CN112602645A

CN112602645A - Remote control feeding device for aquaculture ship

Info

Publication number: CN112602645A
Application number: CN202011476517.XA
Authority: CN
Inventors: 曾志伟
Original assignee: JIANGXI WANGNONG AGRICULTURAL MACHINERY MANUFACTURING CO LTD
Current assignee: Anhui Oye Technology Co ltd
Priority date: 2020-12-15
Filing date: 2020-12-15
Publication date: 2021-04-06
Anticipated expiration: 2040-12-15
Also published as: CN112602645B

Abstract

The invention relates to a feeding device, in particular to a remote control feeding device for an aquaculture ship. The technical problem of the invention is as follows: the remote control feeding device of the aquaculture ship can reduce the labor amount of aquaculture personnel and can enable the aquaculture personnel to be relaxed. The technical implementation scheme of the invention is as follows: a remote control feeding device of an aquaculture ship comprises a ship body and a first connecting ring, wherein the first connecting ring is fixedly connected to the upper side of the ship body; the upper side of the first connecting ring is fixedly connected with an arc shell; and the indicating lamp is arranged on one side of the top of the arc-shaped shell. According to the invention, the remote controller can be used for the material scattering mechanism to work, so that the feed is scattered in the pond and fed, the labor amount of the culture personnel is reduced, the culture personnel can feel more relaxed, the material scattering pipe can be blocked through the sealing mechanism, and the feed in the storage box is prevented from being affected with damp.

Description

Remote control feeding device for aquaculture ship

Technical Field

The invention relates to a feeding device, in particular to a remote control feeding device for an aquaculture ship.

Background

The aquaculture refers to the production activity of artificially raising aquatic products, and by applying a reasonable culture technology, culture facilities such as ponds and the like are built to raise some aquatic products, and in the culture process, the aquatic products need to be regularly fed with feed to avoid the death of the aquatic products.

Because the pond is bigger, so breeder need take the boat to pond central authorities when throwing the fodder, then manually shed the fodder in the pond, because the aquatic products of breed are more, so breeder's the amount of labour is very big, and is tired relatively.

Therefore, a device which can reduce the labor amount of the breeding personnel and make the breeding personnel relaxed is particularly needed to solve the existing problems.

Disclosure of Invention

In order to overcome the defects that the amount of labour of cultivation personnel is large and the cultivation personnel is tired due to the fact that a plurality of cultivated aquatic products are produced, the technical problems of the invention are as follows: the remote control feeding device of the aquaculture ship can reduce the labor amount of aquaculture personnel and can enable the aquaculture personnel to be relaxed.

The technical implementation scheme of the invention is as follows: a remote control feeding device of an aquaculture ship comprises a ship body and a first connecting ring, wherein the first connecting ring is fixedly connected to the upper side of the ship body; the upper side of the first connecting ring is fixedly connected with an arc shell; the indicating lamp is arranged on one side of the top of the arc-shaped shell; the buzzer is arranged on one side, close to the indicator light, of the top of the arc-shaped shell; the transverse plate is horizontally and fixedly connected in the ship body; the storage mechanism is arranged in the arc-shaped shell; the material scattering mechanism is arranged on the material storage mechanism; and the inflation mechanism is mounted on the upper side of the ship body.

In a preferred embodiment of the present invention, the storage mechanism comprises a storage box, and the storage box is fixedly connected to the lower portion of the arc-shaped shell; the upper side of the arc-shaped shell is fixedly connected with a feeding pipe, and the feeding pipe is made of iron; the magnetic sealing cover is arranged on the feeding pipe; the material storage box comprises a first photoelectric sensor, and a first photoelectric sensor is arranged in the middle of the material storage box.

In a preferred embodiment of the invention, the spreading mechanism comprises a first driving motor, the first driving motor is arranged in the middle of the lower side of the storage box, and an output shaft of the first driving motor is rotatably connected with the storage box; the output shaft of the first driving motor is provided with a spiral conveying rod; the upper side of the material storage box is fixedly connected with a fixing pipe, and the spiral conveying rod is positioned in the fixing pipe; the upper end of the fixed pipe is rotatably connected with a connecting pipe, and the connecting pipe is fixedly connected with the spiral conveying rod; the upper end of the connecting pipe is fixedly connected with a material scattering pipe.

