CN116117765B

CN116117765B - Processing equipment and technology for ship electric propeller shell

Info

Publication number: CN116117765B
Application number: CN202310216430.6A
Authority: CN
Inventors: 沙明军; 袁建华; 陆树建; 郭严峰
Original assignee: NANTONG HONGBO MACHINERY CO Ltd
Current assignee: NANTONG HONGBO MACHINERY CO Ltd
Priority date: 2023-03-08
Filing date: 2023-03-08
Publication date: 2024-01-12
Anticipated expiration: 2043-03-08
Also published as: CN116117765A

Abstract

The invention relates to a processing device and a processing technology of a ship electric propeller shell; the processing equipment of the ship electric propeller shell comprises a fixed seat, wherein the fixed seat is fixedly connected with a bottom U-shaped seat through a bolt, a movable connecting plate is movably connected above the bottom U-shaped seat through a rotating shaft, and the upper end of the movable connecting plate is movably connected with a top U-shaped seat through a rotating shaft; the inner side of the top U-shaped seat is fixedly provided with a fixed sliding table through bolts; when the staff gets into, the cylinder pole shrink of slope cylinder, the upset of pulling top U type seat to the outside, fixed slip table and top U type seat slope to outside below under the cooperation of fly leaf, reduce the height of fixed slip table and ground, the staff enters into the inside of propeller, the staff steps on the roof to enter into leaning on a department, the staff steps on the running-board, the back relies on leaning on a, then with the tool stand rotation to the place ahead, in order to take the instrument in the work.

Description

Processing equipment and technology for ship electric propeller shell

Technical Field

The invention relates to the technical field of equipment processing, in particular to processing equipment for a ship electric propeller shell.

Background

The marine propulsion means an energy changer in a marine propulsion device. The power generated by the engine is converted into the thrust for the ship to travel so as to overcome the resistance of the ship to travel in water and push the ship to travel. Most common are propellers, and further paddle wheels, water jet propellers, ducted propellers, and translational propellers. In a broad sense, the propeller also comprises a pole, a paddle, a scull, a fiber, a sail, etc. which drive the ship forward by means of manpower or wind power.

When the existing propeller shell is welded with an inner seam or polished and polished internally, the propeller shell is usually placed on a supporting seat, and rotates after polishing, and then the other part is processed;

as disclosed in chinese patent publication No. CN 218194772U, a tooling fixture for processing a fuel tank of an aircraft propeller includes at least two process rings, wherein the process rings are used for fixedly sleeving the fuel tank; at least two pedestals for placement under the fuel tank, with the pedestals corresponding under each of the process rings; the bearing seats are respectively arranged on two sides of the axis of the fuel tank on the base, the bearing wheels are rotatably arranged on the bearing seats, and annular grooves for placing the process rings are formed in the circumferences of the bearing wheels; the clamping seats are respectively arranged on two opposite sides of the bearing seat, which correspond to the process ring, and the clamping seats are provided with clamping wheels for rolling and clamping the process ring.

Although the shell of the propeller of the aircraft belongs to a cylinder shape, and both ends of the propeller of the ship are in a round table shape, the processing modes are the same; however, when the inner wall of the shell of the propeller is subjected to welding seam treatment or polishing, the scaffold is required to ascend, the scaffold is quite unstable when the scaffold is additionally arranged in the propeller, and when a worker processes the top in a standing state, welding slag or polished ash can fall into eyes; the staff needs to face upward and lift the arms, so that the working mode is short in duration and is easy to cause arm ache of the staff;

after one part is processed, the scaffold is required to be moved out, then the shell of the propeller is rotated, then the workbench and the scaffold are rearranged, and the scaffold is moved back and forth, so that not only is the labor intensity increased, but also the working efficiency is reduced.

Disclosure of Invention

Technical problem to be solved

The invention aims to overcome the defects of the prior art, adapt to the actual needs, and provide processing equipment and process for a ship electric propeller shell so as to solve the technical problems.

