CN113617554B - Movable cable parallel spraying equipment for ship sectional coating - Google Patents

Abstract

The invention discloses a movable cable parallel spraying device for ship section coating, which comprises a supporting travelling frame, an aerial Y-direction moving mechanism, an aerial X-direction moving mechanism, a Z-direction adjusting mechanism and a ground rail Y-direction moving hydraulic lifting platform, wherein the supporting travelling frame is arranged on the upper portion of the supporting travelling frame; the aerial Y-direction moving mechanism is arranged on the supporting travelling frame to realize Y-direction movement; the aerial X-direction moving mechanism is arranged on the aerial Y-direction moving mechanism to realize X-direction movement; the Z-direction adjusting mechanism is arranged below the aerial X-direction moving mechanism, and the spraying mechanical arm is arranged at the tail end of the spraying mechanical arm; the ground rail Y is to moving hydraulic lifting platform setting in Z to guiding mechanism one side, through parallel cable group and Z to guiding mechanism flexonics, it stabilizes spraying robotic arm, realizes the fine setting of angle through the linkage, through lifting ground rail hoist engine to a take the altitude, effectively avoids parallel cable group and by the interference between the spraying hull. The invention can realize linkage control of large stroke and multiple angles and can meet the spraying requirement of large-scale segmented ship components.

Description

Movable cable parallel spraying equipment for ship sectional coating

Technical Field

The invention relates to ship spraying equipment, in particular to movable cable parallel spraying equipment for ship section coating.

Background

At present, most domestic shipyards still adopt the traditional manual spraying mode to carry out spraying to the segmentation hull. Because the ship body is huge, the coating workers are conveyed to a high position for manual coating by adopting a scaffold type, a mechanical equipment lifting type and a mechanical equipment hoisting type. The mode is dangerous and easy to cause safety accidents, and the ship coating contains a large amount of toxic substances, thereby causing great threat to the health of workers.

Among the prior art, automatic spraying equipment is mostly for multiaxis serial-type robotic arm afterbody installs the spray gun additional and carries out automatic spraying, because sectional type hull structure is comparatively complicated, the shower nozzle need reach various different spraying positions, spraying posture, in order to realize unmanned automatic spraying, need to whole hoist and mount spraying device, apply X to, Y to, Z to the equidimension degree of freedom, but three problem can appear equally: firstly, all adopt the tandem system to connect, realize the multiaxis linkage, can accumulative error, the precision is lower when arriving the end. Secondly, if only X-direction, Y-direction and Z-direction moving mechanisms are added, when the structure of a piece to be sprayed is too complex and dead angles are too large, the whole device cannot be subjected to angle adjustment, so that the details are not processed in place, the spraying is not uniform, and the back spraying rate is high. Thirdly, the mechanisms formed in series are all formed by components with high rigidity, the motion inertia is large when the multiple shafts are linked, and when the mechanisms reach nine shafts or more, the tail end inertia is large, so that the final spraying precision is low.

Disclosure of Invention

The purpose of the invention is as follows: aiming at the problems in the prior art, the invention aims to provide a movable cable parallel spraying device for ship section coating, which can realize large-stroke and multi-angle linkage control, meet the spraying requirements of large-scale section ship components and ensure the spraying quality and efficiency of narrow and complex areas.

The technical scheme is as follows: a portable cable parallel spraying equipment for boats and ships segmentation coating includes:

the supporting travelling frames are arranged along the Y direction and comprise one or more Y-direction rails;

the aerial Y-direction moving mechanism is erected on the supporting travelling frame and is in sliding connection with the Y-direction track of the supporting travelling frame to realize Y-direction movement; the aerial Y-direction moving mechanism comprises at least one X-direction track;

the air X-direction moving mechanism is arranged on the air Y-direction moving mechanism and is connected with the X-direction track in a sliding way to realize X-direction movement;

the Z-direction adjusting mechanism is arranged below the aerial X-direction moving mechanism through a hoisting platform, and the hoisting platform is provided with a lifting mechanism;

