CN117161472A - Be used for processing cutting equipment of boats and ships deck - Google Patents

Abstract

The invention discloses a ship deck machining and cutting device, and belongs to the technical field of ship deck machining. The utility model provides a be used for boats and ships deck processing cutting equipment, includes the supporting seat, one side of supporting seat is provided with the roll roller, just the upper end surface of supporting seat is provided with the marking off subassembly, through the rotation of rotating the group, can drive the rotation of second threaded rod, and then let the lifter plate descend along with the electromagnetism slide rail descends, simultaneously because the electromagnetism sliding block is connected with the sliding block through the rectangle connecting block, can let the cutting subassembly remove along with the removal of scriber like this, can drive the removal of cutting subassembly along with the removal of scriber like this, thereby let the marking off point of scriber be in same horizon with the cutting point in the cutting subassembly, and then can let the cutting subassembly carry out the operation of accurate location to the cutting line on the boats and ships deck, and improve cutting equipment's cutting precision, thereby cutting equipment's cutting efficiency to boats and ships deck has been accelerated.

Description

Be used for processing cutting equipment of boats and ships deck

Technical Field

The invention relates to the technical field of ship deck processing, in particular to cutting equipment for ship deck processing.

Background

The deck of the ship is an important component of the hull, and is a plane structure above the inner bottom plate in the ship structure, and is used for sealing the space in the ship and horizontally dividing the space into layers. The deck is a steel plate on the beam, which separates the hull into upper, middle and lower layers. The top deck is called the upper deck of the head and tail long deck of the ship. This deck, if all openings are sealed and watertight, may also be referred to as the main deck, also called the tonnage deck when measured. The few ocean vessels also have an upper deck on the main deck that runs through the head and tail of the vessel, and because its opening cannot guarantee watertight, only the deck is masked. Each layer of the long deck below the main deck is called a two-layer deck, a three-layer deck and the like from top to bottom. Above the main deck are short deck sections, which are conventionally named according to the cabin name or purpose of the deck. Such as a driver's deck, a lifeboat deck, etc. The wooden deck barge middle deck boards, also known as decks, are typically mobile.

Current ship deck cutting device is when cutting the deck, needs to draw the cutting line on the deck earlier, cuts corresponding cutting mechanism, because current cutting device can't carry out accurate positioning to the one side cutting width of deck, has the position offset when leading to the cutting, and then has reduced the precision of cutting to and the work efficiency of cutting reduces.

Disclosure of Invention

The invention aims to provide a ship deck machining and cutting device which is used for solving the problems in the background technology.

The utility model provides a be used for boats and ships deck processing cutting equipment, includes the supporting seat, one side of supporting seat is provided with the roller, just the upper end surface of supporting seat is provided with marking assembly, one side of marking assembly is provided with cutting assembly, cutting assembly's lower extreme is provided with adjusting part, adjusting part's lower extreme both sides are provided with the guide block, and the both ends of guide block are provided with the supporting seat, and the supporting seat leans on to the one end outside surface of guide block and is provided with the recess, and the supporting seat leans on to the recess that one end outside surface of guide block set up and agree with adjusting part's whole shell;

the cutting assembly comprises a first driving motor, a first rotating wheel is sleeved at one side output end of the first driving motor, a rotating belt is sleeved on the outer side surface of the first rotating wheel, the other end of the rotating belt is sleeved on the outer side surface of a second rotating wheel, a round rotating rod penetrates through the middle part of the second rotating wheel, a rectangular rotating block is arranged at the lower end of the round rotating rod, a round connecting block is arranged on the outer side surface of the rectangular rotating block, mechanical arms are arranged at two sides of one end of the rectangular rotating block, a second driving motor is arranged at one end of each mechanical arm, a cutting wheel is sleeved at one side output end of each second driving motor, and a sliding block is arranged at the upper end of each first driving motor.

Preferably, the diameter of the first rotating wheel is equal to twenty-four times the diameter of the second rotating wheel, the circular rotating rod is connected with one end surface of the rectangular rotating block by penetrating through the upper end surface of the circular connecting block, the rectangular rotating block is installed in the inner cavity of the circular connecting block, a sliding hole is formed in the middle of the sliding block, a cutting protection shell is arranged on the outer side surface of the cutting wheel, a second driving motor is installed in the inner cavity of the fixed block, and the second driving motor is connected with one end outer side surface of the cutting wheel by penetrating through the cutting protection shell.