Technical proposal

In order to achieve the purpose of the invention, the technical scheme adopted by the invention is as follows:

the processing equipment of the ship electric propeller shell comprises a plurality of supporting wheel frames, wherein a propeller is placed on the supporting wheel frames, and a workbench assembly is arranged inside the propeller; the workbench assembly comprises a fixed seat, wherein the fixed seat is fixedly connected with a bottom U-shaped seat through a bolt, a movable connecting plate is movably connected above the bottom U-shaped seat through a rotating shaft, and the upper end of the movable connecting plate is movably connected with a top U-shaped seat through a rotating shaft; the inner side of the top U-shaped seat is fixedly provided with a fixed sliding table through bolts, and the upper surface and the lower surface of the fixed sliding table are welded and fixed with the top U-shaped seat through a plurality of rib plates;

the fixed sliding table is connected in the sliding frame in a sliding way; the top and the bottom of the sliding frame are respectively and fixedly provided with a top plate and a bottom plate through bolts; one end of the sliding frame, which is far away from the fixed sliding table, is movably connected with a leaning frame through a rotating shaft, and two sides of the rear part of the leaning frame are movably connected with adjusting rods through the rotating shaft; the middle position of the adjusting rod is movably connected with a swing arm through a rotating shaft, and the upper end of the swing arm is movably connected with the bottom of the bottom plate through the rotating shaft; an adjusting cylinder is arranged at one end of the adjusting rod, which is far away from the leaning frame; the end part of the cylinder rod of the adjusting cylinder is movably connected with the adjusting rod through a fish-eye joint, and the bottom part of the cylinder of the adjusting cylinder is movably connected below the bottom plate;

the leaning frame is welded with a pedal above one end close to the sliding frame, and a movable tool table is arranged on the outer side of the leaning frame.

As a further technical scheme of the invention, the width of the pedal is not less than 30cm, the length of the pedal is not less than 40cm, and an included angle a between the pedal and the upper surface of the joint of the leaning frame and the sliding frame is 40-45 degrees.

As a further technical scheme of the invention, the movable tool table comprises two side guardrails welded on two sides of the leaning frame, and two movable sleeves are sleeved on any one of the two side guardrails and are fixed with the tool table through a bracket; the movable sleeve and the side guard rail are fixed through a locking screw.

As a further technical scheme of the invention, two sides of the interior of the sliding frame are connected with sliding rails through countersunk bolts, and two sides of the fixed sliding table are provided with sliding grooves which are in sliding connection with the sliding rails; the bottom of the fixed sliding table is fixedly provided with a toothed plate through countersunk bolts;

an open slot is formed in the bottom of the bottom plate, and a driving gear meshed with the toothed plate is arranged at the open slot; the driving gear is connected with an output shaft of the speed reducer in a matched manner; the speed reducer is in transmission connection with the driving motor; the speed reducer and the driving motor are both fixed at the bottom of the bottom plate.

As a further technical scheme of the invention, the bottom of the bottom plate is also fixed with two supporting components; the support assembly comprises a connecting seat welded at the bottom of the bottom plate, two sides of the connecting seat are movably connected with support arms through rotating shafts, the bottom of each support arm is movably connected with a rotating wheel through the rotating shaft, and an extension spring is further arranged between the two support arms; the rotating wheel is attached to the inner wall of the propeller.

As a further technical scheme of the invention, the leaning frame consists of a section b, a section c and a section d, wherein the included angle between the section b and the section c is 137 degrees, the included angle between the section c and the section d is 162 degrees, and a convex backing e is integrally arranged on the inner side of the section c.

As a further technical scheme of the invention, four riding wheel frames are arranged and respectively and fixedly arranged in four fixed shells; the four fixed shells are two groups, and each group of fixed shells is fixed on the supporting base; the two support bases are arranged, and a bottom sliding table is arranged between the two support bases; the bottom sliding table is connected with a bottom sliding shell in a sliding manner; the bottom sliding shell is fixed with the fixing seat through bolts.

