CN117533818A - Cargo conveying device for ship - Google Patents

Abstract

The invention relates to the field of ships, in particular to a cargo conveying device for ships. The technical problems of the invention are that: the cargo conveying device for the ship can enable the next partition plate to be opened when the blanking speed is reduced, is convenient for continuously conveying sand and stone, and can ensure that the partition plate is reset after conveying is finished. The cargo conveying device for the ship comprises a bottom mounting plate, side support frames, a storage inclined frame, a discharge inclined frame and the like; the side rigid coupling has two side support frames on the bottom mounting panel, two the side support frame is the symmetry setting, two the rigid coupling has the storage inclined frame between the side on the side support frame, it has the discharge gate to store inclined frame lower part opening, the one side rigid coupling that stores inclined frame and be close to the discharge gate has the ejection of compact inclined frame. The threaded sliding frame is intermittently separated from the threaded rod, the threaded sliding frame intermittently moves, and the next swinging partition plate can be opened when the blanking speed is reduced, so that sand and stones in the storage inclined frame can be continuously conveyed out.

Description

Cargo conveying device for ship

Technical Field

The invention relates to the field of ships, in particular to a cargo conveying device for ships.

Background

The ships are common cargo transportation tools, compared with the tools used in other transportation modes, the ships have the advantages of large carrying capacity and low operation cost, along with the development of world economy, modern transportation ships form huge fleets with various types, complex technology and high specialization, sand and stone are common building materials, the transportation ships often need to transport sand and stone, after the ships transport sand and stone to destinations, sand and stone on the ships need to be detached, a conveying belt is needed when the sand and stone is detached, and sand and stone on the ships are conveyed to the land through the conveying belt.

Because the grit volume on the boats and ships is more, in order to let the conveyer belt can not bear too big pressure, make the conveyer belt can stably carry the grit, the baffle can be filled up to the bottom of grit, during the transportation, need the manual work to take out one of them baffle, the grit of one of them baffle top will slide on the conveyer belt, the rethread conveyer belt rotates and carries the grit, the in-process of carrying, the grit on the conveyer belt also reduces gradually, need the manual work to take out next baffle, let the grit of next baffle top slide to carry on the conveyer belt, when the baffle is taken out one by one to the manual work, the grit can slide rapidly under the effect of gravity, the personal safety of workman can be endangered, and after the grit on the boats and ships is carried, still need the workman to put a plurality of baffles on the boats and ships again one by one, it is comparatively troublesome.

Disclosure of Invention

In order to overcome the defects that when sand and stone are conveyed in the prior art, the partition plates are required to be manually pulled out one by one, the sand and stone can slide down rapidly under the action of gravity, the personal safety of workers can be endangered, and after sand and stone on a ship are conveyed, the workers are required to put a plurality of partition plates on the ship one by one, so that the sand and stone conveying device is troublesome in use, the technical problem of the invention is that: the cargo conveying device for the ship can enable the next partition plate to be opened when the blanking speed is reduced, is convenient for continuously conveying sand and stone, and can ensure that the partition plate is reset after conveying is finished.

The technical implementation scheme of the invention is as follows: the utility model provides a cargo conveyor for boats and ships, includes bottom mounting panel, side support frame, stores oblique frame, ejection of compact oblique frame, guard frame, servo motor, conveying subassembly and swing supporting component, the side rigid coupling has two side support frames on the bottom mounting panel, two the side support frame is the symmetry setting, two the rigid coupling has stores oblique frame between the side on the side support frame, it has the discharge gate to store oblique frame lower part, it has ejection of compact oblique frame to store one side rigid coupling that the oblique frame is close to the discharge gate, it has the guard frame to store oblique frame both sides rigid coupling, side fixed mounting has servo motor and is located one of them guard frame on the bottom mounting panel, be equipped with conveying subassembly on the storage oblique frame, be equipped with swing supporting component on the storage oblique frame.

