CN213719449U

CN213719449U - Shellfish culture receiving device

Info

Publication number: CN213719449U
Application number: CN202021392271.3U
Authority: CN
Inventors: 方晶; 方裕华
Original assignee: Dalian Yihai Technology Co ltd
Current assignee: Dalian Yihai Technology Co ltd
Priority date: 2020-07-15
Filing date: 2020-07-15
Publication date: 2021-07-20
Anticipated expiration: 2030-07-15

Abstract

The utility model provides a shellfish breeding cargo collecting device, including a plurality of mechanisms of breeding, a plurality of slide mechanism, a plurality of distance mechanism, track, drive mechanism and be used for restricting the stroke limiting mechanism of end section slide mechanism stroke, it is a plurality of breed mechanism detachably respectively hangs and establishes under a plurality of slide mechanism, and is a plurality of slide mechanism all with track sliding connection, distance mechanism sets up between double-phase adjacent slide mechanism, drive mechanism's driven end and first section slide mechanism fixed connection, drive mechanism's active end with receive and release drive mechanism fixed connection, receive and release drive mechanism and stroke limiting mechanism all with track fixed connection, receive and release drive mechanism drive first section slide mechanism and drive a plurality of mechanisms of breeding of rest through distance mechanism and do the back and forth movement. The utility model discloses can make things convenient for workman's results shellfish of breed, improve work efficiency.

Description

Shellfish culture receiving device

Technical Field

The utility model relates to a shellfish culture field specifically is a shellfish culture delivery device.

Background

The traditional oyster, abalone, scallop and other seashells are cultivated by adopting a mode of driving a fixed pile in an offshore sea area and then hanging a lifting rope or a lifting cage for cultivating the seashells on the fixed pile, the pollution caused by the offshore cultivation mode of the seashells to the offshore area is difficult to clean, the seashells are usually forbidden to be cultivated in the offshore area in recent years, so that the seashells are developed to the deep sea, deep sea storms are large, ocean current flow rate is large, pile driving and fixing difficulty of the fixed pile is large, the traditional fixed pile cultivation method is difficult to be used for deep sea cultivation, the currently developed latent frame can replace the fixed pile to adapt to deep sea cultivation, the lifting rope or the lifting cage can be hung in the latent frame for cultivation, but a working ship needs to be driven to the positions corresponding to different lifting ropes or lifting cages for corresponding work in the harvest process of the seashells, and the working efficiency is low.

Disclosure of Invention

An object of the utility model is to provide a shellfish culture receiving device to solve the problem of proposing among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

a shellfish culture receiving device comprises a plurality of culture mechanisms, a plurality of sliding mechanisms, a plurality of distance mechanisms, a track, a traction mechanism and a stroke limiting mechanism for limiting the stroke of the tail sliding mechanism, wherein the culture mechanisms are respectively detachably hung under the sliding mechanisms which are all connected with the track in a sliding way, the distance mechanism is arranged between two adjacent sliding mechanisms, the driven end of the traction mechanism is fixedly connected with the first section sliding mechanism, the active end of the traction mechanism is fixedly connected with a retraction driving mechanism, the retraction driving mechanism and the stroke limiting mechanism are both fixedly connected with the track, the retractable driving mechanism drives the traction mechanism to drive the first section of sliding mechanism to drive the rest plurality of sliding mechanisms to drive the plurality of breeding mechanisms to move back and forth through the distance-fixing mechanism, so that the plurality of breeding mechanisms are scattered or gathered.

Furthermore, the traction mechanism comprises a harvesting traction module and a stocking traction module, one end of the harvesting traction module and one end of the stocking traction module are fixedly connected with the first section sliding mechanism, the other end of the harvesting traction module and the other end of the stocking traction module are fixedly connected with the winding and unwinding driving mechanism, the winding and unwinding driving mechanism can drive the harvesting traction module to perform rope unwinding movement and simultaneously drive the stocking traction module to perform rope winding movement, and the winding and unwinding driving mechanism can also drive the stocking traction module to perform rope winding movement and simultaneously drive the harvesting traction module to perform rope unwinding movement.