the spraying mechanical arm is arranged on the lifting mechanism of the Z-direction adjusting mechanism;

the ground rail Y-direction moving hydraulic lifting platform is arranged on one side of the Z-direction adjusting mechanism and is flexibly connected with the Z-direction adjusting mechanism; specifically, the ground rail Y-direction moving hydraulic lifting platform comprises a hydraulic lifting platform, a ground rail Y-direction transmission mechanism, a ground rail and a first parallel cable group; the ground rail is arranged along the Y direction, and the hydraulic lifting platform is arranged on the ground rail and can move along the ground rail under the driving of the ground rail Y-direction transmission mechanism; the hydraulic lifting platform is provided with a ground rail winch, one end of the first parallel cable set is wound on the ground rail winch, the other end of the first parallel cable set is connected with the Z-direction adjusting mechanism, and the first parallel cable set is wound and unwound under the control of the ground rail winch to achieve fine adjustment of the angle of the Z-direction adjusting mechanism.

Furthermore, the aerial Y-direction moving mechanism comprises a bearing platform, an X-direction track, a Y-direction servo motor, a Y-direction guide wheel mechanism, a Y-direction gear and a Y-direction rack;

the aerial X-direction moving mechanism is arranged on the bearing platform; the Y-direction rack is arranged on the inner side of the Y-direction track, and the Y-direction gear is connected with an output shaft of the Y-direction servo motor for meshing transmission; the Y-direction guide wheel mechanism is matched with a Y-direction track of the supporting travelling frame and used for bearing and guiding the aerial Y-direction movement.

Further, the aerial X-direction moving mechanism comprises an X-direction servo motor, a bearing trolley, an X-direction guide wheel mechanism, an X-direction gear and an X-direction rack; the hoisting platform is arranged at the bottom of the bearing trolley;

the X-direction rack is arranged on the inner side of the X-direction track, and the X-direction gear is connected with an output shaft of the X-direction servo motor for meshing transmission; the X-direction guide wheel mechanism is arranged on one side of the bearing trolley, is matched with the X-direction track of the aerial Y-direction moving mechanism, and is used for bearing and guiding aerial X-direction movement.

Furthermore, the lifting mechanism comprises a second parallel cable group, a Z-direction winch and a manipulator mounting platform; the spraying mechanical arm is arranged at the bottom of the mechanical arm mounting platform; the Z-direction winch is installed on a hoisting platform, a plurality of fixed pulleys are installed on the hoisting platform, and each fixed pulley is correspondingly provided with a rotatable hanging ring; a plurality of movable pulleys are arranged on the mechanical arm mounting platform;

one end of the second parallel cable group is fixed on a rotatable lifting ring of the hoisting platform, and the other end of the second parallel cable group passes through a movable pulley of the mechanical arm mounting platform and then returns to a fixed pulley of the hoisting platform and returns to the Z-direction winch through the fixed pulley; and the second parallel cable group is controlled by a Z-direction winch to be retracted and extended, so that the Z-direction movement and angle adjustment of the mechanical arm mounting platform are realized.

Optionally, the spraying mechanical arm is mounted at the lower end of the mechanical arm mounting platform in a bolt connection mode, the spraying device is mounted at the tail end of the spraying mechanical arm, and spraying work is carried out through movement of the mechanical arm.

Further, the ground rail Y-direction transmission mechanism comprises a ground rail Y-direction transmission motor, a ground rail Y-direction gear and a ground rail Y-direction rack; the ground rail Y-direction rack is arranged in a track of the ground rail, and the ground rail Y-direction gear is connected with an output shaft of the ground rail Y-direction transmission motor for meshing transmission.

Has the advantages that:

compared with the prior art, the invention has the following remarkable advantages:

(1) the invention can realize linkage control with large stroke and multiple angles, has wide motion spraying range, and can spray large workpieces to be sprayed, such as segmented ships and the like; and the spraying quality and efficiency of narrow and complex areas can be ensured.

