 equidistant adjusting components, 61 adjusting components, 611 sliding rail I, 612 sliding seat I, 613 sliding plates, 614 adjusting plates, 615 adjusting sliding ways, 616 adjusting blocks, 62 driving components, 621 screw rods, 622 lifting seats, 623 sliding seat II, 624 sliding rails II, 625 bearing seats, 626 rotating shafts, 627 rotating blocks, 7 dismounting mechanisms, 71 mounting components, 711 openings, 712 clamping blocks, 713 limiting grooves, 714 limiting blocks, 715 spring I, 716 clamping grooves, 72 dismounting components, 721 limiting sleeves, 722 sliding rods, 723 supporting rods, 724 tension springs, 73 control components, 731 sliding ways, 732 control blocks, 733 guide grooves, 734 guide blocks, 735 spring II and 736 connecting blocks.

Description of the embodiments

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

Referring to fig. 1-7, a reinforced graphite boat comprises a bearing plate 1, wherein two ends of the bearing plate 1 are fixedly connected with side plates 2, a fixing frame 3 is slidably arranged on one side plate 2, a plurality of mounting frames 4 are arranged on the fixing frame 3, and graphite boat plates 5 are arranged on the plurality of mounting frames 4;

the fixed frame 3 is provided with equidistant adjusting components 6, and the equidistant adjusting components 6 comprise adjusting components 61 and driving components 62;

the mounting frames 4 and the graphite boat plates 5 are respectively provided with a dismounting mechanism 7, and the dismounting mechanisms 7 comprise mounting assemblies 71, dismounting assemblies 72 and control assemblies 73.

Referring to fig. 2, the adjusting assembly 61 includes a first slide rail 611, a first slide carriage 612, a plurality of slide plates 613, an adjusting plate 614, a plurality of adjusting slide ways 615 and a plurality of adjusting blocks 616, the first slide rail 611 is fixedly connected to the fixed frame 3, the first slide carriage 612 is slidably assembled on the first slide rail 611, the plurality of slide plates 613 are fixedly connected to the first slide carriage 612, the adjusting plate 614 is slidably assembled on the fixed frame 3, the adjusting plate 614 slides up and down in the vertical direction, the plurality of adjusting slide ways 615 are opened on the adjusting plate 614, the plurality of adjusting blocks 616 are fixedly connected to the plurality of slide plates 613, the plurality of adjusting blocks 616 are slidably connected to the plurality of adjusting slide ways 615, and the plurality of adjusting plates 614 are fixedly connected to the plurality of mounting frames 4.

Referring to fig. 3, the driving component 62 includes a screw 621, a lifting seat 622, a second slide seat 623, a second slide rail 624, a bearing seat 625, a rotating shaft 626 and a rotating block 627, one end of the screw 621 is rotatably assembled on the fixing frame 3, the bearing seat 625 is fixedly connected on the fixing frame 3, the other end of the screw 621 is rotatably assembled on the bearing seat 625, the lifting seat 622 is in threaded connection with the screw 621, the lifting seat 622 is fixedly connected on the adjusting plate 614, the second slide seat 623 is fixedly connected on the adjusting plate 614, the second slide rail 624 is fixedly connected on the fixing frame 3, the second slide seat 623 is slidingly assembled on the second slide rail 624, one end of the rotating shaft 626 is fixedly connected with one end of the screw 621, and the other end of the rotating shaft 626 passes through the fixing frame 3 and is fixedly connected with the rotating block 627, so that the adjusting plate 614 can move up and down by arranging the driving component 62.

Referring to fig. 5-6, the mounting assembly 71 includes two openings 711, two clamping blocks 712, four limiting grooves 713, four limiting blocks 714, four springs 715 and two clamping grooves 716, the two openings 711 are all formed on the mounting frame 4, the two clamping blocks 712 are respectively assembled in the two openings 711 in a sliding manner, the four limiting grooves 713 are formed in a group by group manner and are respectively formed in the inner surfaces of the two openings 711, the four limiting blocks 714 are formed in a group by group and are respectively fixedly connected to the two clamping blocks 712, the four limiting blocks 714 are respectively connected in the four limiting grooves 713 in a sliding manner, one ends of the four springs 715 are respectively connected with the groove walls of the four limiting grooves 713, the other ends of the four springs 715 are respectively connected with the four limiting blocks 714, the two clamping grooves 716 are formed in the graphite boat plate 5, and the mounting assembly 71 is arranged to facilitate the mounting of the graphite boat plate 5 by workers.

