CN105514835A - Marine anticorrosion panelboard - Google Patents

Abstract

The invention discloses a marine anticorrosion panelboard, which belongs to the technical field of ship accessories. The marine anticorrosion panelboard comprises fourth cylinders, fourth electromagnets, third cylinders, inner barrels, third electromagnets, supporting blocks, second electromagnets, first electromagnets, fifth cylinders, outer barrels, third sliding rails, third sliding blocks, gears, second motors, wheel stands, a controller, universal wheels, sucking discs, second cylinders, racks, a bottom frame, a first cylinder, second sliding blocks, second sliding rails, first sliding blocks, first sliding rails, an air pump, an annular inflatable bag, a supporting board, a first motor and a panel board body, wherein the top in each bottom frame is provided with two third sliding rails; each third sliding rail is provided with a third sliding block; the racks are installed below the third sliding blocks; one end of each rack extends out of the bottom frame, and the gears are installed below the racks. The marine anticorrosion panelboard has the advantages that the marine anticorrosion panelboard has a lifting function.

Description

A kind of anticorrosion electroplax peculiar to vessel

Technical field

The present invention relates to a kind of anticorrosion electroplax peculiar to vessel, belong to ship and join technical field.

Background technology

Boats and ships has numerous instruments, equipment to ensure the normal/cruise of boats and ships; make the people's normal life on boats and ships; electroplax peculiar to vessel is used for distributing these instrument and equipment electricity consumption situations; because on boats and ships, stormy waves is larger; often the thing that cabin is entered in inwelling can be there is; the electroplax peculiar to vessel of prior art is all directly be placed in cabin, when inwelling is entered in cabin, electroplax peculiar to vessel can be made immersed wet.In order to solve above-mentioned difficulties, need to develop a peculiar to vessel anticorrosion electroplax with elevating function.

Summary of the invention

The object of this invention is to provide a kind of anticorrosion electroplax peculiar to vessel.

The problem to be solved in the present invention is the electroplax peculiar to vessel of prior art is all the problem be directly placed in cabin.

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

A kind of anticorrosion electroplax peculiar to vessel, comprises four-cylinder, 4th electromagnet, 3rd cylinder, inner core, 3rd electromagnet, prop up block, second electromagnet, first electromagnet, 5th cylinder, urceolus, 3rd slide rail, 3rd slide block, gear, second motor, wheel carrier, controller, universal wheel, sucker, second cylinder, tooth bar, underframe, first cylinder, second slide block, second slide rail, first slide block, first slide rail, inflator pump, annular inflatable bag, support plate, first motor and electroplax main body, described underframe inner top installs two the 3rd slide rails, the 3rd slide block installed by 3rd slide rail, under 3rd slide block, tooth bar is installed, tooth bar one end is stretched out outside underframe, under tooth bar, gear is installed, gear is arranged on wheel carrier, gear is connected with the second motor by shaft coupling, second motor is arranged on wheel carrier, under underframe, universal wheel is installed, second cylinder is installed under tooth bar, under second cylinder, sucker is installed, underframe is installed the first cylinder, first cylinder installs support plate, installing ring shaped inflatable bag on support plate, annular inflatable bag is connected with inflator pump by pipeline, inflator pump is arranged on support plate, support plate is installed the first motor, first motor is positioned at annular inflatable bag, first motor is installed electroplax main body, support plate each side installs a block, prop up on block and the 3rd electromagnet is installed, prop up on the left of block and the second electromagnet is installed, first electromagnet is installed on the left of the second electromagnet, first electromagnet and the second electromagnet are not fixedly linked, first electromagnet is arranged on the first slide block, first slide block is arranged on the first slide rail, first slide rail is arranged on urceolus side, in urceolus, the 5th cylinder is installed, 5th cylinder installs inner core, inner core upper end is stretched out outside urceolus, the second slide block is each side installed in inner core lower end, second slide block is arranged on the second slide rail, second slide rail is arranged on urceolus madial wall, the 3rd cylinder is installed in inner core upper end, the piston rod of the 3rd cylinder installs four-cylinder, under four-cylinder, the 4th electromagnet is installed, controller is arranged in underframe, controller by wire respectively with the first motor, second motor, first electromagnet, second electromagnet, 3rd electromagnet is connected with the 4th electromagnet.

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

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

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

Built-in 4th electromagnetically operated valve of described four-cylinder, the 4th electromagnetically operated valve is connected with controller by wire.