Preferably, the scribing assembly comprises an electromagnetic sliding block, a scriber is arranged at the lower end of the electromagnetic sliding block, a rectangular connecting block is arranged on the outer side surface of one end of the electromagnetic sliding block, the electromagnetic sliding block is sleeved on the outer side surface of an electromagnetic sliding rail, two ends of the electromagnetic sliding rail are sleeved on the outer side surface of a first threaded rod, a third driving motor is arranged at the lower end of the first threaded rod, a rotating group is sleeved on the outer side surface of one side output end of the third driving motor, a second threaded rod penetrates through the middle part of the other end of the rotating group, and a lifting plate is sleeved on the outer side surface of the upper end of the second threaded rod.

Preferably, the outer side surfaces of the two ends of the lifting plate are sleeved with the second threaded rod, the lifting plate is connected with the sliding block through the through sliding hole, and the outer side surface of the other end of the rectangular connecting block is connected with the outer side surface of one end of the sliding block.

Preferably, the adjusting component comprises a hydraulic pump, one end of the hydraulic pump is fixedly connected with a rectangular supporting block, a fixing component is arranged in the rectangular supporting block, and a sliding groove is formed in the lower end of the rectangular supporting block.

Preferably, the fixed subassembly is including fourth driving motor, first conical gear has been cup jointed on the outside surface of one side output of fourth driving motor, one side meshing of first conical gear has second conical gear, second conical gear cup joints on the outside surface of third threaded rod, the lower extreme of third threaded rod is provided with the second and rotates the group, the one end that the second rotated the group is provided with the fourth threaded rod, the one end of fourth threaded rod is connected with L type fixed block, the lower extreme of L type fixed block is provided with a plurality of rectangle recess.

Preferably, the sliding groove arranged at the lower end of the rectangular supporting block is matched with the guide block, the rectangular groove is matched with the rolling roller, and the rectangular supporting block is matched with the groove arranged on the outer side surface of one end of the supporting seat, which is close to the guide block.

Compared with the prior art, the invention has the advantages that:

(1) According to the invention, the second threaded rod is driven to rotate through the rotation of the rotating group, so that the lifting plate descends along with the descending of the electromagnetic sliding rail, and meanwhile, the electromagnetic sliding block is connected with the sliding block through the rectangular connecting block, so that the cutting assembly can move along with the movement of the scriber, and the cutting assembly can be driven to move along with the movement of the scriber, so that the scribing point of the scriber and the cutting point in the cutting assembly are positioned on the same horizontal line, the cutting assembly can accurately position the cutting line on the deck of the ship, the cutting precision of the cutting device is improved, and the cutting efficiency of the cutting device on the deck of the ship is accelerated.

(2) According to the invention, the second driving motor is started, so that the cutting wheel is used for cutting the ship deck, when the cutting wheel cuts the cutting line with the bent angle, the first driving motor is started to drive the mechanical arm and the cutting wheel to conduct angle adjustment operation, then the deflection angle of the cutting wheel is adjusted according to the rotating number of turns of the first rotating wheel until the deflection angle of the cutting wheel accords with the angle of the bent angle of the cutting line, and then the cutting wheel is used for continuously cutting along the cutting line, so that the cutting angle can be adjusted, the cutting precision of the cutting wheel is improved, the cutting quality of the ship deck is improved, and meanwhile, the qualification rate of the ship deck after cutting can be increased.

(3) According to the invention, the hydraulic pump is started until one end of the L-shaped fixing block contacts the outer side surface of the ship deck, and when one end of the L-shaped fixing block contacts the outer side surface of the ship deck, the fourth driving motor is started until the lower end surface of the L-shaped fixing block contacts the upper end outer side surface of the ship deck, so that the cutting equipment can perform an adjusting function according to the width and the height of the ship deck, and further, the ship decks with different widths are fixed, and the diversity of fixing the ship decks with different types by the cutting equipment is increased to a certain extent.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic elevational view of the present invention;

FIG. 3 is a schematic view of a cutting assembly according to the present invention;

FIG. 4 is a schematic view of a scribing assembly according to the present invention;

FIG. 5 is a schematic view of the structure of the adjusting assembly of the present invention;

fig. 6 is a schematic structural view of a fixing assembly according to the present invention.