Further, the conveying assembly comprises conveying rollers, conveying belts, supporting rollers and guide inclined plates, two conveying rollers are rotatably connected to the lower portion of the storage inclined frame, two conveying rollers are symmetrically arranged, one end of an output shaft of a servo motor is fixedly connected with one of the conveying rollers, two conveying rollers are wound with the conveying belts and located on the lower portion of the storage inclined frame, a plurality of supporting rollers are rotatably connected to the lower portion of the storage inclined frame and located on the conveying belts, two guide inclined plates are fixedly connected to the lower portion of the inner wall of the storage inclined frame, and the two guide inclined plates are symmetrically arranged and located above the conveying belts.

Further, swing supporting component is including swing baffle, spacing ring, torsion spring, fixed slide rail frame, slip aperture board, extension spring and wedge stripper, lower part rotation is connected with a plurality of swing baffles in the storage inclined frame, and is adjacent the swing baffle contacts, the one end rigid coupling that servo motor was kept away from to the swing baffle has the spacing ring, be connected with torsion spring between the spacing ring and the storage inclined, the swing baffle passes torsion spring, the one side rigid coupling that servo motor was kept away from to storage inclined frame lower part has a plurality of fixed slide rail frames, the slip is connected with the slip aperture board on the fixed slide rail frame, be connected with two extension springs between slip aperture board and the storage inclined frame, fixed slide rail frame passes extension spring, slip aperture board bottom rigid coupling has the wedge stripper.

Further, still including the blanking opening assembly, the blanking opening assembly is located on the storage inclined frame, the blanking opening assembly is including worm, threaded rod, worm wheel, slide rail strip, carriage, threaded carriage, fixed trompil frame, sliding grooving frame and homing spring, is close to the rigid coupling has the worm on the conveyer roll of ejection of compact inclined frame one side and is located another protection frame, the one side rotary type that the servo motor was kept away from to the storage inclined frame is connected with the threaded rod, the one side rigid coupling that the threaded rod is close to ejection of compact inclined frame has the worm wheel and is located the worm top, worm and worm wheel meshing, the one side rigid coupling that the servo motor was kept away from to the storage inclined frame has two slide rail strips, two the slide rail strip is the symmetry setting, two be connected with the carriage between the slide rail strip, two on the carriage threaded carriage be the symmetry setting, two threaded rod one side that threaded carriage is close to each other is equipped with the screw, be located between two threaded carriages, threaded carriage and pass through threaded connection, threaded rod side and grooved frame have the trompil, grooved frame and grooved frame have fixed slot and grooved frame, grooved frame fixed connection have, grooved frame and grooved frame.

Further, still including the material control assembly that arranges, the material control assembly that arranges locates on the fixed slide rail frame and is connected with the swing baffle, the material control assembly that arranges is including slip spacing, reset spring and clamping bar frame, one side sliding type that the inclined frame was kept away from to the fixed slide rail frame is connected with the slip spacing, be connected with reset spring between slip spacing and the fixed slide rail frame, one side rigid coupling that servo motor was kept away from to the swing baffle has the clamping bar frame, slip spacing upper end can be contacted with the clamping bar frame.

Further, the device also comprises a homing frame and a shaking-off plate, wherein the homing frame is fixedly connected to one side, far away from the storage inclined frame, of the sliding support frame, the upper end of the homing frame is contacted with the clamping rod frame, the shaking-off plate is fixedly connected to the upper part of the homing frame, and the shaking-off plate is contacted with the clamping rod frame.

Further, the automatic feeding device also comprises a rotary pushing frame, a pushing frame and a slotting transmission frame, wherein one end of the conveying roller, which is far away from the servo motor, is fixedly connected with the rotary pushing frame, the pushing frame is connected onto the discharging inclined frame in a sliding manner, the upper part of the pushing frame is positioned in the discharging inclined frame, and the lower part of the pushing frame is fixedly connected with the slotting transmission frame and is connected with the rotary pushing frame in a sliding manner.