A processing technology for processing a device by utilizing a ship electric propeller shell comprises the following steps:

firstly, mounting a propeller, namely firstly sliding a bottom sliding shell to the outermost end of a bottom sliding table, then placing the propeller on a riding wheel frame, and then sliding the bottom sliding shell to the inner side of the bottom sliding table until a workbench assembly stretches into the propeller, wherein the workbench assembly is in a to-be-operated state;

step two, the working personnel enter, the cylinder rod of the inclined cylinder contracts, the top U-shaped seat is pulled to turn outwards, the fixed sliding table and the top U-shaped seat incline downwards outwards under the cooperation of the movable connecting plate, the height between the fixed sliding table and the ground is reduced, the working personnel enter the propeller at the moment, then the working personnel step on the top plate and enter the leaning frame, the working personnel step on the pedal, the back leans on the leaning frame, and then the tool table is rotated to the right front, so that tools can be taken out in the working process;

step three, when cutting or welding the propeller, as the staff is in an inclined standing state, the hands of the staff can extend to the upper part of the front side of the propeller, and the working position and the face of the staff are in a dislocation state, the working mode is an optimal working state, the face of the staff is not required to be faced upward, the ache caused by the work of the hands in a vertical state is avoided, and the situation that welding slag or cutting slag enters eyelids can be avoided; along with the change of the working position, the driving motor drives the speed reducer to rotate, and the driving gear at the moment stirs the toothed plate, so that the sliding of the fixed sliding table and the sliding frame can be realized, the depth of a worker in the propeller can be realized, and the working range of the worker can be improved;

step four, inclination adjustment, namely when a worker needs to adjust the angle of the leaning frame in the working process due to uncomfortable working positions or standing postures, the cylinder rod of the adjusting cylinder stretches out, and the swinging and angle adjustment of the adjusting rod are realized under the cooperation of the swinging arm, so that the adjusting rod leans upwards against the leaning frame, and when the cylinder rod of the adjusting cylinder contracts, the inclination adjustment of the leaning frame to the rear lower side can be realized, thereby meeting the use requirements of the worker;

step five, the rotation of propeller, when carrying out the welding to the inside of propeller casing, the runner laminating in the supporting component has a holding power to the bottom plate in the inside of propeller, guarantee the stability of whole workstation subassembly in the inside of propeller, when carrying out the welding to the girth weld of propeller, the motor that outside set up drives the riding wheel on the bracket and rotates, realize the rotation of propeller, the staff need not out, can realize rotatory welding work simultaneously, and under the cooperation of runner, can realize continuing to work under the rotatory circumstances of propeller, very big improvement work efficiency.

(3) The beneficial effects are that:

A. in the invention, when the propeller is installed, the bottom sliding shell is firstly slipped to the outermost end of the bottom sliding table, then the propeller is placed on the riding wheel frame, and then the bottom sliding shell is slipped towards the inner side of the bottom sliding table until the workbench component stretches into the propeller, and is in a state to be operated at the moment;

B. according to the invention, when a worker enters, a cylinder rod of the inclined cylinder contracts, the top U-shaped seat is pulled to turn outwards, the fixed sliding table and the top U-shaped seat incline downwards outwards under the cooperation of the movable connecting plate, the height between the fixed sliding table and the ground is reduced, the worker enters the propeller, then the worker steps on the top plate and enters the leaning frame, the worker steps on the pedal, the back leans on the leaning frame, and then the tool table is rotated to the right front, so that the tool is taken out during working;

C. in the invention, when cutting or welding the propeller, as the staff is in an inclined standing state, the hands of the staff can extend to the upper part of the front side of the propeller, and the working position and the face of the staff are in a dislocation state, the working mode is an optimal working state, the face of the staff is not required to be faced up, the ache caused by the work of the hands in a vertical state is avoided, and the situation that welding slag or cutting slag enters the eyelid is avoided; along with the change of the working position, the driving motor drives the speed reducer to rotate, and the driving gear at the moment stirs the toothed plate, so that the sliding of the fixed sliding table and the sliding frame can be realized, the depth of a worker in the propeller can be realized, and the working range of the worker can be improved;

D. according to the invention, when the inclination is adjusted, during the working process of a worker, the worker needs to adjust the angle of the leaning frame due to uncomfortable working position or standing posture, the cylinder rod of the adjusting cylinder stretches out, and the swinging and angle adjustment of the adjusting rod are realized under the cooperation of the swinging arm, so that the adjusting rod leans upwards against the leaning frame, and when the cylinder rod of the adjusting cylinder contracts, the inclination angle adjustment of the leaning frame to the rear lower side can be realized, thereby meeting the use requirement of the worker;