(2) Compared with a pure serial type spraying robot, the robot has the advantages that the tail end accumulative error is smaller during linkage, and the adjustable angle is wider.

(3) The parallel cable group is driven by the ground rail Y-direction winch and linked with the whole mechanism to stabilize the suspended mechanical arm mounting platform, so that the whole system is more stable.

(4) The invention adopts cable parallel type driving in the Z direction, and has excellent shock-absorbing performance when linkage is carried out.

(5) The cable driving mode of the invention adopts the labor-saving principle of the movable pulley, so that the type selection of the aerial winch is wider, and the lighter winch can be selected.

(6) The cable driving mode of the invention uses the principle of the waste distance of the movable pulley, increases the allowable error range of the winch and improves the precision of Z-direction movement and angle adjustment of the suspended mechanical arm mounting platform.

(7) The invention is modularized assembly, which is convenient for installation, repair and assembly.

(8) Can realize unmanned spraying and is harmless to human health.

Drawings

FIG. 1 is the general structure of the present invention;

FIGS. 2(a) - (b) are aerial Y-direction moving mechanisms;

FIG. 3 is an aerial X-direction movement mechanism;

FIG. 4 is a Z-direction adjustment mechanism employing parallel drive;

FIG. 5 is a sliding pulley type of fastener;

fig. 6 is a hydraulic lifting platform moving in the Y direction of the ground rail.

Detailed Description

The technical solution of the present invention will be further described in detail with reference to the following examples and accompanying drawings.

A movable cable parallel spraying device for ship section coating comprises a supporting travelling frame 1, an air Y-direction moving mechanism 2, an air X-direction moving mechanism 3, a Z-direction adjusting mechanism 4, a ground rail Y-direction moving hydraulic lifting platform 5 and a spraying mechanical arm 6.

As shown in fig. 1, a pair of parallel support carriages 1 are arranged extending in the Y-direction, each support carriage 1 comprising a Y-track 13. The aerial Y-direction moving mechanism 2 is transversely erected between the two supporting traveling frames 1, two ends of the aerial Y-direction moving mechanism are connected with the Y-direction rails 13 of the supporting traveling frames 1 in a sliding mode, and the motion of the spraying mechanical arm 6 in the Y direction is achieved through gear and rack transmission. The aerial X-direction moving mechanism 3 is arranged on the aerial Y-direction moving mechanism 2, and the motion of the spraying mechanical arm 6 in the X direction is realized through gear and rack transmission. The Z-direction adjusting mechanism 4 is arranged at the bottom of the aerial X-direction moving mechanism 3 and comprises a lifting mechanism, and the spraying mechanical arm 6 is arranged at the tail end of the lifting mechanism and used for realizing the movement of the spraying mechanical arm 6 in the Z direction. The ground rail Y-direction moving hydraulic lifting platform 5 is arranged on one side of the Z-direction adjusting mechanism 4 and is flexibly connected with the Z-direction adjusting mechanism 4.

As shown in fig. 2(a) and 2(b), the aerial Y-direction moving mechanism 2 includes a carriage 8, an X-direction rail 9, a Y-direction servo motor 10, a Y-direction guide wheel mechanism 16, and a rack-and-pinion mechanism (a Y-direction gear 11, a Y-direction rack 12).

The bearing platform 8 mainly functions to mount the aerial X-direction moving mechanism 3 and parts thereof thereon, thereby realizing the movement of the aerial X-direction moving mechanism 3 in the X direction.

The Y-direction gear 11, the Y-direction rack 12, the Y-direction servo motor 10 and the Y-direction track 13 form a driving structure. The Y-direction rack 12 is arranged on the inner side of the track, the structure is compact, the Y-direction gear 11 is arranged on the Y-direction servo motor 10, and the whole Y-direction movement in the air is realized through meshing transmission.

The Y-direction guide wheel mechanism 16 is matched and installed with the Y-direction track 13 and is used for bearing motion guide in the aerial Y direction.