The reference numerals in the figures illustrate: 1. a support base; 2. a rolling roller; 3. a scribing assembly; 301. an electromagnetic sliding block; 302. a rectangular connecting block; 303. an electromagnetic slide rail; 304. a first threaded rod; 305. a third driving motor; 306. a rotating group; 307. a second threaded rod; 308. a lifting plate; 309. a scriber; 4. a cutting assembly; 401. a first driving motor; 402. a first rotating wheel; 403. rotating the belt; 404. a second rotating wheel; 405. a circular rotating rod; 406. a circular connecting block; 407. a rectangular rotating block; 408. a mechanical arm; 409. a second driving motor; 410. a cutting wheel; 411. a sliding block; 5. an adjustment assembly; 501. a hydraulic pump; 502. a rectangular support block; 503. a chute; 504. a fixing assembly; 505. a fourth driving motor; 506. a first bevel gear; 507. a second bevel gear; 508. a third threaded rod; 509. a second rotating group; 510. a fourth threaded rod; 511. an L-shaped fixed block; 512. rectangular grooves; 6. and a guide block.

Detailed Description

Examples: referring to fig. 1-2, a cutting device for processing a ship deck comprises a supporting seat 1, wherein a rolling roller 2 is arranged on one side of the supporting seat 1, a scribing component 3 is arranged on the upper end surface of the supporting seat 1, a cutting component 4 is arranged on one side of the scribing component 3, an adjusting component 5 is arranged at the lower end of the cutting component 4, guide blocks 6 are arranged on two sides of the lower end of the adjusting component 5, the supporting seat 1 is arranged at two ends of the guide blocks 6, a groove is formed on the outer side surface of one end of the supporting seat 1, which is close to the guide blocks 6, of the supporting seat 1, and the groove formed on the outer side surface of one end of the guide blocks 6 is matched with an integral shell of the adjusting component 5;

referring to fig. 3, the cutting assembly 4 includes a first driving motor 401, a first rotating wheel 402 is sleeved at an output end at one side of the first driving motor 401, a rotating belt 403 is sleeved at an outer side surface of the first rotating wheel 402, the other end of the rotating belt 403 is sleeved on an outer side surface of a second rotating wheel 404, a circular rotating rod 405 penetrates through a middle portion of the second rotating wheel 404, a rectangular rotating block 407 is arranged at a lower end of the circular rotating rod 405, a circular connecting block 406 is arranged on an outer side surface of the rectangular rotating block 407, mechanical arms 408 are arranged at two sides of one end of the rectangular rotating block 407, a second driving motor 409 is arranged at one end of the mechanical arm 408, a cutting wheel 410 is sleeved at an output end at one side of the second driving motor 409, and a sliding block 411 is arranged at an upper end of the first driving motor 401.

As a further proposal of the present invention, the diameter of the first rotating wheel 402 is equal to twenty-four times the diameter of the second rotating wheel 404, the circular rotating rod 405 is connected with one end surface of the rectangular rotating block 407 by penetrating through the upper end surface of the circular connecting block 406, the rectangular rotating block 407 is installed in the inner cavity of the circular connecting block 406, the middle part of the sliding block 411 is provided with a sliding hole, the outer side surface of the cutting wheel 410 is provided with a cutting protection shell, and the second driving motor 409 is installed in the inner cavity of the fixed block, and the second driving motor 409 is connected with one end outer side surface of the cutting wheel 410 by penetrating through the cutting protection shell.

Specifically, the cutting wheel 410 in the cutting assembly 4 contacts the upper end surface of the ship deck, the second driving motor 409 is started, so that the cutting wheel 410 performs cutting operation on the ship deck, when the cutting wheel 410 cuts a cutting line with a bent angle, the first driving motor 401 is started to drive the first rotating wheel 402 to rotate, thereby driving the rotating belt 403 to rotate, further driving the second rotating wheel 404 to rotate, driving the circular rotating rod 405 to rotate along with the rotation of the second rotating wheel 404, driving the rectangular rotating block 407 to rotate in the inner cavity of the circular connecting block 406, further driving the mechanical arm 408 and the cutting wheel 410 to perform angle adjustment operation, and then adjusting the deflection angle of the cutting wheel 410 according to the number of turns of the rotation of the first rotating wheel 402 until the deflection angle of the cutting wheel 410 meets the angle of the bent angle of the cutting line, and then enabling the cutting wheel 410 to continue cutting along the cutting line, so that the cutting angle can be adjusted, thereby improving the cutting precision of the cutting wheel 410, further improving the cutting quality of the ship deck, and increasing the qualification rate of the cut ship deck.