E. according to the invention, when the propeller rotates, the rotating wheel in the supporting component is attached to the inside of the propeller when the inside of the shell of the propeller is welded, a supporting force is provided for the bottom plate, the stability of the whole workbench component in the inside of the propeller is ensured, when the annular welding seam of the propeller is welded, the motor arranged outside drives the riding wheel on the riding wheel frame to rotate, so that the rotation of the propeller is realized, a worker does not need to come out, the welding work while rotating can be realized, and the continuous work under the condition that the propeller rotates can be realized under the cooperation of the rotating wheel, so that the working efficiency is greatly improved.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a left side view of FIG. 1 in accordance with the present invention;

FIG. 3 is a cross-sectional view A-A of FIG. 2 in accordance with the present invention;

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

FIG. 5 is a schematic view of the bottom structure of FIG. 4 in accordance with the present invention;

FIG. 6 is a schematic view of the right side structure of FIG. 5 in accordance with the present invention;

FIG. 7 is an enlarged schematic view of the portion A of FIG. 6 in accordance with the present invention;

FIG. 8 is a schematic view of a support assembly according to the present invention;

FIG. 9 is an enlarged schematic view of the portion B of FIG. 3 in accordance with the present invention;

FIG. 10 is a schematic view of a usage state structure in the present invention;

FIG. 11 is a schematic view of a leaning frame according to the present invention;

fig. 12 is a schematic view of a conventional processing mode of a ship propeller.

In the figure: the device comprises a 1-bracket, a 2-fixed shell, a 3-supporting base, a 4-bottom sliding table, a 5-bottom sliding shell and a 6-workbench assembly; the device comprises a fixed seat 61, a bottom U-shaped seat 62, a movable connecting plate 63, a top U-shaped seat 64, a tilting cylinder 65, a fixed sliding table 66, a sliding frame 67, a top plate 68, a leaning frame 69, a movable tool table 610, a pedal 611, a regulating rod 612, a swinging arm 613, a regulating cylinder 614, a supporting component 615, a 616-driving motor 617-speed reducer 618-driving gear 619-toothed plate 620-bottom plate 621-open slot;

6151-a connecting seat, 6152-a supporting arm, 6153-a rotating wheel, 6154-a tension spring;

6101-side guard bar, 6102-movable sleeve, 6103-tool table.

Detailed Description

Referring to fig. 1-11, a processing device for a ship electric propeller shell comprises a plurality of carrier frames 1, wherein a propeller is placed on the carrier frames 1, and a workbench assembly 6 is arranged in the propeller; the workbench assembly 6 comprises a fixed seat 61, wherein a bottom U-shaped seat 62 is fixedly connected to the fixed seat 61 through bolts, a movable connecting plate 63 is movably connected above the bottom U-shaped seat 62 through a rotating shaft, and the upper end of the movable connecting plate 63 is movably connected with a top U-shaped seat 64 through a rotating shaft; the inner side of the top U-shaped seat 64 is fixedly provided with a fixed sliding table 66 through bolts, and the upper surface and the lower surface of the fixed sliding table 66 are welded and fixed with the top U-shaped seat 64 through a plurality of rib plates;

the fixed sliding table 66 is connected in the sliding frame 67 in a sliding way; the top and bottom of the carriage 67 are fixedly provided with a top plate 68 and a bottom plate 620 respectively by bolts; one end of the sliding frame 67 far away from the fixed sliding table 66 is movably connected with a leaning frame 69 through a rotating shaft, and two sides of the rear part of the leaning frame 69 are movably connected with an adjusting rod 612 through the rotating shaft; the middle position of the adjusting rod 612 is movably connected with a swing arm 613 through a rotating shaft, and the upper end of the swing arm 613 is movably connected with the bottom of the bottom plate 620 through the rotating shaft; an adjusting cylinder 614 is arranged at one end of the adjusting rod 612 far away from the leaning frame 69; the end of the cylinder rod of the adjusting cylinder 614 is movably connected with the adjusting rod 612 through a fish-eye joint, and the bottom of the cylinder of the adjusting cylinder 614 is movably connected below the bottom plate 620;

a foot pedal 611 is welded above one end of the leaning frame 69 near the carriage 67, and a movable tool table 610 is arranged outside the leaning frame 69.