Furthermore, the harvesting traction module comprises a harvesting traction rope and a first guide module used for guiding the harvesting traction rope, two ends of the harvesting traction rope are fixedly connected with the first section sliding mechanism and the retraction driving mechanism respectively, and the first guide module is fixedly connected with the track.

Furthermore, still include extension spring one, extension spring both ends respectively with results haulage rope one end and first section slide mechanism fixed connection.

Furthermore, the stocking traction module comprises a stocking traction rope and a second guide module used for guiding the stocking traction rope, two ends of the stocking traction rope are fixedly connected with the first section sliding mechanism and the winding and unwinding driving mechanism respectively, and the second guide module is fixedly connected with the track.

Furthermore, the device also comprises a second tension spring, and two ends of the first tension spring are fixedly connected with one end of the stocking traction rope and the first section of sliding mechanism respectively.

Further, the stroke limiting mechanism comprises a stop-in baffle, a stop-out baffle and a movable plate which are arranged on the same side, the stop-in baffle and the stop-out baffle are fixedly connected with the track, the lower parts of the stop-in baffle and the stop-out baffle are opposite to the upper part of the movable plate, and the movable plate is fixedly arranged on the tail section sliding mechanism and is positioned between the stop-in baffle and the stop-out baffle.

Furthermore, the winding and unwinding driving mechanism comprises a base, a first guide wheel module, a second guide wheel module, a rope reel support, a rope reel and a driving module, wherein the first guide wheel module, the second guide wheel module and the rope reel support are fixedly arranged under the base, one half of the rope reel corresponds to the first guide wheel module, the other half of the rope reel corresponds to the second guide wheel module, two ends of the rope reel are respectively and rotatably connected with the rope reel support, one end of the rope reel is provided with an extending end penetrating through the rope reel support, the extending end is in driving connection with the driving module, and the driving module drives the rope reel to rotate.

Furthermore, the distance mechanism comprises a first push rod, a second push rod and a distance rope, one end of the first push rod and one end of the second push rod are arranged oppositely, the other end of the first push rod and the other end of the second push rod are fixedly connected with the two adjacent sliding mechanisms respectively, and the two ends of the distance rope are fixedly connected with the two adjacent sliding mechanisms respectively.

The utility model has the advantages that:

rail mounting is on the formula frame of hiding, when needs carry out the results to the sea cowry, the formula frame of hiding drives the utility model discloses the come-up, receive and release actuating mechanism drive first section slide mechanism and promote a plurality of slide mechanism of remaining and realize driving a plurality of breed mechanisms outside the formula frame of hiding along the rail motion, stroke limiting mechanism blocks end section slide mechanism and continues the outside motion, at this moment receive and release actuating mechanism stop work, under the effect of distance mechanism, the laminating realizes that a plurality of breed mechanisms gather together between the adjacent breed mechanism, can make things convenient for workman on the work ship to pull down a plurality of breed mechanisms fast and realize results sea cowry from a plurality of slide mechanism, equally still made things convenient for the workman to adorn a plurality of breed mechanisms that are equipped with sea cowry seedling respectively under a plurality of slide mechanism fast, greatly improved work efficiency.

When seashell seedlings need to be stocked, the retraction driving mechanism drives the traction mechanism to drive the first section of sliding mechanism to pull the rest of the plurality of sliding mechanisms through the distance fixing mechanism to finally drive the plurality of culture mechanisms to move into the hidden frame along the track, when the last section of sliding mechanism moves to a specific position, the stroke limiting mechanism stops the last section of sliding mechanism to continue moving, the retraction driving mechanism stops working at the moment, under the action of the distance fixing mechanism, the plurality of sliding mechanisms are scattered, the set distance is kept between the adjacent sliding mechanisms, the required culture distance is kept between the adjacent culture mechanisms, and the hidden frame drives the track to move downwards to enable the plurality of culture mechanisms to submerge into the sea.