Referring to fig. 4, as a further scheme of the present invention, the scribing assembly 3 includes an electromagnetic sliding block 301, a scriber 309 is disposed at a lower end of the electromagnetic sliding block 301, a rectangular connecting block 302 is disposed on an outer side surface of one end of the electromagnetic sliding block 301, the electromagnetic sliding block 301 is sleeved on an outer side surface of the electromagnetic sliding rail 303, two ends of the electromagnetic sliding rail 303 are sleeved on an outer side surface of the first threaded rod 304, a third driving motor 305 is disposed at a lower end of each first threaded rod 304, a rotating group 306 is sleeved on an outer side surface of an output end of one side of the third driving motor 305, a second threaded rod 307 is penetrated at a middle portion of the other end of the rotating group 306, and a lifting plate 308 is sleeved on an outer side surface of an upper end of the second threaded rod 307.

Specifically, the rotation of the rotating group 306 drives the second threaded rod 307 to rotate, so that the lifting plate 308 descends along with the descending of the electromagnetic sliding rail 303, meanwhile, the electromagnetic sliding block 301 is connected with the sliding block 411 through the rectangular connecting block 302, so that the cutting assembly 4 can move along with the movement of the scriber 309, the cutting assembly 4 can be driven to move along with the movement of the scriber 309, the scribing point of the scriber 309 and the cutting point in the cutting assembly 4 are positioned on the same horizontal line, the cutting assembly 4 can accurately position the cutting line on the deck of the ship, and the cutting precision of the cutting equipment is improved, so that the cutting efficiency of the cutting equipment on the deck of the ship is accelerated.

As a further scheme of the present invention, the outer side surfaces of the two ends of the lifting plate 308 are sleeved with the second threaded rods 307, the lifting plate 308 is connected with the sliding block 411 through the through sliding hole, and the outer side surface of the other end of the rectangular rotating block 407 is connected with the outer side surface of one end of the sliding block 411.

Referring to fig. 5, as a further aspect of the present invention, the adjusting assembly 5 includes a hydraulic pump 501, one end of the hydraulic pump 501 is fixedly connected with a rectangular supporting block 502, a fixing assembly 504 is disposed inside the rectangular supporting block 502, and a chute 503 is disposed at the lower end of the rectangular supporting block 502.

Referring to fig. 6, as a further aspect of the present invention, the fixing assembly 504 includes a fourth driving motor 505, a first conical gear 506 is sleeved on an outer side surface of an output end of one side of the fourth driving motor 505, a second conical gear 507 is meshed with one side of the first conical gear 506, the second conical gear 507 is sleeved on an outer side surface of a third threaded rod 508, a second rotating group 509 is disposed at a lower end of the third threaded rod 508, a fourth threaded rod 510 is disposed at one end of the second rotating group 509, an L-shaped fixing block 511 is connected to one end of the fourth threaded rod 510, and a plurality of rectangular grooves 512 are disposed at a lower end of the L-shaped fixing block 511.

As a further aspect of the present invention, the chute 503 provided at the lower end of the rectangular support block 502 is engaged with the guide block 6, the rectangular groove 512 is engaged with the rolling roller 2, and the rectangular support block 502 is engaged with the groove provided on the outer surface of one end of the support seat 1 near the guide block 6.

Specifically, by starting the hydraulic pump 501 in the adjusting assembly 5, the rectangular supporting block 502 is driven to move towards the middle portion along the guide block 6 along with the extension of the hydraulic pump 501 until one end of the L-shaped fixing block 511 contacts the outer side surface of the ship deck, when one end of the L-shaped fixing block 511 contacts the outer side surface of the ship deck, the fourth driving motor 505 in the adjusting assembly 5 is started, and the rotation of the fourth driving motor 505 drives the first bevel gear 506 to drive the rotation of the second bevel gear 507 to drive the rotation of the third threaded rod 508, and the rotation of the third threaded rod 508 drives the rotation of the second rotating group 509 to drive the rotation of the fourth threaded rod 510, and the rotation of the third threaded rod 508 and the fourth threaded rod 510 drives the L-shaped fixing block 511 to move downwards until the lower end surface of the L-shaped fixing block 511 contacts the outer side surface of the upper end of the ship deck, so that the cutting device can perform a fixing operation on the ship decks with different widths according to the widths and heights of the ship decks, and thus the diversity of the cutting device for different types of the ships is increased to a certain extent.