By adopting the technical scheme, the cylinder rod of the inclined cylinder 65 contracts, the top U-shaped seat 64 is pulled to turn outwards, the fixed sliding table 66 and the top U-shaped seat 64 incline downwards outwards under the cooperation of the movable connecting plate 63, the height between the fixed sliding table 66 and the ground is reduced, at the moment, the worker enters the inside of the propeller, then the worker steps on the top plate 68 and enters the leaning frame 69, the worker steps on the pedal 611, the back leans on the leaning frame 69, and then the tool table 6103 is rotated to the right front, so that tools can be taken out during working;

the inclination is adjusted, when a worker needs to adjust the angle of the leaning frame 69 in the working process due to the fact that the worker is uncomfortable in working position or standing posture, the cylinder rod of the adjusting cylinder 614 stretches out, the swinging and angle adjustment of the adjusting rod 612 are achieved under the cooperation of the swinging arm 613, the adjusting rod 612 is enabled to lean upwards against the leaning frame 69, and when the cylinder rod of the adjusting cylinder 614 contracts, the inclination adjustment of the leaning frame 69 towards the rear lower side can be achieved, so that the use requirement of the worker is met.

In this embodiment, the width of the foot pedal 611 is not less than 30cm, the length thereof is not less than 40cm, and the included angle a between the foot pedal 611 and the upper surface of the connection between the leaning frame 69 and the carriage 67 is set at an included angle of 40-45 degrees.

Through adopting above-mentioned technical scheme, the staff is stepping on the running-board 611 when working, and the back laminating is on leaning on frame 89 for the staff is in a half inclined state, and this kind of operating mode is best operating condition, need not the staff and face upward, avoids the ache that the work of both hands vertical state brought, can also avoid welding slag or cut the condition that the broken bits got into in the eyelid.

In this embodiment, the movable tool table 610 includes two side guardrails 6101 welded on two sides of the leaning frame 69, and two movable sleeves 6102 are sleeved on any one of the two side guardrails 6101, and the two movable sleeves 6102 are fixed with a tool table 6103 through a bracket; the movable sleeve 6102 and the side guard 6101 are fixed by locking screw rods.

By adopting the technical scheme, after the station is finished, the working personnel can pull the movable tool table 610 to the front of eyes, so that the tools of the working personnel can be conveniently placed and taken.

In this embodiment, two sides of the interior of the carriage 67 are connected with sliding rails through countersunk bolts, and two sides of the fixed sliding table 66 are provided with sliding grooves in sliding connection with the sliding rails; the bottom of the fixed sliding table 66 is fixedly provided with a toothed plate 619 through countersunk bolts;

an open slot 621 is formed at the bottom of the bottom plate 620, and a driving gear 618 meshed with the toothed plate 619 is arranged at the open slot 621; the driving gear 618 is connected with an output shaft of the speed reducer 617 in a matched manner; the speed reducer 617 is in transmission connection with the driving motor 616; the speed reducer 617 and the driving motor 616 are both fixed at the bottom of the bottom plate 620.

By adopting the technical scheme, when the propeller is cut or welded, as the staff is in an inclined standing state, the hands of the staff can extend to the upper part of the front side of the propeller, and the working position and the face of the staff at the moment are in a dislocation state, the working mode is the optimal working state, the face of the staff is not required to be inclined, the ache caused by the work of the hands in a vertical state is avoided, and the situation that welding slag or cutting slag enters the eyelid is avoided; along with the change of the working position, the driving motor 616 drives the speed reducer 617 to rotate, and the driving gear 618 at the moment stirs the toothed plate 619, so that the sliding of the fixed sliding table 66 and the sliding frame 67 can be realized, the depth of a worker in the propeller can be realized, and the working range of the worker can be improved.

In this embodiment, two support assemblies 615 are further fixed to the bottom of the bottom plate 620; the support assembly 615 includes a connection seat 6151 welded at the bottom of the bottom plate 620, two sides of the connection seat 6151 are movably connected with support arms 6152 through a rotating shaft, the bottom of each support arm 6152 is movably connected with a rotating wheel 6153 through the rotating shaft, and an extension spring 6154 is arranged between the two support arms 6152; the rotating wheel 6153 is attached to the inner wall of the propeller.