Referring to fig. 5, the dismounting assembly 72 includes two limiting sleeves 721, two sliding rods 722, a supporting rod 723 and two tension springs 724, the two limiting sleeves 721 are fixedly connected to the inner face of the mounting frame 4 through the supporting rod 723, the two sliding rods 722 are respectively slidably assembled in the two limiting sleeves 721, one ends of the two tension springs 724 are connected to the inner face of the mounting frame 4, the other ends of the two tension springs 724 are respectively connected to the two sliding rods 722, and one ends, far away from each other, of the two sliding rods 722 are respectively opposite to the two clamping blocks 712, and the dismounting assembly 72 is arranged to facilitate the dismounting of the graphite boat plate 5 by staff.

Referring to fig. 7, the control assembly 73 includes a slide 731, a control block 732, two guide slots 733, two guide blocks 734, two springs 735 and a connection block 736, the slide 731 is opened on the bottom surface of the mounting frame 4, the slide 731 is communicated with the inside of the mounting frame 4, the control block 732 is slidably assembled in the slide 731, the two guide slots 733 are opened on the inner surface of the slide 731, the two guide blocks 734 are respectively fixedly connected to the control block 732, the two guide blocks 734 are respectively slidably connected in the two guide slots 733, one ends of the two springs 735 are respectively connected to the two guide slots 733, the other ends of the two springs 735 are respectively connected to the two guide blocks 734, the connection block 736 is fixedly connected to the bottom surface of the control block 732, the connection block 736 extends to the outside of the slide 731, and the control block 732 is arranged opposite to the one ends of the two slide bars 722, which are close to each other, so that the staff can conveniently control the positions of the two clamping blocks by arranging the control assembly 73.

Referring to fig. 7, the top end of the control block 732 is provided with two inclined surfaces with opposite inclination directions, and opposite ends of the two sliding rods 722 are respectively opposite to the two inclined surfaces, so that the control block 732 can conveniently drive the two sliding plates 722 to move.

Referring to fig. 2, the top ends and the bottom ends of the plurality of adjusting slides 615 are all located on the same horizontal line, the plurality of adjusting slides 615 are all arranged in an inclined manner, the distances between the top ends of two adjacent adjusting slides 615 are the same, the distances between the bottom ends of two adjacent adjusting slides 615 are the same, the plurality of adjusting slides 615 jointly form an axisymmetric structure, and thus the plurality of sliding plates 613 can do equidistant movement when the adjusting plate 614 moves.

Referring to fig. 4, the outer edge of the adjusting block 616 and the inner surface of the adjusting slide 615 are attached to each other, so that the driving effect of the adjusting plate 614 on the sliding plate 613 can be ensured.

Referring to fig. 3, a screw groove with a regular hexagonal section is formed in the rotary block 627, so that a worker can conveniently rotate the rotary block 627 by using an inner hexagonal wrench.

The specific working principle of the invention is as follows:

when the graphite boat provided by the invention is used, when the distance between two adjacent graphite boat plates 5 is required to be adjusted, a worker uses an inner hexagonal wrench to rotate the rotary block 627, the rotary block 627 can drive the rotary shaft 626 to rotate when rotating, the rotary shaft 626 can drive the screw rod 621 to rotate in the rotating process, under the limiting effect of the sliding rail II 624 and the sliding seat II 623, the screw rod 621 can drive the lifting seat 622 to move up and down when rotating, so that the adjusting plate 614 moves up and down, the adjusting plate 614 can drive the adjusting slide ways 615 to move in the up and down moving process, the top ends and the bottom ends of the adjusting slide ways 615 are all positioned on the same horizontal line, the adjusting slide ways 615 are obliquely arranged, the distance between the top ends of the two adjacent adjusting slide ways 615 is the same, the distance between the bottom ends of the two adjacent adjusting slide ways 615 is the same, and the adjusting slide ways 615 jointly form an axisymmetric structure, so that the adjusting slide ways 616 can respectively drive the sliding plates 616 to move in the moving process, and the adjusting slide plates 613 can be quickly moved in the same in the moving process, and the distance between the adjacent graphite boat plates 613 is convenient and the same in the equidistant adjusting process between the adjacent slide plates 613;