The invention has the following advantages:

1. the swing partition plates can swing in sequence and open, sand in the storage inclined frame continuously slides onto the conveying belt to be conveyed, then sand in the storage inclined frame can fall off, sand conveyed on the conveying belt can be reduced, the torsion spring can reset to drive the swing partition plates and the limiting ring to reset, the limiting ring does not block the sliding perforated plate any more, the telescopic spring resets to drive the sliding perforated plate to reset, and the purpose of conveying sand is achieved.

2. The intermittent threaded sliding frame is separated from the threaded rod, and the intermittent threaded sliding frame moves in the direction away from the discharging inclined frame, so that the next swinging partition plate can be opened when the blanking speed is reduced, and sand and stone in the storage inclined frame can be conveniently and continuously conveyed out.

3. If wet residual sand and stone is attached to the swing partition board, the swing partition board cannot reset under the action of gravity of the residual sand and stone, the shake-off board can be in contact with the clamping rod frame, the shake-off board can drive the clamping rod frame and the swing partition board to swing reciprocally, so that the residual sand and stone on the swing partition board falls off, the homing frame continues to move towards the direction close to the discharging inclined frame and can push the clamping rod frame to reset, the clamping rod frame drives the swing partition board to reset, and the swing partition board can reset, so that sand and stone can be conveniently conveyed next time.

4. When the conveying roller rotates, the conveying roller can drive the rotary pushing frame to rotate, and the rotary pushing frame drives the pushing frame to reciprocate up and down through the slotting transmission frame, so that the pushing frame pushes sand in the storage inclined frame, sand in the storage inclined frame can fall down rapidly, and sand is convenient to convey.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a schematic perspective view of a first part of the present invention.

Fig. 4 is a schematic perspective view, partly in section, of the present invention.

Fig. 5 is a schematic perspective view of a second part of the present invention.

Fig. 6 is a schematic perspective view of a third portion of the present invention.

Fig. 7 is an enlarged perspective view of the present invention a.

Fig. 8 is a schematic perspective view of a fourth part of the present invention.

Fig. 9 is a schematic perspective view of a fifth part of the present invention.

Fig. 10 is a schematic perspective view of a sixth part of the present invention.

In the above figures: 1: bottom mounting plate, 21: side support frame, 22: storage bezel, 23: discharging inclined frame, 24: protective frame, 25: servo motor, 3: conveying assembly, 31: conveying roller, 32: conveyor belt, 33: backup roll, 34: guiding sloping plate, 4: swing support assembly, 41: swing partition, 42: stop collar, 43: torsion spring, 44: fixed slide rail frame, 45: sliding aperture plate, 46: telescopic spring, 47: wedge stripper plate, 5: blanking opening assembly, 51: worm, 52: threaded rod, 53: worm gear, 54: slide rail, 55: sliding support, 56: threaded carriage, 57: fixed trompil frame, 58: sliding slotted frame, 59: return spring, 6: discharge control assembly, 61: sliding limit frame, 62: return spring, 63: clamping rod frame, 71: homing frame, 72: shake-off plate, 81: rotating pushing frame, 82: pushing frame, 83: a grooved transmission frame.

Description of the embodiments

In the description of the present invention, unless explicitly stated and limited otherwise, the terms "connected" and "connected" are to be construed broadly, and for example, they may be fixedly connected, detachably connected, or integrally connected, mechanically connected, electrically connected, or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

Examples

1-10, including bottom mounting panel 1, side support frame 21, store inclined frame 22, ejection of compact inclined frame 23, protection frame 24, servo motor 25, conveying component 3 and swing support component 4, two side support frames 21 are installed through the rivet to bottom mounting panel 1 upside, and two side support frames 21 are the symmetry setting, two rigid coupling has the inclined frame 22 of storing between the side support frame 21 upside, it is used for storing the grit to store inclined frame 22, it has the discharge gate to store inclined frame 22 lower part, the one side rigid coupling that is close to the discharge gate of inclined frame 22 of storing has ejection of compact inclined frame 23, ejection of compact inclined frame 23 is used for exporting the grit, it has protection frame 24 to store inclined frame 22 both sides fixed mounting, servo motor 25 and be located one of them protection frame 24 to store inclined frame 22 on the side fixed mounting have conveying component 3, conveying component 3 is used for carrying, be equipped with swing support component 4 on the inclined frame 22 of storing.