Through adopting above-mentioned technical scheme, when carrying out the welding to the inside of propeller casing, the runner 6153 laminating in the supporting component 615 is in the inside of propeller, have a holding power to bottom plate 620, guarantee the stability of whole workstation subassembly 6 in the inside of propeller, when carrying out the welding to the girth weld of propeller, the motor that outside set up drives the riding wheel on the bracket 1 and rotates, realize the rotation of propeller, the staff need not out, can realize rotatory while welding work, and under the cooperation of runner 6153, can realize continuing to work under the rotatory circumstances of propeller, very big improvement work efficiency.

In this embodiment, the leaning frame 69 comprises a b section, a c section and a d section, wherein an included angle between the b section and the c section is 137 degrees, an included angle between the c section and the d section is 162 degrees, and a protruding backing e is integrally disposed on an inner side of the c section.

By adopting the technical scheme, the supporting effect of the leaning frame 69 on the back of the staff is improved on the premise of ensuring the fitting and standing effects of the soles of the staff and the foot pedals 611, so that the comfort of the staff is improved.

In this embodiment, four brackets 1 are provided and are respectively and fixedly installed in four fixed shells 2; two of the four fixed shells 2 are in a group, and each group of fixed shells 2 is fixed on the supporting base 3; two support bases 3 are arranged, and a bottom sliding table 4 is arranged between the two support bases 3; the bottom sliding table 4 is connected with a bottom sliding shell 5 in a sliding manner; the bottom sliding shell 5 and the fixed seat 61 are fixed through bolts.

By adopting the technical scheme, after the work is finished, the bottom sliding shell 5 is slid to the innermost end of the bottom sliding table 4, and then the propeller can be taken down from the riding wheel frame 1.

firstly, mounting a propeller, namely firstly sliding a bottom sliding shell 5 to the outermost end of a bottom sliding table 4, then placing the propeller on a riding wheel frame 1, and then sliding the bottom sliding shell 5 to the inner side of the bottom sliding table 4 until a workbench assembly 6 stretches into the propeller, wherein the workbench assembly is in a to-be-operated state;

step two, the staff enters, the cylinder rod of the tilting cylinder 65 contracts, the top U-shaped seat 64 is pulled to turn outwards, the fixed sliding table 66 and the top U-shaped seat 64 tilt outwards and downwards under the cooperation of the movable connecting plate 63, the height between the fixed sliding table 66 and the ground is reduced, at the moment, the staff enters into the propeller, then the staff steps on the top plate 68 and enters into the leaning frame 69, the staff steps on the pedal 611, the back leans on the leaning frame 69, and then the tool table 6103 is rotated to the right front, so that tools can be taken out during working;

step three, when cutting or welding the propeller, as the staff is in an inclined standing state, the hands of the staff can extend to the upper part of the front side of the propeller, and the working position and the face of the staff are in a dislocation state, the working mode is an optimal working state, the face of the staff is not required to be faced upward, the ache caused by the work of the hands in a vertical state is avoided, and the situation that welding slag or cutting slag enters eyelids can be avoided; along with the change of the working position, the driving motor 616 drives the speed reducer 617 to rotate, and the driving gear 618 at the moment stirs the toothed plate 619, so that the sliding of the fixed sliding table 66 and the sliding frame 67 can be realized, the depth of a worker in the propeller can be realized, and the working range of the worker can be increased;

step four, inclination adjustment, when a worker needs to adjust the angle of the leaning frame 69 in the working process due to uncomfortable working position or standing posture, the cylinder rod of the adjusting cylinder 614 extends out, and the swing and angle adjustment of the adjusting rod 612 are realized under the cooperation of the swing arm 613, so that the adjusting rod 612 leans upwards against the leaning frame 69, and when the cylinder rod of the adjusting cylinder 614 contracts, the inclination adjustment of the leaning frame 69 to the rear lower side can be realized, so that the use requirement of the worker is met;

step five, the rotation of propeller, when carrying out the welding to the inside of propeller casing, the runner 6153 laminating in the supporting component 615 has a holding power to bottom plate 620, guarantee the stability of whole workstation subassembly 6 in the inside of propeller, when carrying out the welding to the girth weld of propeller, the motor that outside set up drives the riding wheel on the bracket 1 and rotates, realize the rotation of propeller, the staff need not out, can realize rotatory welding work simultaneously, and under the cooperation of runner 6153, can realize continuing to work under the rotatory circumstances of propeller, very big improvement work efficiency.