In a preferred embodiment of the invention, the inflation mechanism comprises an air pump, and the air pump is arranged on the lower side of the transverse plate; the air pump is fixedly connected with an air outlet pipe, and the air outlet pipe penetrates through the transverse plate; the elastic cushion is fixedly connected to the upper side of the ship body and fixedly connected with the arc-shaped shell.

In a preferred embodiment of the invention, the sealing mechanism comprises an external thread pipe, and the external thread pipe is arranged on the outer side of the connecting pipe; the external thread pipe is provided with an internal thread sleeve; the upper end of the internal thread sleeve is fixedly connected with a second connecting ring; the upper end of the second connecting ring is fixedly connected with the sealing pipe; the middle of the top of the arc-shaped shell is embedded with a guide ring, and the guide ring is in sliding fit with the sealing tube; the outer side of the fixed pipe is rotatably connected with a fixed ring; the fixing pipe is sleeved with a first spring, and two ends of the first spring are respectively connected with the internal thread sleeve and the fixing ring.

In a preferred embodiment of the invention, the crushing device further comprises a crushing mechanism, wherein the crushing mechanism comprises a second driving motor, and the second driving motor is installed on the inner wall of the arc-shaped shell; the output shaft of the second driving motor is provided with a cam; the second photoelectric sensor is embedded on the feeding pipe; the two sides of the feeding pipe are fixedly connected with the fixed seats; the first grating is fixedly connected between the fixed seats; the two sides of the first grating are fixedly connected with guide rails; the guide sleeves are arranged on the guide rails in a sliding manner; the guide rail is sleeved with a second spring, and two ends of the second spring are respectively connected with the guide rail and the guide sleeve; and a second grid is fixedly connected between the guide sleeves.

In a preferred embodiment of the invention, the material pushing device further comprises a material pushing mechanism, wherein the material pushing mechanism comprises an arc-shaped blade, and the arc-shaped blade is fixedly connected to the lower part of the spiral conveying rod.

In a preferred embodiment of the invention, the device further comprises a control box, one side of the arc-shaped shell is provided with the control box, including switching power supply in the control box, power module, control module, 315M receiving module and remote controller, switching power supply is the power supply of whole device, switching power supply's output and power module pass through electric connection, there is the power master switch through the line connection on the power module, power module and control module pass through electric connection, 315M receiving module and remote controller pass through wireless transmission and connect, be equipped with on the remote controller and spill material key and stop key, last DS1302 clock circuit and the 24C02 circuit of being connected with of control module, the pilot lamp, bee calling organ, first photoelectric sensor and second photoelectric sensor all pass through electric connection with control module, first driving motor, air pump and second driving motor all pass through peripheral circuit with control module and are connected.

Compared with the prior art, the invention has the following advantages:

1. can spill material mechanism work through the remote controller, spill the fodder in the pond, throw and feed the fodder, alleviate breeder's the amount of labour, let breeder's relaxation more.

2. The material scattering pipe can be blocked through the sealing mechanism, and the feed in the storage box is prevented from being damped.

3. Can break up the fodder through broken mechanism, prevent the fodder caking to be favorable to the auger delivery pole to carry the fodder.

4. Can stir the spiral delivery pole through dialling the fodder in the material mechanism around, make things convenient for the spiral delivery pole to carry the fodder.

Drawings

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

Fig. 2 is a schematic view of the three-dimensional structure of the storage mechanism of the present utility model.

Fig. 3 is a schematic perspective view of the sealing mechanism of the present invention.

Fig. 4 is a partial perspective view of the present invention.

Fig. 5 is a schematic perspective view of the crushing mechanism of the present invention.

FIG. 6 is a block diagram of the circuit of the present invention.

Fig. 7 is a schematic circuit diagram of the present invention.