The conveying assembly 3 comprises conveying rollers 31, conveying belts 32, supporting rollers 33 and guide inclined plates 34, wherein the two conveying rollers 31 are rotatably connected to the lower portion of the storage inclined frame 22, the two conveying rollers 31 are symmetrically arranged, one end of an output shaft of the servo motor 25 is fixedly connected with one conveying roller 31, the two conveying rollers 31 are wound with the conveying belts 32 and positioned at the lower portion in the storage inclined frame 22, the conveying belts 32 are used for conveying sand and stones, the plurality of supporting rollers 33 are rotatably connected to the lower portion in the storage inclined frame 22 and positioned in the conveying belts 32, the two guide inclined plates 34 are fixedly arranged at the lower portion of the inner wall of the storage inclined frame 22, and the guide inclined plates 34 are used for guiding sand and stones in the storage inclined frame 22 and are symmetrically arranged and positioned above the conveying belts 32.

The swing support assembly 4 comprises a swing partition 41, a limiting ring 42, a torsion spring 43, a fixed sliding rail frame 44, a sliding opening plate 45, a telescopic spring 46 and a wedge-shaped extrusion plate 47, wherein the lower part in the storage inclined frame 22 is rotationally connected with a plurality of swing partition 41, the adjacent swing partition 41 is contacted, the swing partition 41 is used for blocking sand and stones in the storage inclined frame 22, one end of the swing partition 41, far away from the servo motor 25, is welded with the limiting ring 42, the torsion spring 43 is connected between the limiting ring 42 and the storage inclined frame, the swing partition 41 penetrates through the torsion spring 43, one side, far away from the servo motor 25, of the lower part of the storage inclined frame 22 is welded with a plurality of fixed sliding rail frames 44, the sliding opening plate 45 is connected with the storage inclined frame 22 in a sliding manner, two telescopic springs 46 are connected between the sliding opening plate 45 and the storage inclined frame 22 through hooks, the fixed sliding rail frames 44 penetrate through the telescopic spring 46, and the wedge-shaped extrusion plate 47 is fixedly installed at the bottom of the sliding opening plate 45.

Firstly, the bottom mounting plate 1 is mounted on the hull of a ship, sand is filled in the discharging inclined frame 23, initially, the sliding opening plate 45 limits the limiting ring 42, so that the limiting ring 42 and the swinging baffle plate 41 are kept motionless, when sand in the discharging inclined frame 23 needs to be dismounted, a worker starts the servo motor 25, the servo motor 25 drives one of the conveying rollers 31 to reverse through the output shaft, one of the conveying rollers 31 drives the other conveying roller 31 to reverse through the conveying belt 32, the worker pulls one of the sliding opening plate 45 to move in a direction away from the storage inclined frame 22, the one of the sliding opening plate 45 does not limit the limiting ring 42 and the swinging baffle plate 41 any more, the sand can push one of the swinging baffle plate 41 and the limiting ring 42 to swing clockwise under the action of gravity, the one of the limiting ring 42 can block the one of the sliding opening plate 45, so that the one of the sliding opening plate 45 can not reset temporarily, after the one of the swinging baffle plates 41 swings clockwise, the one of the sand and the sand in the storage inclined frame 22 is driven by the output shaft to reverse through the output shaft, the one of the conveying rollers 31 drives the other conveying roller 31 to move reversely through the conveying belt 32 when the one of the swinging baffle plates 41 swings, the sand and the sand can not swing the one of the sand and the sand can swing the conveying belt 32 to swing down through the swinging baffle plate 32, and the one of the sand can not swing the conveying belt 32 to swing the baffle plate 32; then the sand and stone above one of the swinging partition plates 41 in the storage inclined frame 22 can slide down, the conveying belt 32 continuously rotates forward, sand and stone on the conveying belt 32 can be reduced, a worker pulls the next sliding opening plate 45 to move away from the storage inclined frame 22, the next swinging partition plate 41 swings, sand and stone above the next swinging partition plate 41 in the storage inclined frame 22 can slide onto the conveying belt 32 and sequentially reciprocate, a plurality of swinging partition plates 41 are sequentially swung and opened, sand and stone in the storage inclined frame 22 continuously slides onto the conveying belt 32 to be conveyed, then sand and stone in the storage inclined frame 22 can fall down, sand and stone conveyed on the conveying belt 32 can be reduced, the torsion spring 43 can reset to drive the swinging partition plates 41 and the limiting rings 42 to reset, the limiting rings 42 do not block the sliding opening plate 45 any more, the telescopic spring 46 resets to drive the sliding opening plate 45 to reset, the purpose of conveying sand and stone can be conveyed, and finally, the worker turns off the servo motor 25.