Built-in 5th electromagnetically operated valve of described 5th cylinder, the 5th electromagnetically operated valve is connected with controller by wire.

Advantage of the present invention is: controller controls the second motor and rotates forward, and gear is rotated, tooth bar is moved left and right, sucker is moved left and right; Controller controls energising or the power-off of the second electromagnetically operated valve, makes the second cylinder do stretching routine, makes sucker suction on the ground, and then controller controls motor reversal, gear is reversed, underframe is moved towards sucker, thus mobile underframe; Controller controls the first cylinder and does stretching motion, and support plate is moved up and down, and the first slide block is moved up and down; Controller controls the first electromagnet and the second electromagnet power-off loses magnetism, and after controller controls the 3rd electromagnet and the energising of the 4th electromagnet, magnetic is attracting; Controller controls the 3rd cylinder and does stretching routine, makes the 4th electromagnet move to the top of the 3rd electromagnet; Controller controls four-cylinder and does stretching routine, makes the 4th electromagnet be adsorbed on the 3rd electromagnet; Controller controls the 5th cylinder and does stretching motion, inner core is moved up and down, makes the 4th electromagnet be adsorbed on the 3rd electromagnet and move up and down, support plate is moved up and down; Controller controls the first electric motor starting, and electroplax main body is rotated; Controller controls inflator pump to the inflation of annular inflatable bag, expands, electroplax main body be accommodated in the inner after annular inflatable bag is inflated.

Accompanying drawing explanation

Fig. 1 is a kind of anticorrosion electroplax overall structure figure peculiar to vessel of the present invention;

In figure: 1, four-cylinder 2, 4th electromagnet 3, 3rd cylinder 4, inner core 5, 3rd electromagnet 6, prop up block 7, second electromagnet 8, first electromagnet 9, 5th cylinder 10, urceolus 11, 3rd slide rail 12, 3rd slide block 13, gear 14, second motor 15, wheel carrier 16, controller 17, universal wheel 18, sucker 19, second cylinder 20, tooth bar 21, underframe 22, first cylinder 23, second slide block 24, second slide rail 25, first slide block 26, first slide rail 27, inflator pump 28, annular inflatable bag 29, support plate 30, first motor 31, electroplax main body.