The parts are labeled as follows: 1. a hull, 2, a first connection ring, 3, an arc-shaped shell, 41, a control box, 42, an indicator light, 44, a buzzer, 5, a transverse plate, 6, a storage mechanism, 61, a storage box, 62, a magnetic sealing cover, 63, a feeding pipe, 64, a first photoelectric sensor, 7, a material scattering mechanism, 71, a first driving motor, 72, a spiral conveying rod, 73, a fixed pipe, 74, a connection pipe, 75, a material scattering pipe, 8, an inflation mechanism, 81, an air pump, 82, an air outlet pipe, 83, an elastic pad, 9, a sealing mechanism, 91, an internal thread sleeve, 92, a fixed ring, 93, a first spring, 94, an external thread pipe, 95, a second connection ring, 96, a sealing pipe, 97, a guide ring, 10, a crushing mechanism, 101, a second driving motor, 102, a cam, 103, a second photoelectric sensor, 104, a fixed seat, 105, a first grating, 106, a guide rail, 107, a second spring, 108, Guide sleeve 109, second grid, 11, kickoff, 111, arc blade.

Detailed Description

It is to be noted that, in the case of the different described embodiments, identical components are provided with the same reference numerals or the same component names, wherein the disclosure contained in the entire description can be transferred to identical components having the same reference numerals or the same component names in a meaningful manner. The positional references selected in the description, such as upper, lower, lateral, etc., refer also to the directly described and illustrated figures and are to be read into the new position in the sense of a change in position.

Example 1

The utility model provides a remote control feeding device of aquaculture ship, as shown in fig. 1-5, including hull 1, first connecting ring 2, arc shell 3, pilot lamp 42, bee calling organ 44, diaphragm 5, storage mechanism 6, spill material mechanism 7 and inflating mechanism 8, hull 1 top is connected with first connecting

ring

2, 2 tops of first connecting ring are connected with arc shell 3, pilot lamp 42 and bee calling organ 44 are installed through the bolt in 3 top right sides of arc shell, bee calling organ 44 is located pilot lamp 42 right side, upper portion horizontally connect has diaphragm 5 in hull 1, install storage mechanism 6 in the arc shell 3, install on the storage mechanism 6 and spill material mechanism 7, mechanism 8 is inflated in the left side of 1 top of hull.

Storage mechanism 6 is including storage case 61, the sealed lid of magnetism 62, filling tube 63 and first photoelectric sensor 64, and sub-unit connection has storage case 61 in the

arc shell

3, and 3 top left sides of arc shell are connected with filling tube 63, and filling tube 63 is iron, is equipped with the sealed lid of magnetism 62 on the filling tube 63, and storage case 61 mid-mounting has first photoelectric sensor 64.

Spill material mechanism 7 is including first driving motor 71, auger delivery pole 72, fixed pipe 73, connecting pipe 74 and spill material pipe 75, install first driving motor 71 through the bolt in the middle of the storage tank 61 bottom, the output shaft of first driving motor 71 and storage tank 61 bottom rotary type are connected, auger delivery pole 72 is installed on the output shaft of first driving motor 71, storage tank 61 top intermediate junction has fixed pipe 73, auger delivery pole 72 is located fixed pipe 73, fixed pipe 73 top rotary type is connected with connecting pipe 74, connecting pipe 74 and auger delivery pole 72 are connected, the connecting pipe 74 top is connected with spills material pipe 75.

The inflating mechanism 8 comprises an air pump 81, an air outlet pipe 82 and an elastic cushion 83, the air pump 81 is installed on the left side of the bottom of the transverse plate 5 through a bolt, the air pump 81 is connected with the air outlet pipe 82, the air outlet pipe 82 penetrates through the left portion of the transverse plate 5, the elastic cushion 83 is connected on the left side of the top of the ship body 1, and the elastic cushion 83 is connected with the arc-shaped shell 3.