Drawings

FIG. 1: a schematic diagram of the whole structure of the harvest state of a shellfish culture receiving device.

FIG. 2: an enlarged schematic diagram of a position A of a shellfish culture receiving device.

FIG. 3: an enlarged schematic diagram of a shellfish culture receiving device at the position B.

FIG. 4: an enlarged schematic diagram of a shellfish culture receiving device at the position C.

FIG. 5: an overall structure schematic diagram of a receiving and releasing driving mechanism of a shellfish culture receiving device.

FIG. 6: A-A section schematic diagram of a shellfish culture receiving device.

FIG. 7: a partial schematic diagram of the harvesting state of a shellfish culture receiving device.

FIG. 8: a schematic overall structure diagram of a stocking state of a shellfish breeding and receiving device.

Detailed Description

The invention is further explained below with reference to the drawings:

referring to fig. 1 and 8, a shellfish culture receiving device comprises a plurality of culture mechanisms 1 for restricting shellfish positions or shellfish activity areas, a plurality of sliding mechanisms 2, a plurality of distance mechanisms 3, a track 4, a traction mechanism, a stroke limiting mechanism for limiting the stroke of a last section sliding mechanism 2 and a receiving and releasing driving mechanism 7, wherein the plurality of culture mechanisms 1 are respectively detachably hung under the plurality of sliding mechanisms 2, the plurality of sliding mechanisms 2 are all in sliding connection with the track 4, the distance mechanism 3 is arranged between two adjacent sliding mechanisms 2, the driven end of the traction mechanism is fixedly connected with the first section sliding mechanism 2, the driving end of the traction mechanism is fixedly connected with the receiving and releasing driving mechanism 7, the receiving and releasing driving mechanism 7 and the stroke limiting mechanism are fixedly connected with the track 4, the receiving and releasing driving mechanism 7 drives the first section sliding mechanism 2 to drive the rest plurality of sliding mechanisms 2 to drive the plurality of culture mechanisms 1 to move back and forth through the distance mechanisms 3, in the process, under the combined action of the stroke limiting mechanism and the distance mechanism 3, the plurality of culture mechanisms 1 are in a scattered or gathered state.

The cultivation mechanism 1 is a lifting rope or a lifting frame, the lifting rope is used for restraining the position of shellfish, the lifting frame is used for restraining the movable area of the shellfish, the lifting rope or the lifting frame can be selected according to the type of the cultivated shellfish, when the cultivation mechanism 1 is the lifting rope, the upper end of the cultivation mechanism 1 is fixedly connected with a first hanging buckle and detachably connected with the sliding mechanism 2, when the cultivation mechanism 1 is the lifting frame, a connecting rope group is arranged between the cultivation mechanism 1 and the sliding mechanism 2, the upper end of the connecting rope group is fixedly connected with a second hanging buckle and detachably connected with the sliding mechanism 2, the sliding mechanism 2 is a single-rail trolley, a hook convenient for the connection of a traction mechanism is arranged on the side wall of the sliding mechanism 2, and the rail 4 is made of I-steel.

Referring to fig. 1 and 8, the distance-fixing mechanism 3 includes a first push rod 31, a second push rod 32 and a distance-fixing rope 33, one end of the first push rod 31 is opposite to one end of the second push rod 32, the other end of the first push rod 31 is fixedly connected to the two adjacent sliding mechanisms 2, and the other end of the distance-fixing rope 33 is fixedly connected to the two adjacent sliding mechanisms 2.