Embodiment

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

A kind of anticorrosion electroplax peculiar to vessel of the present invention, comprises four-cylinder 1, 4th electromagnet 2, 3rd cylinder 3, inner core 4, 3rd electromagnet 5, prop up block 6, second electromagnet 7, first electromagnet 8, 5th cylinder 9, urceolus 10, 3rd slide rail 11, 3rd slide block 12, gear 13, second motor 14, wheel carrier 15, controller 16, universal wheel 17, sucker 18, second cylinder 19, tooth bar 20, underframe 21, first cylinder 22, second slide block 23, second slide rail 24, first slide block 25, first slide rail 26, inflator pump 27, annular inflatable bag 28, support plate 29, first motor 30 and electroplax main body 31, described underframe 21 inner top installs two the 3rd slide rails 11, the 3rd slide block 12 installed by 3rd slide rail 11,3rd slide block 12 times installs tooth bar 20, tooth bar 20 one end is stretched out outside underframe 21, tooth bar installs gear 13 20 times, gear 13 is arranged on wheel carrier 15, gear 13 is connected with the second motor 14 by shaft coupling, second motor 14 is arranged on wheel carrier 15, and controller 16 controls the second motor 14 and rotates forward, and gear 13 is rotated, tooth bar 20 is moved left and right, sucker 18 is moved left and right, underframe installs universal wheel 17 21 times, tooth bar installs built-in second electromagnetically operated valve of the second cylinder 19, second cylinder 19 20 times, and the second electromagnetically operated valve is connected with controller 16 by wire, second cylinder 19 times installation sucker 18, controller 16 controls energising or the power-off of the second electromagnetically operated valve, makes the second cylinder 19 do stretching routine, makes sucker 18 adsorb on the ground, then controller 16 controls motor reversal, gear 13 is reversed, underframe 21 is moved towards sucker 18, thus mobile underframe 21, underframe 21 is installed built-in first electromagnetically operated valve of the first cylinder 22, first cylinder 22, the first electromagnetically operated valve is connected with controller 16 by wire, and controller 16 controls the first cylinder 22 and does stretching motion, and support plate 29 is moved up and down, and the first slide block 25 is moved up and down, first cylinder 22 installs support plate 29, installing ring shaped inflatable bag 28 on support plate 29, annular inflatable bag 28 is connected with inflator pump 27 by pipeline, and inflator pump 27 is arranged on support plate 29, and controller 16 controls inflator pump 27 and inflates to annular inflatable bag 28, expand after annular inflatable bag 28 is inflated, electroplax main body 31 is accommodated in the inner, support plate 29 is installed the first motor 30, first motor 30 and be positioned at annular inflatable bag 28, controller 16 controls the first motor 30 and starts, and electroplax main body 31 is rotated, electroplax main body 31 installed by first motor 30, support plate 29 each side installs a block 6, prop up on block 6 and the 3rd electromagnet 5 is installed, prop up on the left of block 6 and second electromagnet 7 is installed, first electromagnet 8 is installed on the left of second electromagnet 7, first electromagnet 8 and the second electromagnet 7 are not fixedly linked, first electromagnet 8 is arranged on the first slide block 25, first slide block 25 is arranged on the first slide rail 26, first slide rail 26 is arranged on urceolus 10 side, in urceolus 10, the 5th cylinder 9 is installed, built-in 5th electromagnetically operated valve of 5th cylinder 9, 5th electromagnetically operated valve is connected with controller 16 by wire, controller 16 controls the 5th cylinder 9 and does stretching motion, inner core 4 is moved up and down, make the 4th electromagnet 2 be adsorbed on the 3rd electromagnet 5 to move up and down, support plate 29 is moved up and down, 5th cylinder 9 installs inner core 4, inner core 4 upper end is stretched out outside urceolus 10, the second slide block 23 is each side installed in inner core 4 lower end, second slide block 23 is arranged on the second slide rail 24, and the second slide rail 24 is arranged on urceolus 10 madial wall, and the 3rd cylinder 3 is installed in inner core 4 upper end, built-in 3rd electromagnetically operated valve of 3rd cylinder 3,3rd electromagnetically operated valve is connected with controller 16 by wire, and controller 16 controls the 3rd cylinder 3 and does stretching routine, makes the 4th electromagnet 2 move to the top of the 3rd electromagnet 5, the piston rod of the 3rd cylinder 3 installs four-cylinder 1, built-in 4th electromagnetically operated valve of four-cylinder 1, the 4th electromagnetically operated valve is connected with controller 16 by wire, and controller 16 controls four-cylinder 1 and does stretching routine, makes the 4th electromagnet 2 be adsorbed on the 3rd electromagnet 5, four-cylinder 1 time installs the 4th electromagnet 2, and controller 16 controls the firstth electromagnet 8 and the second electromagnet 7 power-off loses magnetism, controller 16 control the 3rd electromagnet 5 and the 4th electromagnet 2 be energized after magnetic attracting, controller 16 is arranged in underframe 21, and controller 16 is connected with the 4th electromagnet 2 with the first motor 30, second motor 14, first electromagnet 8, second electromagnet 7, the 3rd electromagnet 5 respectively by wire.

Using method of the present invention: controller 16 controls the second motor 14 and rotates forward, and gear 13 is rotated, and tooth bar 20 is moved left and right, and sucker 18 is moved left and right; Controller 16 controls energising or the power-off of the second electromagnetically operated valve, and make the second cylinder 19 do stretching routine, make sucker 18 adsorb on the ground, then controller 16 controls motor reversal, and gear 13 is reversed, and underframe 21 is moved towards sucker 18, thus mobile underframe 21; Controller 16 controls the first cylinder 22 and does stretching motion, and support plate 29 is moved up and down, and the first slide block 25 is moved up and down; Controller 16 controls the first electromagnet 8 and the second electromagnet 7 power-off loses magnetism, controller 16 control the 3rd electromagnet 5 and the 4th electromagnet 2 be energized after magnetic attracting; Controller 16 controls the 3rd cylinder 3 and does stretching routine, makes the 4th electromagnet 2 move to the top of the 3rd electromagnet 5; Controller 16 controls four-cylinder 1 and does stretching routine, makes the 4th electromagnet 2 be adsorbed on the 3rd electromagnet 5; Controller 16 controls the 5th cylinder 9 and does stretching motion, and inner core 4 is moved up and down, and makes the 4th electromagnet 2 be adsorbed on the 3rd electromagnet 5 and moves up and down, support plate 29 is moved up and down; Controller 16 controls the first motor 30 and starts, and electroplax main body 31 is rotated; Controller 16 controls inflator pump 27 and inflates to annular inflatable bag 28, expands, electroplax main body 31 be accommodated in the inner after annular inflatable bag 28 is inflated.