The embodiments of the present invention are disclosed as preferred embodiments, but not limited thereto, and those skilled in the art will readily appreciate from the foregoing description that various extensions and modifications can be made without departing from the spirit of the present invention.

Claims

1. The utility model provides a processing equipment of boats and ships electric propulsion ware casing which characterized in that: comprises a plurality of carrier frames (1), wherein a propeller is arranged on a plurality of the carrier frames (1), and a workbench assembly (6) is arranged in the propeller; the workbench assembly (6) comprises a fixed seat (61), wherein the fixed seat (61) is fixedly connected with a bottom U-shaped seat (62) through a bolt, a movable connecting plate (63) is movably connected above the bottom U-shaped seat (62) through a rotating shaft, and the upper end of the movable connecting plate (63) is movably connected with a top U-shaped seat (64) through the rotating shaft; the inner side of the top U-shaped seat (64) is fixedly provided with a fixed sliding table (66) through bolts, and the upper surface and the lower surface of the fixed sliding table (66) are welded and fixed with the top U-shaped seat (64) through a plurality of rib plates;

the fixed sliding table (66) is connected in the sliding frame (67) in a sliding way; the top and the bottom of the carriage (67) are fixedly provided with a top plate (68) and a bottom plate (620) respectively through bolts; one end of the sliding frame (67) far away from the fixed sliding table (66) is movably connected with a leaning frame (69) through a rotating shaft, and two sides of the rear part of the leaning frame (69) are movably connected with an adjusting rod (612) through the rotating shaft; the middle position of the adjusting rod (612) is movably connected with a swing arm (613) through a rotating shaft, and the upper end of the swing arm (613) is movably connected with the bottom of the bottom plate (620) through the rotating shaft; an adjusting cylinder (614) is arranged at one end of the adjusting rod (612) far away from the leaning frame (69); the end part of the cylinder rod of the adjusting cylinder (614) is movably connected with the adjusting rod (612) through a fish-eye joint, and the bottom part of the cylinder of the adjusting cylinder (614) is movably connected below the bottom plate (620);

a pedal plate (611) is welded above one end of the leaning frame (69) close to the sliding frame (67), and a movable tool table (610) is arranged outside the leaning frame (69).

2. The marine electric propulsion vessel shell processing apparatus of claim 1, wherein: the width of the pedal plate (611) is not less than 30cm, the length of the pedal plate is not less than 40cm, and an included angle a of the upper surface of the connection part of the pedal plate (611) and the leaning frame (69) and the sliding frame (67) is 40-45 degrees.

3. The processing apparatus of a marine electric propulsion shell according to claim 2, wherein: the movable tool table (610) comprises two side guardrails (6101) welded on two sides of the leaning frame (69), two movable sleeves (6102) are sleeved on any one of the two side guardrails (6101), and the two movable sleeves (6102) are fixedly provided with a tool table (6103) through a bracket; the movable sleeve (6102) and the side guard rail (6101) are fixed by a locking screw.

4. A processing apparatus for a marine electric propulsion shell according to claim 3, wherein: slide rails are connected to two sides of the interior of the sliding frame (67) through countersunk bolts, and sliding grooves which are in sliding connection with the slide rails are formed in two sides of the fixed sliding table (66); the bottom of the fixed sliding table (66) is fixedly provided with a toothed plate (619) through countersunk bolts;

an open slot (621) is formed in the bottom of the bottom plate (620), and a driving gear (618) meshed with the toothed plate (619) is arranged at the open slot (621); the driving gear (618) is connected with an output shaft of the speed reducer (617) in a matching way; the speed reducer (617) is in transmission connection with the driving motor (616); the speed reducer (617) and the driving motor (616) are both fixed at the bottom of the bottom plate (620).