The traction mechanism comprises a harvesting traction module and a stocking traction module, one end of the harvesting traction module and one end of the stocking traction module are fixedly connected with the first section sliding mechanism 2, the other end of the harvesting traction module and the other end of the stocking traction module are fixedly connected with the winding and unwinding driving mechanism 7, the winding and unwinding driving mechanism 7 can drive the harvesting traction module to perform rope unwinding movement and simultaneously drive the stocking traction module to perform rope winding movement, and the winding and unwinding driving mechanism 7 can also drive the stocking traction module to perform rope winding movement and simultaneously drive the harvesting traction module to perform rope unwinding movement.

Referring to fig. 1 and 2, the harvesting traction module includes a harvesting traction rope 511 and a first guiding module for guiding the harvesting traction rope 511, the rope loops at two ends of the harvesting traction rope 511 are respectively fixedly connected with the first section sliding mechanism 2 and the retraction driving mechanism 7, and the first guiding module is fixedly connected with the track 4.

Referring to fig. 1 and 2, the harvesting pulling rope 511 may be a bungee rope or a nylon rope. When the harvesting traction rope 511 is a nylon rope, the harvesting traction module further comprises a first tension spring 513, a hook at one end of the first tension spring 513 is matched with a rope ring at the end of the harvesting traction rope 511, and a hook at the other end of the first tension spring 513 is matched with a hook of the first-section sliding mechanism 2. The first tension spring 513 is in a tension state, and the harvesting traction rope 511 is always kept in a tension state under the action of the restoring elasticity of the first tension spring 513, so that the harvesting traction rope 511 is prevented from being separated from the first guide module.

Referring to fig. 7, the first guide module includes a plurality of first guide wheel units 5121 and a plurality of second guide wheel units 5122, the axial direction and the horizontal direction of the plurality of guide wheel units are the same direction, the axial direction and the vertical direction of the second guide wheel units 5122 are the same direction, the first guide wheel units 5121 include a first U-shaped groove guide wheel and a first guide wheel bracket, the first U-shaped groove guide wheel is rotatably connected to the first guide wheel bracket, the first guide wheel bracket is fixedly connected to the track 4, the second guide wheel units 5122 include a second U-shaped groove guide wheel and a second guide wheel bracket, the second U-shaped groove guide wheel is rotatably connected to the second guide wheel bracket, and the second guide wheel bracket is fixedly connected to the track 4.

Referring to fig. 1 and 2, the stocking traction module includes a stocking traction rope 521 and a second guide module for guiding the stocking traction rope 521, the rope loops at two ends of the stocking traction rope 521 are respectively fixedly connected with the first section sliding mechanism 2 and the retraction driving mechanism 7, the second guide module is fixedly connected with the track 4, and the second guide wheel module and the first guide wheel module have the same structure.

Referring to fig. 1 and 2, the stocking pulling rope 521 may be an elastic rope or a nylon rope. When the stocking traction rope 521 is a nylon rope, the stocking traction module further comprises a second tension spring 523, a hook at one end of the second tension spring 523 is matched with a rope ring at one end of the stocking traction rope 521, and a hook at the other end of the second tension spring 523 is matched with a hook of the first-section sliding mechanism 2. The second tension spring 523 is in a tension state, and the stocking traction rope 521 is always kept in a tension state under the action of the restoring elasticity of the second tension spring 523 so as to prevent the stocking traction rope 521 from being separated from the second guide module.

Referring to fig. 1 and 8, the stroke limiting mechanism includes a stop baffle 61, a stop baffle 62 and a movable plate 63 which are all arranged at the same side, the stop baffle 61 and the stop baffle 62 are both fixedly connected with the rail 4, the stop baffle 61 and the stop baffle 62 are both higher than the plurality of sliding mechanisms 2, the lower parts of the stop baffle 61 and the stop baffle 62 are both opposite to the upper part of the movable plate 63, and the movable plate 63 is fixedly arranged on the last sliding mechanism 2 and is located between the stop baffle 61 and the stop baffle 62.