Working principle: firstly, a ship deck to be processed is placed on the upper end surface of a rolling roller 2, then an electric brake is opened, the rolling roller 2 in a cutting device starts to rotate, the rolling roller 2 rotates to drive the ship deck to move forwards, when the ship deck moves below a scribing assembly 3, a hydraulic pump 501 in an adjusting assembly 5 is started according to the width of the ship deck, a rectangular supporting block 502 is driven to move towards the middle part along a guide block 6 along with the stretching of the hydraulic pump 501 until one end of an L-shaped fixed block 511 contacts the outer side surface of the ship deck, when one end of the L-shaped fixed block 511 contacts the outer side surface of the ship deck, a fourth driving motor 505 in the adjusting assembly 5 is started, a first conical gear 506 is driven to rotate along with the rotation of the fourth driving motor 505, a second conical gear 507 is driven to rotate, and a third threaded rod 508 is driven to rotate, the rotation of the third threaded rod 508 drives the second rotation group 509 to rotate and then drives the fourth threaded rod 510 to rotate, and the rotation of the third threaded rod 508 and the fourth threaded rod 510 drives the L-shaped fixing block 511 to move downwards until the lower end surface of the L-shaped fixing block 511 contacts the outer surface of the upper end of the ship deck, so that the cutting device can perform an adjusting function according to the width and the height of the ship deck, and further perform fixing operations on the ship decks with different widths, so that the diversity of fixing different types of ship decks by the cutting device is increased to a certain extent, after the fixing operation of the ship decks by the adjusting assembly 5, the third driving motor 305 is started and drives the rotation of the first threaded rod 304 and the rotation group 306, and when the first threaded rod 304 rotates, the electromagnetic slide rail 303 moves downwards along the first threaded rod 304, thereby driving the scriber 309 to move downwards until the scriber 309 contacts the upper end surface of the ship deck, then driving the electromagnetic sliding block 301 to move left and right along the electromagnetic sliding rail 303 by the electromagnetic sliding rail 303, and further driving the scriber 309 to move left and right along the electromagnetic sliding rail 303, thus, as the ship deck moves forwards, the scriber 309 can perform scribing operation on the upper end surface of the ship deck, and the scribing part on the upper end surface of the ship deck is a cutting part, when the ship deck subjected to scribing operation moves to the position right below the cutting assembly 4, at this time, the scriber 309 performs scribing operation on the next ship deck, as the first threaded rod 304 and the rotating block 306 rotate, the lifting plate 308 is lowered along with the electromagnetic sliding rail 303, and simultaneously, as the electromagnetic sliding block 301 is connected with the sliding block 411 through the rectangular connecting block 302, thus, the cutting assembly 4 performs cutting operation on the ship deck, when the cutting wheel 410 in the cutting assembly 4 moves to the position right below the cutting assembly 4, the second rotating wheel 410 is driven by the circular motor, the cutting wheel 410 is driven by the driving motor 403, and the cutting wheel 410 is driven by the rotating wheel 408, and the rotating arm 404 is driven by the rotating wheel 410, and the rotating shaft, and thus driving the cutting wheel 410 is driven by the rotating wheel 410, the deflection angle of the cutting wheel 410 is then adjusted according to the number of turns of the first turning wheel 402 until the deflection angle of the cutting wheel 410 corresponds to the angle of the corner of the cutting line, and then the cutting wheel 410 is allowed to continue cutting along the cutting line until all the cutting of the deck of the ship is completed, ending all the operations.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present invention, and are not intended to limit the invention, and that various changes and modifications may be made therein without departing from the spirit and scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. Cutting equipment for processing ship decks, comprising a supporting seat (1), and being characterized in that: one side of the supporting seat (1) is provided with a rolling roller (2), the upper end surface of the supporting seat (1) is provided with a scribing component (3), one side of the scribing component (3) is provided with a cutting component (4), the lower end of the cutting component (4) is provided with an adjusting component (5), two sides of the lower end of the adjusting component (5) are provided with guide blocks (6), and two ends of the guide blocks (6) are provided with the supporting seat (1);