The whole device is put into a pond by a farmer, then a power supply master switch is pressed to electrify the whole device, the control module controls the first photoelectric sensor 64 to work, the farmer steps on the elastic pad 83 to open the magnetic sealing cover 62, feed is poured into the storage box 61 through the feeding pipe 63, when enough feed is filled in the storage box 61, the farmer closes the magnetic sealing cover 62, then a material spreading key on a remote controller is pressed to send a signal, the control module receives the signal and controls the air pump 81 to work for 5 seconds, the air pump 81 sucks external air into the air outlet pipe 82, the air flows into the elastic pad 83 through the air outlet pipe 82, the elastic pad 83 expands, after 5 seconds, the control module controls the air pump 81 to be closed, and simultaneously controls the first driving motor 71 to rotate clockwise, the first driving motor 71 drives the spiral conveying rod 72 to rotate, the spiral conveying rod 72 drives the connecting pipe 74 to rotate clockwise, the spiral conveying rod 72 conveys the feed in the storage box 61 to the fixed pipe 73 and the connecting pipe 74, the feed enters the material scattering pipe 75 and is scattered out of the material scattering pipe 75, the feed falls into the pond along the arc-shaped shell 3 and the elastic cushion 83 to be fed, at the moment, the air in the elastic cushion 83 slowly flows out, when the feed is not required to be fed, a farmer presses a stop key on a remote controller to send a signal, the control module receives the signal and then controls the first driving motor 71 to rotate anticlockwise for 5 seconds, the first driving motor 71 drives the spiral conveying rod 72 to rotate anticlockwise, after 5 seconds, the control module controls the first driving motor 71 to stop anticlockwise rotation, if the first photoelectric sensor 64 detects that the feed in the storage box 61 is insufficient, the first photoelectric sensor 64 sends a signal, the control module receives the signal and then controls the first driving motor 71 to rotate anticlockwise for 5 seconds, first driving motor 71 drives auger delivery pole 72 anticlockwise rotation, 5 seconds back, first driving motor 71 of control module control stops anticlockwise rotation, control module control pilot lamp 42 lights simultaneously, control module control buzzer 44 sounds simultaneously, tell the breed personnel not enough of fodder in the storage tank 61, when first photoelectric sensor 64 detects the fodder again, pilot lamp 42 extinguishes, buzzer 44 does not sound, press the power master switch once more, the outage of whole device, first photoelectric sensor 64 stop work.

Example 2

In addition to embodiment 1, as shown in fig. 2 to 5, the sealing mechanism 9 further includes a sealing mechanism 9, the sealing mechanism 9 includes an internal thread bushing 91, a fixing ring 92, a first spring 93, an external thread pipe 94, a second connecting ring 95, a sealing pipe 96 and a guide ring 97, the external thread pipe 94 is connected to the lower portion of the outer side of the connecting pipe 74, the internal thread bushing 91 is arranged on the external thread pipe 94, the second connecting ring 95 is connected to the top of the internal thread bushing 91, the sealing pipe 96 is connected to the top of the second connecting ring 95, the guide ring 97 is embedded in the middle of the top of the arc-shaped shell 3, the guide ring 97 is slidably engaged with the sealing pipe 96, the fixing ring 92 is rotatably connected to the lower portion of the outer side of the fixing pipe 73, the first spring 93 is sleeved on the fixing pipe 73, and.

The sealing pipe 96 can block the material scattering pipe 75, prevent the outside air from entering the material storage box 61 through the material scattering pipe 75, thereby preventing the fodder in the material storage box 61 from being affected with damp, when the connecting pipe 74 rotates clockwise, the connecting pipe 74 drives the external thread pipe 94 to rotate clockwise, the external thread pipe 94 drives the internal thread sleeve 91 to move upwards, the first spring 93 is stretched, the internal thread sleeve 91 drives the second connecting ring 95 to move upwards, the second connecting ring 95 drives the sealing pipe 96 to move upwards, the sealing pipe 96 opens the material scattering pipe 75, the fodder is not hindered to be put in, when the connecting pipe 74 rotates anticlockwise, the connecting pipe 74 drives the external thread pipe 94 to rotate anticlockwise, the external thread pipe 94 drives the internal thread sleeve 91 to move downwards, the first spring 93 can assist the internal thread sleeve 91 to move downwards, the internal thread sleeve 91 drives the sealing pipe 96 to move downwards, the material scattering pipe 75 is blocked again.

The crusher also comprises a crushing mechanism 10, wherein the crushing mechanism 10 comprises a second driving motor 101, a cam 102, a second photoelectric sensor 103 and a fixed seat 104, first grid 105, guide rail 106, second spring 107, uide bushing 108 and second grid 109, second driving motor 101 is installed at the top in the arc shell 3, install cam 102 on the output shaft of second driving motor 101, second photoelectric sensor 103 is installed to filling tube 63 front side upper portion embedded, both sides all are connected with fixing base 104 around the filling tube 63 middle part, be connected with first grid 105 between two fixing base 104 bottoms, both sides all are connected with guide rail 106 around first grid 105, all the slidingtype is equipped with uide bushing 108 on two guide rails 106, all the cover has second spring 107 on two guide rails 106, the both ends of second spring 107 are connected with guide rail 106 and uide bushing 108 respectively, be connected with second grid 109 between two uide bushing 108 bottoms.