Examples

On the basis of embodiment 1, as shown in fig. 7-10, the automatic feeding device further comprises a feeding opening assembly 5, the feeding opening assembly 5 is arranged on the storage inclined frame 22, the feeding opening assembly 5 is used for replacing manual pulling of the sliding opening plate 45 to move away from the storage inclined frame 22, the feeding opening assembly 5 comprises a worm 51, a threaded rod 52, a worm wheel 53, a sliding rail 54, a sliding support frame 55, a threaded sliding frame 56, a fixed opening frame 57, a sliding opening frame 58 and a homing spring 59, a worm 51 is fixedly connected to a conveying roller 31 close to one side of the discharge inclined frame 23 and is positioned in the other protective frame 24, one side of the storage inclined frame 22 away from the servo motor 25 is rotatably connected with a threaded rod 52, one side of the threaded rod 52 close to the discharge inclined frame 23 is fixedly connected with a worm wheel 53 and is positioned above the worm 51, the worm 51 is meshed with the worm wheel 53, two sliding rail strips 54 are fixedly arranged on one side of the storage inclined frame 22 far away from the servo motor 25, the two sliding rail strips 54 are symmetrically arranged, a sliding support frame 55 is connected between the two sliding rail strips 54 in a sliding mode, two threaded sliding frames 56 are connected on the sliding support frame 55 in a sliding mode, threads are arranged on one side, close to each other, of the two threaded sliding frames 56, the threaded rod 52 is positioned between the two threaded sliding frames 56, the threaded sliding frames 56 are connected with the threaded rod 52 through threads, the threaded rod 52 drives the threaded sliding frames 56 to slowly move towards a direction far away from the discharge inclined frame 23 when rotating, a fixed opening frame 57 is welded on the upper side face of the sliding support frame 55, a sliding grooving frame 58 is connected on the fixed opening frame 57 in a sliding mode, the upper end of the sliding slotting frame 58 is contacted with the wedge-shaped extrusion plate 47, the sliding slotting frame 58 pushes the wedge-shaped extrusion plate 47 to move away from the storage inclined frame 22 when moving away from the discharging inclined frame 23, two inclined grooves are formed in the lower portion of the sliding slotting frame 58 instead of manually pulling the sliding slotting plate 45 to move away from the storage inclined frame 22, the inclined grooves on the sliding slotting frame 58 are connected with the threaded sliding frame 56 in a sliding mode, and a homing spring 59 is connected between the sliding slotting frame 58 and the fixed perforated frame 57 through a hook.

When the conveying roller 31 rotates clockwise, the conveying roller 31 at one side close to the discharging inclined frame 23 drives the worm 51 to rotate clockwise, the worm 51 drives the worm wheel 53 and the threaded rod 52 to rotate, the threaded rod 52 drives the threaded sliding frame 56 and the sliding supporting frame 55 to slowly move towards the direction away from the discharging inclined frame 23, the sliding supporting frame 55 drives the fixed opening frame 57 and the sliding grooving frame 58 to move towards the direction away from the discharging inclined frame 23, and the sliding grooving frame 58 pushes the wedge-shaped extrusion plate 47 and the sliding opening plate 45 to move towards the direction away from the storing inclined frame 22, so that the sliding opening plate 45 is pulled to move towards the direction away from the storing inclined frame 22 instead of manual operation.