the cutting assembly (4) comprises a first driving motor (401), a first rotating wheel (402) is sleeved at one side output end of the first driving motor (401), a rotating belt (403) is sleeved on the outer side surface of the first rotating wheel (402), the other end of the rotating belt (403) is sleeved on the outer side surface of a second rotating wheel (404), a circular rotating rod (405) penetrates through the middle part of the second rotating wheel (404), a rectangular rotating block (407) is arranged at the lower end of the circular rotating rod (405), a circular connecting block (406) is arranged on the outer side surface of the rectangular rotating block (407), mechanical arms (408) are arranged at two sides of one end of the rectangular rotating block (407), a second driving motor (409) is arranged at one end of the mechanical arms (408), a cutting wheel (410) is sleeved at one side output end of the second driving motor (409), and a sliding block (411) is arranged at the upper end of the first driving motor (401).

2. A cutting apparatus for ship deck processing according to claim 1, characterized in that: the diameter of the first rotating wheel (402) is equal to twenty-fourth of the diameter of the second rotating wheel (404), the circular rotating rod (405) is connected with one end surface of the rectangular rotating block (407) by penetrating through the upper end surface of the circular connecting block (406), the rectangular rotating block (407) is installed in an inner cavity of the circular connecting block (406), a sliding hole is formed in the middle of the sliding block (411), and a cutting protection shell is arranged on the outer side surface of the cutting wheel (410).

3. A cutting apparatus for ship deck processing according to claim 2, characterized in that: scribing component (3) is including electromagnetic slide block (301), the lower extreme of electromagnetic slide block (301) is provided with scriber (309), the one end outside surface of electromagnetic slide block (301) is provided with rectangle connecting block (302), just electromagnetic slide block (301) cup joints on the outside surface of electromagnetic slide rail (303), the both ends of electromagnetic slide rail (303) cup joint on the outside surface of first threaded rod (304), every the lower extreme of first threaded rod (304) is provided with third driving motor (305), rotating group (306) have been cup jointed on the outside surface of one side output of third driving motor (305), rotating group's (306) other end middle part has run through second threaded rod (307), the upper end outside surface of second threaded rod (307) cup joints lifter plate (308).

4. A cutting apparatus for ship deck processing according to claim 3, characterized in that: the second threaded rods (307) are sleeved on the outer side surfaces of the two ends of the lifting plate (308), the lifting plate (308) is connected with the sliding block (411) through a penetrating sliding hole, and the outer side surface of the other end of the rectangular rotating block (407) is connected with the outer side surface of one end of the sliding block (411).

5. A cutting apparatus for ship deck processing according to claim 1, characterized in that: the adjusting assembly (5) comprises a hydraulic pump (501), one end of the hydraulic pump (501) is fixedly connected with a rectangular supporting block (502), a fixing assembly (504) is arranged in the rectangular supporting block (502), and a sliding groove (503) is formed in the lower end of the rectangular supporting block (502).

6. A cutting apparatus for ship deck processing according to claim 1, characterized in that: the fixed subassembly (504) is including fourth driving motor (505), first conical gear (506) has been cup jointed on the outside surface of one side output of fourth driving motor (505), one side meshing of first conical gear (506) has second conical gear (507), second conical gear (507) cup joints on the outside surface of third threaded rod (508), the lower extreme of third threaded rod (508) is provided with second rotation group (509), the one end of second rotation group (509) is provided with fourth threaded rod (510), the one end of fourth threaded rod (510) is connected with L type fixed block (511), the lower extreme of L type fixed block (511) is provided with a plurality of rectangle recess (512).

7. A cutting apparatus for ship deck processing according to claim 6, characterized in that: the sliding groove (503) arranged at the lower end of the rectangular supporting block (502) is matched with the guide block (6), the rectangular groove (512) is matched with the rolling roller (2), and the rectangular supporting block (502) is matched with the groove arranged on the outer side surface of one end, close to the guide block (6), of the supporting seat (1).