CN105415269A

CN105415269A - Universal marine rudder blade mounting platform

Info

Publication number: CN105415269A
Application number: CN201510773343.6A
Authority: CN
Inventors: 李川江; 汪家政; 陈平; 高峰
Original assignee: ZHOUSHAN CHANGHONG INTERNATIONAL SHIPBUILDING Co Ltd
Current assignee: ZHOUSHAN CHANGHONG INTERNATIONAL SHIPBUILDING Co Ltd
Priority date: 2015-11-13
Filing date: 2015-11-13
Publication date: 2016-03-23
Anticipated expiration: 2035-11-13
Also published as: CN105415269B

Abstract

The invention discloses a universal marine rudder blade mounting platform and belongs to the technical field of ship assembly. The universal marine rudder blade mounting platform comprises rolling shafts, belts, connecting plates, first motors, bearing brackets, rolling wheels, a first sliding way, a bottom plate, a first sliding block, a second linear motor, a second motor, a second handrail, a second pedal, a second moving block, a first linear motor, a first handrail, a first pedal, a support, a first moving block, a controller, a third air cylinder, second pin shafts, a second hollowed-out part, a second supporting plate, scissors fork arms, first pin shafts, a first hollowed-out part, a first supporting plate, a second sliding way, second sliding blocks, supporting columns, an upper plate, a second air cylinder, a hard base plate, an elastic base plate, side plates, fisheye bearings, first air cylinders and baffles. The first sliding block is mounted on the first sliding way, the connecting plates are mounted on the left side and the right side of the first sliding block respectively, and the connecting plates are disposed on the belts. The universal marine rudder blade mounting platform has the advantage of being suitable for rudder blades with different radians and different shapes.

Description

A kind of universal ship rudder blade mounting platform

Technical field

The present invention relates to a kind of universal ship rudder blade mounting platform, belong to ship and join technical field.

Background technology

The installation of stern propeller and rudder blade is a comparatively large-engineering.Owing to limiting by hull, installation process cannot use lifting appliance to complete, special tooling must be adopted to carry out installation, the special tooling of prior art is not suitable for for installing the difform rudder blade of different radian, shipyard needs to possess multiple frock and just can be used for installing difform rudder blade, and the cost increasing shipyard drops into.In order to solve above-mentioned possibility, need exploitation can be applicable to the universal ship rudder blade mounting platform of the difform rudder blade of different radian.

Summary of the invention

The object of this invention is to provide a kind of universal ship rudder blade mounting platform.

The problem to be solved in the present invention is the problem that the special tooling of prior art is not suitable for for installing the difform rudder blade of different radian.

Utilize manual cleaning experiment room glassware not only to lose time and water but also cleanser easily poisoning or communicable disease causes the problem of great damage to health.

For realizing object of the present invention, the technical solution used in the present invention is:

A kind of universal ship rudder blade mounting platform, comprises roller bearing, belt, connecting plate, first motor, bearing bracket stand, roller, first slide rail, base plate, first slide block, second linear electric motors, second motor, second handrail, second riding boogie board, second movable block, first linear electric motors, first handrail, first riding boogie board, support, first movable block, controller, 3rd cylinder, second bearing pin, second hollow out, second support plate, scissor arm, first bearing pin, first hollow out, first support plate, second slide rail, second slide block, pillar, upper plate, second cylinder, hard packing plate, resilient sleeper-bearing, side plate, flake bearing, first cylinder and baffle plate, the first slide block installed by described first slide rail, first slide block each side installs connecting plate, connecting plate is arranged on belt, belt sleeve is located on two rollers, roller is arranged on roller bearing, two ends, roller bearing left and right are respectively arranged on bearing bracket stand, roller bearing is connected with the first motor by shaft coupling, mounting base on first slide block, base plate is installed the second support plate, second support plate is provided with the second hollow out, second hollow out installs two the second bearing pins, the second bearing pin being positioned at left side is connected with the piston rod of the 3rd cylinder, 3rd cylinder is arranged on base plate, scissor arm lower end is each side arranged on the second bearing pin, scissor arm upper end is each side arranged on two the first bearing pins, two the first bearing pins are arranged in the first hollow out, first support plate is provided with the first hollow out, first linear electric motors lower end is arranged on base plate, first linear electric motors upper end is connected with the first support plate, first linear electric motors are installed the first movable block, first movable block is installed the first riding boogie board, mounting bracket between first riding boogie board and the first movable block, first riding boogie board is installed the first handrail, first support plate is installed the second linear electric motors, second linear electric motors are installed the second movable block, second movable block is installed the second riding boogie board, second riding boogie board is installed the second handrail, first support plate is installed the second motor, upper plate installed by second motor, mounting column under upper plate, second slide block is installed under pillar, second slide block is arranged on the second slide rail, second slide rail is arranged on the first support plate, second motor is positioned at the second slide rail, upper plate is installed the second cylinder, the piston rod of the second cylinder is installed hard packing plate, resilient sleeper-bearing installed by hard packing plate, upper plate each side installs side plate, side plate is installed more than first cylinder, the piston rod of the first cylinder is arranged on flake bearing, flake bearing is arranged on baffle plate, controller is arranged on base plate, controller by wire respectively with the first motor, second motor, first linear electric motors are connected with the second linear electric motors.