Referring to fig. 5 and 6, the retraction driving mechanism 7 includes a base 71, a first guide wheel module 72, a second guide wheel module 73, a rope reel bracket 74, a rope reel 75 and a driving module, the first guide wheel module 72, the second guide wheel module 73 and the rope reel bracket 74 are all fixedly disposed under the base 71, one half of the rope reel 75 corresponds to the first guide wheel module 72, the other half of the rope reel 75 corresponds to the second guide wheel module 73, two ends of the rope reel 75 are respectively rotatably connected to the rope reel bracket 74, one end of the rope reel 75 is provided with an extending end penetrating through the rope reel bracket 74, the extending end is in driving connection with the driving module, the driving module drives the rope reel 75 to rotate, and the driving module is detachably connected above the base 71. A circle of partition 751 is fixedly arranged in the middle of the rope reel 75 and divides the rope reel 75 into two rope storage areas for storing the harvesting pulling rope 511 and the stocking pulling rope 521 respectively.

The first guide wheel module 72 and the second guide wheel module 73 are identical in structure, the first guide wheel module 72 comprises a third U-shaped groove guide wheel and a third guide wheel bracket, the third U-shaped groove guide wheel is rotatably connected below the third guide wheel bracket, and the third guide wheel bracket is fixedly connected below the base 71.

The driving module is a motor, the rope reel 75 can be driven by the driving module through a synchronous belt of a synchronous wheel, and the driving module is electrically connected with a power supply on a work ship.

The utility model discloses a theory of operation:

the track 4 is installed on the latent frame, when seashells need to be harvested, the latent frame drives the utility model to float, the driving module drives the rope reel 75 to rotate to make the harvesting traction rope 511 to take up the rope and make the stocking traction rope 521 to pay off the rope, the harvesting traction rope 511 drives the first section sliding mechanism 2 to push the push rod two 32 through the push rod one 31 by the tension spring to realize that the rest multiple culturing mechanisms 2 respectively drive the multiple culturing mechanisms 1 to move to the outside of the latent frame along the track 4, when the stop baffle 62 is jointed with the movable plate 63, the multiple sliding mechanisms 2 stop sliding, the driving module stops working at the same time, under the action of the push rod one 31 and the push rod two 32, the adjacent culturing mechanisms 1 are jointed to realize that the multiple culturing mechanisms 1 are gathered and arranged orderly, workers on a working ship can conveniently and quickly detach the multiple culturing mechanisms 1 from the multiple sliding mechanisms 2 to realize the harvesting of seashells, and meanwhile, workers can conveniently and quickly install a plurality of seashell fry-containing culture mechanisms 1 under a plurality of sliding mechanisms 2, so that the working efficiency is greatly improved.

When seashell seedlings need to be stocked, the driving module drives the rope disc 75 to rotate so that the harvesting hauling rope 511 makes rope paying-off movement and the stocking hauling rope 521 makes rope collecting movement, the stocking hauling rope 521 drives the first section of sliding mechanism 2 through the tension spring two 523 and pulls the rest of the plurality of sliding mechanisms 2 through the spacing rope 33 to respectively drive the plurality of breeding mechanisms 1 to move into the hidden frame along the rail 4, when the stopping baffle 61 is attached to the movable plate 63, the last section of sliding mechanism stops sliding, the driving module stops working at the same time, under the action of the plurality of spacing ropes 33, the plurality of sliding mechanisms 2 are in a scattering state, the set distance is kept between the adjacent sliding mechanisms 2, the required breeding distance is kept between the adjacent breeding mechanisms 1, and the hidden frame realizes that the plurality of breeding mechanisms 1 submerge into the sea by driving the rail 4 to move downwards.

The above is not intended to limit the technical scope of the present invention, and any modifications, equivalent changes and modifications made to the above embodiments according to the technical spirit of the present invention are all within the scope of the technical solution of the present invention.