After the whole device is powered on, the control module controls the second photoelectric sensor 103 to work, when the farmer pours the feed into the storage box 61, the second photoelectric sensor 103 detects the feed, the second photoelectric sensor 103 sends out a signal, the control module receives the signal and then controls the second driving motor 101 to work, the second driving motor 101 drives the cam 102 to rotate, the cam 102 continuously pushes the guide sleeve 108 on the front side, under the action of the second spring 107, the guide sleeve 108 on the front side moves left and right, the guide sleeve 108 on the front side drives the second grating 109 to move left and right, through the cooperation of the first grating 105, the feed is scattered, the feed is prevented from caking, thereby being beneficial to conveying the feed by the spiral conveying rod 72, when the second photoelectric sensor 103 cannot detect the feed, the second photoelectric sensor 103 sends out a signal, and the control module receives the signal and then controls the second driving motor 101 to stop working.

The material poking device further comprises a material poking mechanism 11, wherein the material poking mechanism 11 comprises arc-shaped blades 111, and the lower part of the spiral conveying rod 72 is connected with the arc-shaped blades 111.

When auger delivery pole 72 clockwise turning, auger delivery pole 72 drives arc blade 111 clockwise turning, and arc blade 111 can stir the fodder in storage case 61 around auger delivery pole 72, makes things convenient for auger delivery pole 72 to carry the fodder.

As shown in fig. 1, 6 and 7, the device further comprises a control box 41, the right side of the arc-shaped shell 3 is connected with the control box 41, the control box 41 comprises a switching power supply, a power supply module and a control module, 315M receiving module and remote controller, switching power supply supplies power for whole device, switching power supply's output and power module pass through electric connection, power module is last to have the power master switch through the line connection, power module and control module pass through electric connection, 315M receiving module and remote controller pass through wireless transmission and connect, be equipped with on the remote controller and spill material key and stop key, the last DS1302 clock circuit and the 24C02 circuit of being connected with of control module, pilot lamp 42, bee calling organ 44, first photoelectric sensor 64 and second photoelectric sensor 103 all pass through electric connection with control module, first driving motor 71, air pump 81 and second driving motor 101 all pass through peripheral circuit with control module and are connected.

While the disclosure has been described with respect to a limited number of embodiments, those skilled in the art, having benefit of this disclosure, will appreciate that various other embodiments can be devised which do not depart from the scope of the invention as disclosed herein. Accordingly, the scope of the invention should be limited only by the attached claims.

Claims

1. The utility model provides a material device is thrown in remote control of aquaculture ship which characterized by including:

the ship comprises a ship body (1) and a first connecting ring (2), wherein the upper side of the ship body (1) is fixedly connected with the first connecting ring (2);

the upper side of the first connecting ring (2) is fixedly connected with the arc shell (3);

the indicating lamp (42) is installed on one side of the top of the arc-shaped shell (3);

the buzzer (44) is mounted on one side, close to the indicator lamp (42), of the top of the arc-shaped shell (3);

the transverse plate (5) is horizontally and fixedly connected in the ship body (1);

the storage mechanism (6) is arranged in the arc-shaped shell (3);

the material spreading mechanism (7) is arranged on the material storage mechanism (6);

and the inflation mechanism (8) is arranged on the upper side of the ship body (1).

2. An aquaculture ship remote control feeding device according to claim 1, characterized in that the storage means (6) comprise:

the storage box (61) is fixedly connected to the lower portion in the arc-shaped shell (3);

the feeding pipe (63) is fixedly connected to the upper side of the arc-shaped shell (3), and the feeding pipe (63) is made of iron;

the feeding pipe (63) is provided with a magnetic sealing cover (62);

the material storage box (61) is provided with a first photoelectric sensor (64) in the middle.