5. The marine electric propulsion casing processing apparatus of claim 4, wherein: the bottom of the bottom plate (620) is also fixed with two supporting components (615); the support assembly (615) comprises a connecting seat (6151) welded at the bottom of the bottom plate (620), two sides of the connecting seat (6151) are movably connected with support arms (6152) through rotating shafts, the bottom of each support arm (6152) is movably connected with a rotating wheel (6153) through the rotating shafts, and an extension spring (6154) is further arranged between the two support arms (6152); the rotating wheel (6153) is attached to the inner wall of the propeller.

6. The marine electric propulsion casing processing apparatus of claim 5, wherein: the leaning frame (69) is composed of a section b, a section c and a section d, wherein the included angle between the section b and the section c is 137 degrees, the included angle between the section c and the section d is 162 degrees, and a convex backing e is integrally arranged on the inner side of the section c.

7. The marine electric propulsion shell processing apparatus of claim 6, wherein: the riding wheel frames (1) are provided with four, and are respectively and fixedly arranged in the four fixed shells (2); two of the four fixed shells (2) are a group, and each group of fixed shells (2) is fixed on the supporting base (3); two support bases (3) are arranged, and a bottom sliding table (4) is arranged between the two support bases (3); the bottom sliding table (4) is connected with a bottom sliding shell (5) in a sliding manner; the bottom sliding shell (5) is fixed with the fixing seat (61) through bolts.

8. A processing technology using the marine electric propulsion shell processing apparatus of claim 7, characterized in that: the method comprises the following steps:

firstly, mounting a propeller, namely firstly sliding a bottom sliding shell (5) to the outermost end of a bottom sliding table (4), then placing the propeller on a riding wheel frame (1), and then sliding the bottom sliding shell (5) to the inner side of the bottom sliding table (4) until a workbench assembly (6) stretches into the propeller, wherein the workbench assembly is in a to-be-operated state;

step two, the cylinder rod of the tilting cylinder (65) is contracted to pull the top U-shaped seat (64) to outwards turn, the fixed sliding table (66) and the top U-shaped seat (64) are tilted outwards and downwards under the cooperation of the movable connecting plate (63), the height between the fixed sliding table (66) and the ground is reduced, at the moment, the worker enters the propeller, then the worker steps on the top plate (68) and enters the leaning frame (69), the worker steps on the pedal (611), the back leans on the leaning frame (69), and then the tool table (6103) is rotated to the right front so as to take tools in working;

step three, when cutting or welding the propeller, as the staff is in an inclined standing state, the hands of the staff can extend to the upper part of the front side of the propeller, and the working position and the face of the staff are in a dislocation state, the working mode is an optimal working state, the face of the staff is not required to be faced upward, the ache caused by the work of the hands in a vertical state is avoided, and the situation that welding slag or cutting slag enters eyelids can be avoided; along with the change of the working position, the driving motor (616) drives the speed reducer (617) to rotate, and the driving gear (618) at the moment stirs the toothed plate (619) to realize the sliding of the fixed sliding table (66) and the sliding frame (67), so that the depth of a worker in the propeller is realized, and the working range of the worker can be increased;

step four, inclination adjustment, namely when a worker needs to adjust the angle of the leaning frame (69) in the working process due to uncomfortable working positions or standing postures of the worker, the cylinder rod of the adjusting cylinder (614) stretches out, and swinging and angle adjustment of the adjusting rod (612) are achieved under the cooperation of the swinging arm (613), so that the adjusting rod (612) leans upwards against the leaning frame (69), and when the cylinder rod of the adjusting cylinder (614) contracts, the inclination adjustment of the leaning frame (69) backwards and downwards can be achieved, and therefore the use requirement of the worker is met;

step five, the rotation of propeller, when carrying out the welding to the inside of propeller casing, runner (6153) laminating in supporting component (615) is in the inside of propeller, have a holding power to bottom plate (620), guarantee the stability of whole workstation subassembly (6) in the inside of propeller, when carrying out the welding to the girth weld of propeller, the motor that outside set up drives the riding wheel on bracket (1) and rotates, realize the rotation of propeller, the staff need not out, can realize rotatory welding work simultaneously, and under the cooperation of runner (6153), can realize continuing to work under the rotatory circumstances of propeller, very big improvement work efficiency.