Built-in first magnetic valve of described first cylinder, the first magnetic valve is connected with controller by wire.

Built-in second magnetic valve of described second cylinder, the second magnetic valve is connected with controller by wire.

Built-in 3rd magnetic valve of described 3rd cylinder, the 3rd magnetic valve is connected with controller by wire.

Advantage of the present invention is: controller controls motor forward or reverse, makes roller bearing forward or reverse, makes roller forward or reverse, belt is moved left and right, the first slide block is moved left and right on the first slide rail, base plate is moved left and right; Controller controls energising or the power-off of built-in 3rd magnetic valve of the 3rd cylinder, makes the piston rod of the 3rd cylinder do stretching routine, makes two the second bearing pins close to each other, scissor arm is extended, the first support plate is moved up, rudder blade is moved up; Controller controls the second motor forward or reverse, makes upper plate forward or reverse, makes rudder blade forward or reverse, regulates the setting angle of rudder blade; The piston rod that controller controls the second cylinder does stretching routine, hard packing plate is moved up, rudder blade is moved up; Resilient sleeper-bearing makes the rudder blade of different bottom shape place; The piston rod that controller controls the first cylinder does stretching routine, and baffle plate is moved forward, and makes baffle plate prop up rudder blade, keeps the firm of rudder blade; People may stand on the first riding boogie board, and controller controls the first linear electric motors and starts, and the first movable block is moved up, the first riding boogie board is moved up with workman, facilitate workman closely to check the installation of rudder blade; People stands on the second riding boogie board, and controller controls the second linear electric motors and starts, and the second movable block is moved up, the second riding boogie board is moved up, rudder blade is installed to facilitate workman closely to check.

Accompanying drawing explanation

Fig. 1 is the top view of the structure under the base plate of a kind of universal ship rudder blade mounting platform of the present invention;

Fig. 2 is the front view of the structure on the base plate of a kind of universal ship rudder blade mounting platform of the present invention;

In figure: 1, roller bearing 2, belt 3, connecting plate 4, first motor 5, bearing bracket stand 6, roller 7, first slide rail 8, base plate 9, first slide block 10, second linear electric motors 11, second motor 12, second handrail 13, second riding boogie board 14, second movable block 15, first linear electric motors 16, first handrail 17, first riding boogie board 18, support 19, first movable block 20, controller 21, 3rd cylinder 22, second bearing pin 23, second hollow out 24, second support plate 25, scissor arm 26, first bearing pin 27, first hollow out 28, first support plate 29, second slide rail 30, second slide block 31, pillar 32, upper plate 33, second cylinder 34, hard packing plate 35, resilient sleeper-bearing 36, side plate 37, flake bearing 38, first cylinder 39, baffle plate 40, rudder blade.

Detailed description of the invention

Below in conjunction with drawings and Examples, the present invention is further illustrated.