As shown in fig. 3, the aerial X-direction moving mechanism 3 includes an X-direction servo motor 14, a carriage 15, an X-direction guide wheel mechanism 22, a rack-and-pinion mechanism (X-direction gear, X-direction rack), and a hoisting platform 17.

The hoisting platform 17 is installed at the bottom of the bearing trolley 15 through a connecting piece and is used for bearing the Z-direction adjusting mechanism 4 and driving the Z-direction adjusting mechanism to move together. The gear rack mechanism, the X-direction servo motor 14 and the X-direction track 9 form a driving structure together. The X-direction rack is arranged on the inner side of the X-direction track, the structure is compact, and the X-direction gear is arranged on the X-direction servo motor 14 and is engaged for transmission to realize integral X-direction movement in the air.

The X-direction guide wheel mechanism 22 is arranged on the bearing trolley 15, is matched with the X-direction track 9 and is used for bearing the motion guide in the X direction in the air.

The function of the Z-direction adjustment mechanism 4 is to achieve Z-direction movement of the suspended robot arm mounting platform and angular adjustment of the platform. In this embodiment, the Z-direction adjustment mechanism is a cable parallel drive type structure, and includes a robot arm mounting platform 24 and four cable groups (i.e., a second parallel cable group 7). The Z-direction winch is arranged on the hoisting platform 17, and the Z-direction movement of the hoisted mechanical arm mounting platform and the angle adjustment of the platform are realized through the retraction of four groups of cables.

As shown in fig. 4, the hoisting platform 17 of the present embodiment is a square platform, and the hoisting platform 17 includes four sets of Z-directional winches 19, four fixed pulleys 20, and four rotatable hoisting rings 21. The square platform is horizontally arranged at the bottom of a bearing trolley 15 of the aerial X-direction moving mechanism 3. Four groups of Z-direction winches 19 are arranged on the square platform; four fixed pulleys 20 are arranged at four corners of the square platform, and four rotatable hanging rings 21 are in one-to-one correspondence with the fixed pulleys 20 and arranged at the four corners below the square platform.

The mechanical arm mounting platform 24 is a square suspended platform and is located right below the hoisting platform 17, four groups of movable pulleys 25 are mounted at four corners of the square suspended platform, and the square suspended platform is connected with the hoisting platform 17 through a second parallel cable group 7. Specifically, one end of each of the four groups of cables is fixed on each of the four rotatable hoisting rings 21 of the hoisting platform, the other end of each of the four groups of cables passes through the movable pulley 25 of the hoisted manipulator mounting platform and then returns to the fixed pulley 20 of the upper hoisting platform, and the other end of each of the four groups of cables returns to the four groups of Z-direction winches 19 through the fixed pulleys 20, and the connection mode is shown in fig. 5. The four groups of cables are respectively controlled to be retracted and extended by four groups of Z-direction winches of the hoisting platform, and the Z-direction movement of the hoisted manipulator mounting platform and the platform angle adjustment are realized in a synchronous retraction or independent retraction mode. For example, the hoisting and releasing cable sets of four sets of Z-directional winches 19 can be controlled to retract and release cable sets at the same speed, so that the whole of the suspended manipulator mounting platform can move in the Z direction, and the height of the spraying manipulator 6 can be adjusted; each Z-directional winch 19 can also work independently, and when one or more Z-directional winches 19 are independently retracted, the lower end of the Z-directional winch is inclined by the mounting platform of the suspended mechanical arm, so that the angle adjustment is realized.

The four groups of movable pulleys are hoisted in a mode of saving half force of the movable pulleys, so that the type selection of the aerial Z-direction winch is wider, and the lighter winch can be selected. Meanwhile, due to the principle that the movable pulley saves labor and wastes twice the distance, the allowable error range of the winch can be enlarged, and the Z-direction movement and angle adjustment precision of the mechanical arm mounting platform to be hoisted is improved.