Examples

On the basis of embodiment 1, as shown in fig. 7-9, the automatic sand feeding device further comprises a discharge control assembly 6, wherein the discharge control assembly 6 is arranged on the fixed sliding rail frame 44 and is connected with the swing partition 41, the discharge control assembly 6 is used for enabling the next swing partition 41 to be opened when the discharging speed is reduced, sand in the storage inclined frame 22 is convenient to convey continuously, the discharge control assembly 6 comprises a sliding limit frame 61, a return spring 62 and a clamping rod frame 63, one side, far away from the storage inclined frame 22, of the fixed sliding rail frame 44 is connected with the sliding limit frame 61 in a sliding mode, a return spring 62 is connected between the sliding limit frame 61 and the fixed sliding rail frame 44 through a hook, one side, far away from the servo motor 25, of the swing partition 41 is fixedly connected with the clamping rod frame 63, the upper end of the sliding limit frame 61 is contacted with the clamping rod frame 63, and the clamping rod frame 63 is swung clockwise to push the sliding limit frame 61 to move downwards.

When the slide groove frame 58 moves away from the discharging inclined frame 23, the slide groove frame 58 is contacted with the slide limiting frame 61, when the limiting ring 42 swings clockwise, the limiting ring 42 drives the clamping rod frame 63 to swing clockwise, the clamping rod frame 63 pushes the slide limiting frame 61 to move downwards, the slide limiting frame 61 drives the slide groove frame 58 to move downwards, the slide groove frame 58 drives the two threaded slide frames 56 to move away from each other, the threaded rods 52 are separated from each other, the threaded rods 52 continue to rotate, the threaded slide frames 56 are kept still, sand above one of the swing partition plates 41 in the storing inclined frame 22 continuously falls down, when sand above one of the swing partition plates 41 in the storing inclined frame 22 falls down at a slower speed, the sand above the conveying belt 32 is less and less, one of the swing partition plates 41 is reset, the limiting ring 42 resets the clamping rod frame 63, the reset spring 62 resets the slide limiting frame 61, the slide groove frame 58 resets upwards, the slide groove frames 58 drives the two threaded slide frames 56 to move away from each other, the threaded rods 56 move away from each other in the direction, the direction of the threaded rods 52 are pushed away from each other, the threaded rods 52 move away from the discharging inclined frame 22 continuously, the cut-off plate 45 is opened, the cut-off screw rods 45 move the cut-off plates 45 continuously, and the cut-off slide frames 56 move away from each other, and the cut-off plates 45 move down, the cut-off plates are opened, and the cut-off plates are moved down, and the cut-off plates are moved, and the cut-off. Facilitating the continuous transport of sand from the storage chute 22.

Examples

On the basis of embodiment 1, as shown in fig. 9, the device further comprises a homing frame 71 and a shaking-off plate 72, wherein the homing frame 71 is fixedly connected to one side of the sliding support frame 55 far away from the storage inclined frame 22, the upper end of the homing frame 71 is contacted with the clamping rod frame 63, the homing frame 71 moves towards the direction close to the discharging inclined frame 23 and pushes the clamping rod frame 63 to reset, the shaking-off plate 72 is fixedly connected to the upper portion of the homing frame 71, the shaking-off plate 72 is contacted with the clamping rod frame 63, and the shaking-off plate 72 drives the clamping rod frame 63 and the swinging partition 41 to swing reciprocally when reset, so that sand and stone remained on the swinging partition 41 falls.