A kind of universal ship rudder blade mounting platform of the present invention, comprises roller bearing 1, belt 2, connecting plate 3, first motor 4, bearing bracket stand 5, roller 6, first slide rail 7, base plate 8, first slide block 9, second linear electric motors 10, second motor 11, second handrail 12, second riding boogie board 13, second movable block 14, first linear electric motors 15, first handrail 16, first riding boogie board 17, support 18, first movable block 19, controller 20, 3rd cylinder 21, second bearing pin 22, second hollow out 23, second support plate 24, scissor arm 25, first bearing pin 26, first hollow out 27, first support plate 28, second slide rail 29, second slide block 30, pillar 31, upper plate 32, second cylinder 33, hard packing plate 34, resilient sleeper-bearing 35, side plate 36, flake bearing 37, first cylinder 38 and baffle plate 39, the first slide block 9 installed by described first slide rail 7, first slide block 9 each side installs connecting plate 3, connecting plate 3 is arranged on belt 2, belt 2 is set on two rollers 6, roller 6 is arranged on roller bearing 1, roller bearing about 1 two ends are respectively arranged on bearing bracket stand 5, and roller bearing 1 is connected with the first motor 4 by shaft coupling, mounting base 8 on the first slide block 9, controller 20 controls motor forward or reverse, make roller bearing 1 forward or reverse, make roller 6 forward or reverse, belt 2 is moved left and right, first slide block 9 is moved left and right on the first slide rail 7, base plate 8 is moved left and right, base plate 8 is installed the second support plate 24, second support plate 24 is provided with the second hollow out 23, second hollow out 23 installs two the second bearing pins 22, the second bearing pin 22 being positioned at left side is connected with the piston rod of the 3rd cylinder 21, 3rd cylinder 21 is arranged on base plate 8, built-in 3rd magnetic valve of 3rd cylinder 21, 3rd magnetic valve is connected with controller 20 by wire, scissor arm 25 lower end is each side arranged on the second bearing pin 22, scissor arm 25 upper end is each side arranged on two the first bearing pins 26, two the first bearing pins 26 are arranged in the first hollow out 27, first support plate 28 is provided with the first hollow out 27, controller 20 controls energising or the power-off of built-in 3rd magnetic valve of the 3rd cylinder 21, the piston rod of the 3rd cylinder 21 is made to do stretching routine, make two the second bearing pins 22 close to each other, scissor arm 25 is extended, first support plate 28 is moved up, rudder blade 40 is moved up, first linear electric motors 15 lower end is arranged on base plate 8, first linear electric motors 15 upper end is connected with the first support plate 28, first linear electric motors 15 are installed the first movable block 19, first movable block 19 is installed the first riding boogie board 17, mounting bracket 18 between first riding boogie board 17 and the first movable block 19, first riding boogie board 17 is installed the first handrail 16, people may stand on the first riding boogie board 17, controller 20 controls the first linear electric motors 15 and starts, first movable block 19 is moved up, first riding boogie board 17 is moved up with workman, facilitates workman closely to check the installation of rudder blade 40, first support plate 28 is installed the second linear electric motors 10, second linear electric motors 10 are installed the second movable block 14, second movable block 14 is installed the second riding boogie board 13, second riding boogie board 13 is installed the second handrail 12, people stands on the second riding boogie board 13, controller 20 controls the second linear electric motors 10 and starts, second movable block 14 is moved up, second riding boogie board 13 is moved up, rudder blade 40 is installed to facilitate workman closely to check, first support plate 28 is installed the second motor 11, controller 20 controls the second motor 11 forward or reverse, make upper plate 32 forward or reverse, make rudder blade 40 forward or reverse, regulate the setting angle of rudder blade 40, upper plate 32 installed by second motor 11, upper plate 32 times mounting columns 31, pillar installs the second slide block 30 31 times, second slide block 30 is arranged on the second slide rail 29, second slide rail 29 is arranged on the first support plate 28, second motor 11 is positioned at the second slide rail 29, upper plate 32 is installed the second cylinder 33, built-in second magnetic valve of second cylinder 33, second magnetic valve is connected with controller 20 by wire, the piston rod of the second cylinder 33 installs hard packing plate 34, the piston rod that controller 20 controls the second cylinder 33 does stretching routine, hard packing plate 34 is moved up, rudder blade 40 is moved up, hard packing plate 34 is installed resilient sleeper-bearing 35, resilient sleeper-bearing 35 make different bottom shape rudder blade 40 can placement, upper plate 32 each side installs side plate 36, side plate 36 is installed more than first cylinder 38, built-in first magnetic valve of first cylinder 38, first magnetic valve is connected with controller 20 by wire, and the piston rod of the first cylinder 38 is arranged on flake bearing 37, and flake bearing 37 is arranged on baffle plate 39, the piston rod that controller 20 controls the first cylinder 38 does stretching routine, baffle plate 39 is moved forward, makes baffle plate 39 prop up rudder blade 40, keep the firm of rudder blade 40, controller 20 is arranged on base plate 8, and controller 20 is connected with the second linear electric motors 10 with the first motor 4, second motor 11, first linear electric motors 15 respectively by wire.

Using method of the present invention: controller 20 controls motor forward or reverse, makes roller bearing 1 forward or reverse, makes roller 6 forward or reverse, and belt 2 is moved left and right, and the first slide block 9 is moved left and right on the first slide rail 7, base plate 8 is moved left and right; Controller 20 controls energising or the power-off of built-in 3rd magnetic valve of the 3rd cylinder 21, make the piston rod of the 3rd cylinder 21 do stretching routine, make two the second bearing pins 22 close to each other, scissor arm 25 is extended, first support plate 28 is moved up, rudder blade 40 is moved up; Controller 20 controls the second motor 11 forward or reverse, makes upper plate 32 forward or reverse, makes rudder blade 40 forward or reverse, regulates the setting angle of rudder blade 40; The piston rod that controller 20 controls the second cylinder 33 does stretching routine, and hard packing plate 34 is moved up, and rudder blade 40 is moved up; Resilient sleeper-bearing 35 makes the rudder blade 40 of different bottom shape place; The piston rod that controller 20 controls the first cylinder 38 does stretching routine, and baffle plate 39 is moved forward, and makes baffle plate 39 prop up rudder blade 40, keeps the firm of rudder blade 40; People may stand on the first riding boogie board 17, and controller 20 controls the first linear electric motors 15 and starts, and the first movable block 19 is moved up, and the first riding boogie board 17 is moved up with workman, facilitates workman closely to check the installation of rudder blade 40; People stands on the second riding boogie board 13, and controller 20 controls the second linear electric motors 10 and starts, and the second movable block 14 is moved up, and the second riding boogie board 13 is moved up, and rudder blade 40 is installed to facilitate workman closely to check.