It should be noted that the number and the position of the movable pulley block, the fixed pulley block, the winch unit and the cable group in the Z-direction adjusting mechanism 4 can be adaptively changed according to the size and the shape of the hoisting platform and the installation platform of the suspended manipulator arm, the precision requirement of angle adjustment and other factors.

The spraying mechanical arm 6 is used for installing a spraying device and realizing spraying work in various complex postures. Optionally, the spraying mechanical arm is mounted at the lower end of the suspended mechanical arm mounting platform in a bolt connection mode, the spraying device is mounted at the tail end of the spraying mechanical arm, and spraying work is performed through movement of the mechanical arm.

The ground rail Y-direction movable hydraulic lifting platform 5 is arranged on one side of the Z-direction adjusting mechanism 4 and is flexibly connected with the mechanical arm mounting platform 24 through the first parallel cable group 18. As shown in fig. 6, in this embodiment, the hydraulic lifting platform 5 includes a ground rail 30, a gear-rack mechanism (a gear 28 in the Y direction of the ground rail, a rack 29 in the Y direction of the ground rail) in the Y direction of the ground rail, a transmission motor 27 in the Y direction of the ground rail, a hydraulic lifting platform 26, and a winch 2 set in the Y direction of the ground rail.

The ground rail 30 is installed on the ground of the workshop, the hydraulic lifting platform 26 is placed on the ground rail 30, the ground rail Y-direction transmission motor 27 is located at the rear end of the hydraulic lifting platform 26, the ground rail Y-direction rack 29 is installed in the rail of the ground rail 30, and the ground rail Y-direction gear 28 is installed on the ground rail Y-direction transmission motor 27 for meshing transmission. Two groups of ground rail windlasses 23 are arranged on the upper panel of the hydraulic lifting platform 26 and realize the movement in the Y direction and the Z direction along with the hydraulic lifting platform.

After the mechanical arm mounting platform 24 completes the XYZ-direction movement, the tensioning states of the first parallel cable group 18 and the mechanical arm mounting platform 24 are adjusted through a ground rail Y-direction winch, and the mechanical arm mounting platform is stabilized; when the angle of the mechanical arm mounting platform 24 is adjusted, the hydraulic lifting platform 26 is controlled to move along the Y direction, and the first parallel cable group 18 drags the mechanical arm mounting platform 24 to realize the angle adjustment of the mechanical arm mounting platform; this scheme is come firm by the hoist manipulator mounting platform through the linkage to and realize the fine setting of angle, through lifting two sets of hoists of ground rail to take the altitude, can effectively avoid the cable and by the interference between the spraying hull.

Claims (5)

1. A portable parallelly connected spraying of cable is equipped for boats and ships segmentation application which characterized in that includes:

the supporting travelling frame (1) is arranged along the Y direction and comprises one or more Y-direction rails (13);

the aerial Y-direction moving mechanism (2) is erected on the supporting travelling frame (1) and is in sliding connection with a Y-direction track (13) of the supporting travelling frame (1) to realize Y-direction movement; the aerial Y-direction moving mechanism (2) comprises at least one X-direction track (9);

the aerial X-direction moving mechanism (3) is arranged on the aerial Y-direction moving mechanism (2) and is in sliding connection with the X-direction track (9) to realize X-direction movement;

the Z-direction adjusting mechanism (4) is arranged below the aerial X-direction moving mechanism (2) through a hoisting platform (17), and a lifting mechanism is arranged on the hoisting platform (17);

the spraying mechanical arm (6) is arranged on the lifting mechanism of the Z-direction adjusting mechanism (4);