Claims (6)

1. an anticorrosion electroplax peculiar to vessel, comprises four-cylinder (1), 4th electromagnet (2), 3rd cylinder (3), inner core (4), 3rd electromagnet (5), prop up block (6), second electromagnet (7), first electromagnet (8), 5th cylinder (9), urceolus (10), 3rd slide rail (11), 3rd slide block (12), gear (13), second motor (14), wheel carrier (15), controller (16), universal wheel (17), sucker (18), second cylinder (19), tooth bar (20), underframe (21), first cylinder (22), second slide block (23), second slide rail (24), first slide block (25), first slide rail (26), inflator pump (27), annular inflatable bag (28), support plate (29), first motor (30) and electroplax main body (31), it is characterized in that: described underframe (21) inner top installs two the 3rd slide rails (11), the upper installation the 3rd slide block (12) of 3rd slide rail (11), under 3rd slide block (12), tooth bar (20) is installed, underframe (21) is stretched out outward in tooth bar (20) one end, gear (13) is installed under tooth bar (20), gear (13) is arranged on wheel carrier (15), gear (13) is connected with the second motor (14) by shaft coupling, second motor (14) is arranged on wheel carrier (15), universal wheel (17) is installed under underframe (21), second cylinder (19) is installed under tooth bar (20), sucker (18) is installed under the second cylinder (19), upper installation first cylinder (22) of underframe (21), first cylinder (22) is installed support plate (29), the upper installing ring shaped inflatable bag (28) of support plate (29), annular inflatable bag (28) is connected with inflator pump (27) by pipeline, inflator pump (27) is arranged on support plate (29), upper installation first motor (30) of support plate (29), first motor (30) is positioned at annular inflatable bag (28), first motor (30) is upper installs electroplax main body (31), support plate (29) each side installs a block (6), prop up the upper installation the 3rd electromagnet (5) of block (6), prop up block (6) left side and the second electromagnet (7) is installed, the first electromagnet (8) is installed in second electromagnet (7) left side, first electromagnet (8) and the second electromagnet (7) are not fixedly linked, first electromagnet (8) is arranged on the first slide block (25), first slide block (25) is arranged on the first slide rail (26), first slide rail (26) is arranged on urceolus (10) side, in urceolus (10), the 5th cylinder (9) is installed, 5th cylinder (9) installs inner core (4), urceolus (10) is stretched out outward in inner core (4) upper end, the second slide block (23) is each side installed in inner core (4) lower end, second slide block (23) is arranged on the second slide rail (24), second slide rail (24) is arranged on urceolus (10) madial wall, the 3rd cylinder (3) is installed in inner core (4) upper end, the piston rod of the 3rd cylinder (3) installs four-cylinder (1), under four-cylinder (1), the 4th electromagnet (2) is installed, controller (16) is arranged in underframe (21), controller (16) by wire respectively with the first motor (30), second motor (14), first electromagnet (8), second electromagnet (7), 3rd electromagnet (5) is connected with the 4th electromagnet (2).

2. one according to claim 1 anticorrosion electroplax peculiar to vessel, is characterized in that: built-in first electromagnetically operated valve of described first cylinder (22), the first electromagnetically operated valve is connected with controller (16) by wire.

3. one according to claim 1 anticorrosion electroplax peculiar to vessel, is characterized in that: built-in second electromagnetically operated valve of described second cylinder (19), the second electromagnetically operated valve is connected with controller (16) by wire.

4. one according to claim 1 anticorrosion electroplax peculiar to vessel, is characterized in that: built-in 3rd electromagnetically operated valve of described 3rd cylinder (3), the 3rd electromagnetically operated valve is connected with controller (16) by wire.

5. one according to claim 1 anticorrosion electroplax peculiar to vessel, is characterized in that: built-in 4th electromagnetically operated valve of described four-cylinder (1), the 4th electromagnetically operated valve is connected with controller (16) by wire.

6. one according to claim 1 anticorrosion electroplax peculiar to vessel, is characterized in that: built-in 5th electromagnetically operated valve of described 5th cylinder (9), the 5th electromagnetically operated valve is connected with controller (16) by wire.