When the sliding support frame 55 moves towards the direction away from the discharging inclined frame 23, the sliding support frame 55 drives the homing frame 71 and the shaking-off plate 72 to move towards the direction away from the discharging inclined frame 23, when the sliding support frame 55 moves towards the direction close to the discharging inclined frame 23 for resetting, the sliding support frame 55 drives the homing frame 71 and the shaking-off plate 72 to move towards the direction close to the discharging inclined frame 23 for resetting, if wet residual sand and stone adhere to the swinging partition board 41, the swinging partition board 41 cannot reset under the action of gravity of the residual sand and stone, the Chinese angelica position frame 71 and the shaking-off plate 72 can be contacted with the clamping rod frame 63 when the shaking-off plate 72 resets, the shaking-off plate 72 can drive the clamping rod frame 63 and the swinging partition board 41 to swing reciprocally, so that the residual sand and stone on the swinging partition board 41 falls, the homing frame 71 continues to move towards the direction close to the discharging inclined frame 23 and can push the clamping rod frame 63 to reset, and the clamping rod frame 63 drives the swinging partition board 41 to reset, so that the swinging partition board 41 can reset, and the next sand and stone conveying is ensured.

Examples

On the basis of embodiment 1, as shown in fig. 4, the sand and gravel storage device further comprises a rotary pushing frame 81, a pushing frame 82 and a slotted transmission frame 83, wherein one end of the conveying roller 31, which is far away from the servo motor 25, is fixedly connected with the rotary pushing frame 81, the pushing frame 82 is connected to the discharging inclined frame 23 in a sliding manner, the upper part of the pushing frame 82 is positioned in the discharging inclined frame 23, and sand and gravel in the storage inclined frame 22 can be pushed by the up-and-down reciprocating motion of the pushing frame 82, so that the sand and gravel in the storage inclined frame 22 can fall down quickly, and the sand and gravel can be conveniently conveyed, and the slotted transmission frame 83 is fixedly connected to the lower part of the pushing frame 82 and is connected with the rotary pushing frame 81 in a sliding manner.

When the conveying roller 31 rotates, the conveying roller 31 drives the rotary pushing frame 81 to rotate, and the rotary pushing frame 81 drives the pushing frame 82 to reciprocate up and down through the slotted transmission frame 83, so that the pushing frame 82 pushes sand in the storage inclined frame 22, sand in the storage inclined frame 22 can fall down rapidly, and sand is convenient to convey.

The embodiments of the invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (7)

1. A cargo transportation device for a ship, characterized by: including bottom mounting panel (1), side support frame (21), store oblique frame (22), ejection of compact oblique frame (23), protection frame (24), servo motor (25), conveying component (3) and swing supporting component (4), side rigid coupling has two side support frames (21) on bottom mounting panel (1), two side support frame (21) are the symmetry setting, two the rigid coupling has between side support frame (21) the side and stores oblique frame (22), it has the discharge gate to store oblique frame (22) lower part, one side rigid coupling that stores oblique frame (22) is close to the discharge gate has ejection of compact oblique frame (23), store oblique frame (22) both sides rigid coupling has protection frame (24), side fixed mounting has servo motor (25) and is located one of them protection frame (24) on bottom mounting panel (1), be equipped with conveying component (3) on storing oblique frame (22), be equipped with swing supporting component (4) on storing oblique frame (22).

2. A cargo transferring device for a ship according to claim 1, wherein: conveying assembly (3) are including conveying roller (31), conveyer belt (32), backing roll (33) and direction swash plate (34), store inclined frame (22) lower part rotation and be connected with two conveying roller (31), two conveying roller (31) are the symmetry setting, servo motor (25) output shaft one end and one of them conveying roller (31) rigid coupling, two around conveyer belt (32) and be located the interior lower part of storing inclined frame (22) between conveying roller (31), lower part rotation is connected with a plurality of backing rolls (33) and is located conveyer belt (32) in storing inclined frame (22), store inclined frame (22) inner wall lower part rigid coupling and have two direction swash plate (34), two direction swash plate (34) are the symmetry setting, and are located conveyer belt (32) top.