the ground rail Y-direction moving hydraulic lifting platform (5) is arranged on one side of the Z-direction adjusting mechanism (4) and is flexibly connected with the Z-direction adjusting mechanism (4); specifically, the hydraulic lifting platform (5) capable of moving in the Y direction of the ground rail comprises a hydraulic lifting platform (26), a transmission mechanism in the Y direction of the ground rail, the ground rail (30) and a first parallel cable group (18); the ground rail (30) is arranged along the Y direction, and the hydraulic lifting platform (26) is arranged on the ground rail (30) and can move along the ground rail (30) under the driving of the ground rail Y-direction transmission mechanism; a ground rail winch (23) is arranged on the hydraulic lifting platform (26), one end of the first parallel cable group (18) is wound on the ground rail winch (23), the other end of the first parallel cable group is connected with the Z-direction adjusting mechanism (4), and the first parallel cable group (18) is wound and unwound under the control of the ground rail winch (23) to realize the fine adjustment of the angle of the Z-direction adjusting mechanism (4);

the lifting mechanism comprises a second parallel cable group (7), a Z-direction winch (19) and a mechanical arm mounting platform (24);

the spraying mechanical arm (6) is arranged at the bottom of the mechanical arm mounting platform (24); the Z-direction winch (19) is installed on the hoisting platform (17), a plurality of fixed pulleys (20) are installed on the hoisting platform (17), and each fixed pulley (20) is correspondingly provided with a rotatable hanging ring (21); a plurality of movable pulleys (25) are arranged on the mechanical arm mounting platform (24);

one end of the second parallel cable group (7) is fixed on a rotatable hanging ring (21) of the hoisting platform (17), and the other end of the second parallel cable group passes through a movable pulley (25) of a mechanical arm mounting platform (24) and then returns to a fixed pulley (20) of the hoisting platform (17) and returns to the Z-direction winch (19) through the fixed pulley (20); the second parallel cable group (7) is controlled by a Z-direction winch (19) to be retracted and extended, and Z-direction movement and angle adjustment of the mechanical arm mounting platform (24) are achieved.

2. The mobile cable parallel spraying equipment as claimed in claim 1, wherein the aerial Y-direction moving mechanism (2) comprises a bearing platform (8), an X-direction track (9), a Y-direction servo motor (10), a Y-direction guide wheel mechanism (16), a Y-direction gear (11) and a Y-direction rack (12);

the aerial X-direction moving mechanism (3) is arranged on a bearing platform (8); a Y-direction rack (12) is arranged on the inner side of the Y-direction track (13), and a Y-direction gear (11) is connected with an output shaft of the Y-direction servo motor (10) for meshing transmission; the Y-direction guide wheel mechanism (16) is matched with a Y-direction track (13) of the supporting travelling frame (1) and is used for bearing and guiding aerial Y-direction movement.

3. The mobile cable parallel spraying equipment as claimed in claim 1, wherein the aerial X-direction moving mechanism (3) comprises an X-direction servo motor (14), a carrying trolley (15), an X-direction guide wheel mechanism (22), an X-direction gear and an X-direction rack; the hoisting platform (17) is arranged at the bottom of the bearing trolley (15);

the X-direction rack is arranged on the inner side of the X-direction track (9), and the X-direction gear is connected with an output shaft of the X-direction servo motor (14) to carry out meshing transmission; the X-direction guide wheel mechanism (22) is arranged on one side of the bearing trolley (15), is matched with the X-direction track (9) of the aerial Y-direction moving mechanism (2), and is used for bearing and guiding aerial X-direction movement.

4. The mobile cable parallel spraying equipment as claimed in claim 1, wherein the spraying mechanical arm (6) is mounted at the lower end of the mechanical arm mounting platform (24) in a bolt connection manner, and the spraying device is mounted at the tail end of the spraying mechanical arm and performs spraying work through the movement of the mechanical arm.

5. The mobile cable parallel spraying equipment of claim 1, wherein: the ground rail Y-direction transmission mechanism comprises a ground rail Y-direction transmission motor (27), a ground rail Y-direction gear (28) and a ground rail Y-direction rack (29); the ground rail Y-direction rack (29) is arranged in a track of a ground rail (30), and a ground rail Y-direction gear (28) is connected with an output shaft of a ground rail Y-direction transmission motor (27) for meshing transmission.

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