when needing to clear up graphite boat board 5, the staff need pull down graphite boat board 5 from installing frame 4, and specific staff makes mount 3 move down on corresponding curb plate 2, and mount 3 can drive a plurality of installing frame 4 down in the in-process of moving down, because a plurality of installing frame 4 and relevant structure are the same completely, only to the concrete theory of operation of arbitrary one of them installing frame 4 here detailed description: when the mounting frame 4 moves downwards, the connecting block 736 can be in contact with the bearing plate 1 and is extruded mutually, when the connecting block 736 is extruded, the connecting block 736 can move towards the inside of the slide way 731 and drive the control block 732 to move, as two inclined planes with opposite inclined directions are arranged on the control block 732, the control block 732 can extrude one ends of the two sliding rods 722 close to each other in the moving process, so that the two sliding rods 722 are far away from each other, the two clamping blocks 712 can be pushed by the two sliding rods 722 when the two sliding rods 722 are far away from each other, the two clamping blocks 712 can be separated from the two clamping grooves 716 when the two clamping blocks 712 are far away from each other, when the two clamping blocks 712 are completely separated from the two clamping grooves 716, the limit of the two clamping blocks 712 is lacking, the graphite boat plate 5 can be separated from the mounting frame 4, and a worker can conveniently take down the graphite boat plate 5 from the mounting frame 4;

when the graphite boat plate 5 is installed, the worker also moves the fixing frame 3 downwards, the connecting block 736 is abutted against the bearing plate 1, the two clamping blocks 712 are in a mutually separated state according to the process, the worker inserts the graphite boat plate 5 into the installation frame 4, when the graphite boat plate 5 reaches the installation position, the two clamping grooves 716 just move to the position mutually opposite to the two clamping blocks 712, the worker moves the fixing frame 3 upwards until the connecting block 736 is separated from the bearing plate 1, the control block 732 is reset under the action of the elastic force of the springs two 735, the two sliding rods 722 are mutually close under the action of the tensile force of the two tension springs 724, the limitation of the two sliding rods 722 is lacked, the two clamping blocks 712 are mutually close under the action of the elastic force of the corresponding springs one 715, and are respectively clamped into the two clamping grooves 716, and the two clamping blocks 712 can fix the graphite boat plate 5 into the installation frame 4, so that the graphite boat plate 5 can be fixedly installed.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims

1. The reinforced graphite boat is characterized by comprising a bearing plate (1), wherein two ends of the bearing plate (1) are fixedly connected with side plates (2), one side plate (2) is provided with a fixing frame (3) in a sliding manner, the fixing frame (3) is provided with a plurality of mounting frames (4), and a plurality of mounting frames (4) are provided with graphite boat plates (5);

an equidistant adjusting assembly (6) is arranged on the fixing frame (3), and the equidistant adjusting assembly (6) comprises an adjusting assembly (61) and a driving assembly (62);

a plurality of mounting frames (4) and corresponding graphite boat plates (5) are respectively provided with a dismounting mechanism (7), and each dismounting mechanism (7) comprises a mounting assembly (71), a dismounting assembly (72) and a control assembly (73).

2. The reinforced graphite boat of claim 1, wherein the adjusting assembly (61) comprises a first slide rail (611), a plurality of first slide carriages (612), a plurality of sliding plates (613), an adjusting plate (614), a plurality of adjusting slide ways (615) and a plurality of adjusting blocks (616), the first slide rail (611) is fixedly connected to the fixed frame (3), the plurality of first slide carriages (612) are slidably assembled on the first slide rail (611), the plurality of sliding plates (613) are fixedly connected to the plurality of first slide carriages (612), the adjusting plate (614) is slidably assembled on the fixed frame (3), the adjusting plate (614) slides up and down in the vertical direction, the plurality of adjusting slide ways (615) are all opened on the adjusting plate (614), the plurality of adjusting blocks (616) are fixedly connected to the plurality of sliding plates (613), the plurality of adjusting blocks (616) are fixedly connected to the plurality of adjusting slide ways (615), and the plurality of adjusting plates (614) are fixedly connected to the plurality of mounting frames (4).