3. A cargo transferring device for a ship according to claim 2, wherein: swing supporting component (4) are including swing baffle (41), spacing ring (42), torsion spring (43), fixed slide rail frame (44), slip orifice plate (45), telescopic spring (46) and wedge stripper plate (47), lower part rotation formula is connected with a plurality of swing baffles (41) in storing inclined frame (22), adjacent swing baffle (41) contact, swing baffle (41) keep away from one end rigid coupling of servo motor (25) and have spacing ring (42), be connected with torsion spring (43) between spacing ring (42) and the storage inclined, swing baffle (41) pass torsion spring (43), one side rigid coupling that servo motor (25) was kept away from to storage inclined frame (22) lower part has a plurality of fixed slide rail frame (44), the last slidingtype connection of fixed slide rail frame (44) has slip orifice plate (45), be connected with two telescopic spring (46) between slip orifice plate (45) and the storage inclined frame (22), fixed slide rail frame (44) pass telescopic spring (46), slip orifice plate (45) bottom rigid coupling has wedge stripper plate (47).

4. A cargo transferring device for a ship according to claim 3, wherein: the automatic discharging device is characterized by further comprising a discharging opening assembly (5), wherein the discharging opening assembly (5) is arranged on the storage inclined frame (22), the discharging opening assembly (5) comprises a worm (51), a threaded rod (52), a worm wheel (53), sliding rail strips (54), a sliding support frame (55), a sliding frame (56) with threads, a fixed hole opening frame (57), a sliding slotted frame (58) and a homing spring (59), the worm (51) is fixedly connected to a conveying roller (31) close to one side of the discharging inclined frame (23) and is positioned in the other protective frame (24), one side of the storage inclined frame (22) far away from a servo motor (25) is rotatably connected with the threaded rod (52), one side of the threaded rod (52) close to the discharging inclined frame (23) is fixedly connected with the worm wheel (53) and is positioned above the worm (51), the worm (51) is meshed with the worm wheel (53), one side of the storage inclined frame (22) far away from the servo motor (25) is fixedly connected with two sliding rails (54), the two sliding rail strips (54) are symmetrically arranged, the two sliding frames (55) are connected with the sliding frame (56) in a threaded manner, two one sides that take screw slide frame (56) to be close to each other are equipped with the screw thread, threaded rod (52) are located between two screw slide frames (56), threaded slide frame (56) pass through threaded connection with threaded rod (52), fixed trompil frame (57) are fixed to slide support frame (55) upside rigid coupling, fixed trompil frame (57) go up sliding connection have sliding slotted frame (58), sliding slotted frame (58) upper end can contact with wedge stripper plate (47), sliding slotted frame (58) lower part is opened there are two chute, chute on sliding slotted frame (58) is connected with screw slide frame (56) slidingtype, be connected with reset spring (59) between sliding slotted frame (58) and fixed trompil frame (57).

5. A cargo transferring device for a ship according to claim 4, wherein: still including row material control assembly (6), row material control assembly (6) locate on fixed slide rail frame (44) and be connected with swing baffle (41), row material control assembly (6) are including slip spacing (61), reset spring (62) and clamping bar frame (63), one side slip type that stores oblique frame (22) is kept away from to fixed slide rail frame (44) is connected with slip spacing (61), be connected with reset spring (62) between slip spacing (61) and fixed slide rail frame (44), one side rigid coupling that servo motor (25) was kept away from to swing baffle (41) has clamping bar frame (63), slip spacing (61) upper end can be contacted with clamping bar frame (63).

6. A cargo transferring device for a ship according to claim 5, wherein: still including homing frame (71) and tremble off board (72), one side rigid coupling that stores oblique frame (22) was kept away from to sliding support frame (55) has homing frame (71), homing frame (71) upper end can be with clamping rod frame (63) contact, homing frame (71) upper portion rigid coupling has tremble off board (72), tremble off board (72) can be with clamping rod frame (63) contact.

7. A cargo transferring device for a ship according to claim 6, wherein: still including rotating pushing away frame (81), pushing away frame (82) and fluting transmission frame (83), the one end rigid coupling that servo motor (25) was kept away from to conveying roller (31) has rotating pushing away frame (81), slip on ejection of compact oblique frame (23) is connected with pushing away frame (82), pushing away frame (82) upper portion is located in ejection of compact oblique frame (23), pushing away frame (82) lower part rigid coupling has fluting transmission frame (83) and is connected with rotating pushing away frame (81) slidingtype.