Claims

1. a universal ship rudder blade mounting platform, comprises roller bearing (1), belt (2), connecting plate (3), first motor (4), bearing bracket stand (5), roller (6), first slide rail (7), base plate (8), first slide block (9), second linear electric motors (10), second motor (11), second handrail (12), second riding boogie board (13), second movable block (14), first linear electric motors (15), first handrail (16), first riding boogie board (17), support (18), first movable block (19), controller (20), 3rd cylinder (21), second bearing pin (22), second hollow out (23), second support plate (24), scissor arm (25), first bearing pin (26), first hollow out (27), first support plate (28), second slide rail (29), second slide block (30), pillar (31), upper plate (32), second cylinder (33), hard packing plate (34), resilient sleeper-bearing (35), side plate (36), flake bearing (37), first cylinder (38) and baffle plate (39), it is characterized in that: upper installation first slide block (9) of described first slide rail (7), first slide block (9) each side installs connecting plate (3), connecting plate (3) is arranged on belt (2), belt (2) is set on two rollers (6), roller (6) is arranged on roller bearing (1), roller bearing (1) two ends, left and right are respectively arranged on bearing bracket stand (5), roller bearing (1) is connected with the first motor (4) by shaft coupling, the upper mounting base (8) of first slide block (9), upper installation second support plate (24) of base plate (8), second support plate (24) is provided with the second hollow out (23), upper installation two the second bearing pins (22) of second hollow out (23), the second bearing pin (22) being positioned at left side is connected with the piston rod of the 3rd cylinder (21), 3rd cylinder (21) is arranged on base plate (8), scissor arm (25) lower end is each side arranged on the second bearing pin (22), scissor arm (25) upper end is each side arranged on two the first bearing pins (26), two the first bearing pins (26) are arranged in the first hollow out (27), first support plate (28) is provided with the first hollow out (27), first linear electric motors (15) lower end is arranged on base plate (8), first linear electric motors (15) upper end is connected with the first support plate (28), upper installation first movable block (19) of first linear electric motors (15), upper installation first riding boogie board (17) of first movable block (19), mounting bracket (18) between first riding boogie board (17) and the first movable block (19), upper installation first handrail (16) of first riding boogie board (17), upper installation second linear electric motors (10) of first support plate (28), upper installation second movable block (14) of second linear electric motors (10), upper installation second riding boogie board (13) of second movable block (14), upper installation second handrail (12) of second riding boogie board (13), upper installation second motor (11) of first support plate (28), second motor (11) is installed upper plate (32), mounting column (31) under upper plate (32), second slide block (30) is installed under pillar (31), second slide block (30) is arranged on the second slide rail (29), second slide rail (29) is arranged on the first support plate (28), second motor (11) is positioned at the second slide rail (29), upper installation second cylinder (33) of upper plate (32), the piston rod of the second cylinder (33) is installed hard packing plate (34), hard packing plate (34) is installed resilient sleeper-bearing (35), upper plate (32) each side installs side plate (36), side plate (36) is upper installs more than first cylinder (38), the piston rod of the first cylinder (38) is arranged on flake bearing (37), flake bearing (37) is arranged on baffle plate (39), controller (20) is arranged on base plate (8), controller (20) by wire respectively with the first motor (4), second motor (11), first linear electric motors (15) are connected with the second linear electric motors (10).

2. the universal ship rudder blade mounting platform of one according to claim 1, is characterized in that: built-in first magnetic valve of described first cylinder (38), the first magnetic valve is connected with controller (20) by wire.

3. the universal ship rudder blade mounting platform of one according to claim 1, is characterized in that: built-in second magnetic valve of described second cylinder (33), the second magnetic valve is connected with controller (20) by wire.

4. the universal ship rudder blade mounting platform of one according to claim 1, is characterized in that: built-in 3rd magnetic valve of described 3rd cylinder (21), the 3rd magnetic valve is connected with controller (20) by wire.