3. An aquaculture ship remote control feeding device according to claim 2, characterized in that the spreading mechanism (7) comprises:

the middle part of the lower side of the storage box (61) is provided with the first driving motor (71), and an output shaft of the first driving motor (71) is rotatably connected with the storage box (61);

the spiral conveying rod (72) is mounted on an output shaft of the first driving motor (71);

the upper side of the material storage box (61) is fixedly connected with a fixed pipe (73), and the spiral conveying rod (72) is positioned in the fixed pipe (73);

the upper end of the fixed pipe (73) is rotatably connected with a connecting pipe (74), and the connecting pipe (74) is fixedly connected with the spiral conveying rod (72);

the upper end of the connecting pipe (74) is fixedly connected with a material scattering pipe (75).

4. An aquaculture ship remote control feeding device according to claim 3, characterized in that the air charging means (8) comprise:

the air pump (81), the air pump (81) is installed on the lower side of the transverse plate (5);

the air pump (81) is fixedly connected with an air outlet pipe (82), and the air outlet pipe (82) penetrates through the transverse plate (5);

the elastic cushion (83) is fixedly connected to the upper side of the ship body (1), and the elastic cushion (83) is fixedly connected with the arc-shaped shell (3).

5. An aquaculture ship remote control feeding device according to claim 4, further comprising a sealing mechanism (9), wherein the sealing mechanism (9) comprises:

an external thread pipe (94), wherein the external thread pipe (94) is installed on the outer side of the connecting pipe (74);

the external thread pipe (94) is provided with an internal thread sleeve (91);

the upper end of the internal thread sleeve (91) is fixedly connected with a second connecting ring (95);

the upper end of the second connecting ring (95) is fixedly connected with the sealing tube (96);

the middle of the top of the arc-shaped shell (3) is embedded with the guide ring (97), and the guide ring (97) is in sliding fit with the sealing pipe (96);

the outer side of the fixing pipe (73) is rotatably connected with a fixing ring (92);

the fixing device comprises a first spring (93), wherein the fixing pipe (73) is sleeved with the first spring (93), and two ends of the first spring (93) are respectively connected with the internal thread sleeve (91) and the fixing ring (92).

6. An aquaculture ship remote control feeding device according to claim 5, further comprising a crushing mechanism (10), wherein the crushing mechanism (10) comprises:

the inner wall of the arc-shaped shell (3) is provided with the second driving motor (101);

a cam (102), wherein the cam (102) is mounted on the output shaft of the second driving motor (101);

the second photoelectric sensor (103) is embedded on the feeding pipe (63);

the two sides of the feeding pipe (63) are fixedly connected with the fixed seats (104);

the first grating (105) is fixedly connected between the fixed seats (104);

the guide rails (106) are fixedly connected to two sides of the first grating (105);

the guide rails (106) are all provided with guide sleeves (108) in a sliding manner;

the guide rail (106) is sleeved with a second spring (107), and two ends of the second spring (107) are respectively connected with the guide rail (106) and the guide sleeve (108);

and a second grating (109) is fixedly connected between the guide sleeves (108).

7. An aquaculture ship remote control feeding device according to claim 6, further comprising a material shifting mechanism (11), wherein the material shifting mechanism (11) comprises:

the spiral conveying device comprises arc-shaped blades (111), and the arc-shaped blades (111) are fixedly connected to the lower portion of the spiral conveying rod (72).

8. The remote control feeding device of the aquaculture ship according to claim 7, which further comprises a control box (41), wherein the control box (41) is installed on one side of the arc-shaped shell (3), the control box (41) comprises a switching power supply, a power supply module, a control module, a 315M receiving module and a remote controller, the switching power supply supplies power to the whole device, the output end of the switching power supply is electrically connected with the power supply module, the power supply module is connected with a power supply main switch through a circuit, the power supply module is electrically connected with the control module, the 315M receiving module is connected with the remote controller through wireless transmission, the remote controller is provided with a material key and a stop key, the control module is connected with a DS1302 clock circuit and a 24C02 circuit, and the indicator lamp (42), the buzzer (44), the first photoelectric sensor (64) and the second photoelectric sensor (103) are electrically connected with the control module, the first driving motor (71), the air pump (81) and the second driving motor (101) are connected with the control module through peripheral circuits.