Claims

1. The utility model provides a shellfish farming receiving devices which characterized in that: including a plurality of mechanisms of breeding, a plurality of sliding mechanism, a plurality of distance mechanism, track, drive mechanism and be used for restricting the stroke limiting mechanism of end section sliding mechanism stroke, it is a plurality of breed mechanism detachably respectively hangs and establishes under a plurality of sliding mechanism, and is a plurality of sliding mechanism all with track sliding connection, distance mechanism sets up between two adjacent sliding mechanism, drive mechanism's driven end and first section sliding mechanism fixed connection, drive mechanism's driving end and receive and release actuating mechanism fixed connection, receive and release actuating mechanism and stroke limiting mechanism all with track fixed connection, receive and release actuating mechanism drive first section sliding mechanism and drive a plurality of mechanisms of breeding of remaining sliding mechanism transmission through distance mechanism and do the back and forth movement.

2. The shellfish farming receiving apparatus of claim 1, wherein: the traction mechanism comprises a harvesting traction module and a stocking traction module, one end of the harvesting traction module and one end of the stocking traction module are fixedly connected with the first section sliding mechanism, the other end of the harvesting traction module and the other end of the stocking traction module are fixedly connected with the winding and unwinding driving mechanism, the winding and unwinding driving mechanism can drive the harvesting traction module to perform rope unwinding motion and drive the stocking traction module to perform rope winding motion, and the winding and unwinding driving mechanism can also drive the stocking traction module to perform rope winding motion and drive the harvesting traction module to perform rope unwinding motion.

3. The shellfish farming receiving apparatus of claim 2, wherein: the harvesting traction module comprises a harvesting traction rope and a first guide module used for guiding the harvesting traction rope, the two ends of the harvesting traction rope are fixedly connected with the first section sliding mechanism and the retraction driving mechanism respectively, and the first guide module is fixedly connected with the track.

4. The shellfish farming receiving apparatus of claim 3, wherein: the harvester also comprises a first tension spring, and two ends of the first tension spring are fixedly connected with one end of the harvesting traction rope and the first section of sliding mechanism respectively.

5. The shellfish farming receiving apparatus of claim 2, wherein: the stocking traction module comprises a stocking traction rope and a second guide module used for guiding the stocking traction rope, two ends of the stocking traction rope are fixedly connected with the first section sliding mechanism and the retracting driving mechanism respectively, and the second guide module is fixedly connected with the track.

6. The shellfish farming receiving apparatus of claim 5, wherein: the first section of sliding mechanism is fixedly connected with the first section of the sliding mechanism.

7. The shellfish farming receiving apparatus of claim 1, wherein: the stroke limiting mechanism comprises a stop-in baffle, a stop-out baffle and a movable plate which are arranged on the same side, the stop-in baffle and the stop-out baffle are fixedly connected with the track, the lower parts of the stop-in baffle and the stop-out baffle are opposite to the upper part of the movable plate, and the movable plate is fixedly arranged on the tail section sliding mechanism and is positioned between the stop-in baffle and the stop-out baffle.

8. The shellfish farming receiving apparatus of claim 1, wherein: receive and release actuating mechanism includes base, guide pulley module one, guide pulley module two, rope reel support, rope reel and drive module, guide pulley module one, guide pulley module two and rope reel support all set firmly under the base, half of rope reel corresponds with guide pulley module one, half of rope reel corresponds with guide pulley module two, the rope reel both ends respectively with rope reel support rotatable coupling, rope reel one end is equipped with the extension end of wearing out the rope reel support, the extension end is connected with the drive module drive, drive module drive rope reel is rotary motion.

9. The shellfish farming receiving apparatus of claim 1, wherein: the distance mechanism comprises a first push rod, a second push rod and a distance rope, one end of the first push rod and one end of the second push rod are arranged oppositely, the other ends of the first push rod and the second push rod are fixedly connected with the two adjacent sliding mechanisms respectively, and the two ends of the distance rope are fixedly connected with the two adjacent sliding mechanisms respectively.