3. The reinforced graphite boat of claim 2, wherein the driving assembly (62) comprises a screw (621), a lifting seat (622), a second slide seat (623), a second slide rail (624), a bearing seat (625), a rotating shaft (626) and a rotating block (627), one end of the screw (621) is rotatably assembled on the fixing frame (3), the bearing seat (625) is fixedly connected on the fixing frame (3), the other end of the screw (621) is rotatably assembled on the bearing seat (625), the lifting seat (622) is in threaded sleeve connection on the screw (621), the lifting seat (622) is fixedly connected on the adjusting plate (614), the second slide seat (623) is fixedly connected on the adjusting plate (614), the second slide rail (624) is fixedly connected on the fixing frame (3), the second slide seat (623) is slidably assembled on the second slide rail (624), one end of the rotating shaft (626) is fixedly connected with one end of the screw (621), and the other end of the rotating shaft (626) passes through the fixing frame (3) and is fixedly connected with the rotating block (627).

4. The reinforced graphite boat of claim 1, wherein the mounting assembly (71) comprises two openings (711), two clamping blocks (712), four limiting grooves (713), four limiting blocks (714), four springs (715) and two clamping grooves (716), two openings (711) are formed in the mounting frame (4), two clamping blocks (712) are respectively assembled in the two openings (711) in a sliding mode, four limiting grooves (713) are formed in a group mode, the inner faces of the two openings (711) are respectively formed in a group mode, four limiting blocks (714) are respectively formed in a group mode, the limiting blocks (714) are respectively fixedly connected to the two clamping blocks (712), one ends of the four springs (715) are respectively connected with groove walls of the four limiting grooves (713), the other ends of the four springs (715) are respectively connected with the four limiting blocks (714), and the two limiting grooves (716) are formed in the graphite boat (5).

5. The reinforced graphite boat of claim 4, wherein the dismounting assembly (72) comprises two limiting sleeves (721), two sliding rods (722), a supporting rod (723) and two tension springs (724), the two limiting sleeves (721) are fixedly connected to the inner surface of the mounting frame (4) through the supporting rod (723), the two sliding rods (722) are respectively and slidably assembled in the two limiting sleeves (721), one ends of the two tension springs (724) are connected to the inner surface of the mounting frame (4), the other ends of the two tension springs (724) are respectively connected to the two sliding rods (722), and one ends of the two sliding rods (722) which are far away from each other are respectively opposite to the two clamping blocks (712).

6. The reinforced graphite boat of claim 5, wherein the control component (73) comprises a slide (731), a control block (732), two guide grooves (733), two guide blocks (734), two springs (735) and a connecting block (736), the slide (731) is arranged on the bottom surface of the mounting frame (4), the slide (731) is communicated with the inside of the mounting frame (4), the control block (732) is slidingly assembled in the slide (731), the two guide grooves (733) are arranged on the inner surface of the slide (731), the two guide blocks (734) are fixedly connected to the control block (732) respectively, the two guide blocks (734) are slidingly connected to the two guide grooves (733) respectively, one ends of the two springs (735) are connected to the two guide grooves (733) respectively, the other ends of the two springs (735) are connected to the two guide blocks (734) respectively, the connecting block (736) is fixedly connected to the bottom surface of the control block (732), the two guide blocks (734) are fixedly connected to the two guide blocks (734), and the two guide blocks (734) are fixedly connected to the control block (732) and are arranged on the outer sides of the two guide blocks (733) and are arranged close to one end of the two guide blocks (722).

7. The reinforced graphite boat as set forth in claim 6, wherein said control block (732) has two inclined surfaces with opposite inclination directions at its top end, and two opposite ends of said slide bar (722) are respectively opposite to said inclined surfaces.

8. The reinforced graphite boat of claim 2, wherein the top ends and the bottom ends of the plurality of adjustment slideways (615) are all positioned on the same horizontal line, the plurality of adjustment slideways (615) are all arranged obliquely, the distances between the top ends of two adjacent adjustment slideways (615) are the same, the distances between the bottom ends of two adjacent adjustment slideways (615) are the same, and the plurality of adjustment slideways (615) together form an axisymmetric structure.

9. The reinforced graphite boat of claim 2, wherein the outer edge of said adjusting block (616) and the inner face of said adjusting slide (615) are in contact with each other.

10. A reinforced graphite boat as set forth in claim 3, wherein said screw (627) is provided with a groove having a regular hexagonal cross section.