CN114097692A - Device and method capable of preventing aquatic feed from being affected with damp in feeding process - Google Patents

Abstract

The invention discloses a device and a method for preventing feed from being damped in the feeding process of aquatic feed, which comprises a feeding assembly, a buckle bolt, a feeding assembly, a mixing box and a fixing bolt, wherein the feeding assembly controls a feeding pipe in a feeding shell to move upwards through an adjusting slide block, finally an insertion pipe above the feeding pipe is inserted into a one-way membrane in an insertion mounting opening, the feed is added into a feeding hopper at the top of the mixing box, mixed auxiliary materials are added into an auxiliary material hopper, the feed added into the mixing box enters the feeding assembly through the insertion pipe after being screened by a feed sieve plate, a heating resistor is powered and heated through a power supply interface, the feeding sleeve is at constant temperature, the feed is conveyed into the feeding sleeve through a spiral conveying pipe, and the feed is discharged from a feeding head and fed into a culture water area through the overturning conveying of the buckle sleeve and an overturning blade, so that the aquatic feed is kept in a dry state in the feeding process, prevent to wet, and realized the mixed transport of aquatic products fodder and auxiliary material.

Description

Device and method capable of preventing aquatic feed from being affected with damp in feeding process

Technical Field

The invention relates to the technical field of aquatic feeds, in particular to a device and a method capable of preventing a feed from being damped in a feeding process of an aquatic feed.

Background

The aquatic feed is produced with fish bone, shrimp, shellfish and other material and includes mainly fish meal, shrimp head powder, shell powder, etc. the fish meal is high protein feed produced with one or several kinds of fishes as material and through deoiling, dewatering and crushing, and the fish meal is excellent animal protein feed for balancing protein and amino acid and good feed for balancing mineral matter, especially trace elements.

Patent No. CN201711400488.7 provides a device is thrown to aquaculture feed of box with a net breed formula large yellow croaker, and the device can remove on the box with a net by oneself, realizes removing on one side, throws the mode of material on one side, has replaced the artifical mode of throwing the material, has avoided the manual work to throw the material on the one hand and waste time and energy, and on the other hand has avoided the raiser to use when the mode of the artificial aquatic feeds of shedding, easy landing is to the box with a net, causes the problem of damage. The above patents have the following problems:

1. in the process of putting the aquatic feed into the device, the feed is easily affected with moisture and is affected with damp, and the damped aquatic feed is easy to rapidly deteriorate, so that the aquaculture of aquatic fishes is influenced;

2. the device need carry out the mixture of fodder and auxiliary material by oneself before carrying out aquatic products fodder and throwing something and feeding, puts the fodder into the device again and throws something and feed, and this flow spends time longer.

Disclosure of Invention

The invention aims to provide a device and a method capable of preventing feed from being damped in the feeding process of aquatic feed, wherein a feed conveying pipe in a feed conveying shell is controlled to move upwards through an adjusting slide block, an inserting pipe above the feed conveying pipe is finally inserted into a one-way membrane in an inserting mounting opening, feed is added into a feed hopper at the top of a mixing box, mixed auxiliary materials are added into an auxiliary material hopper, the feed added into the mixing box enters a feed conveying assembly through an inserting pipe after being screened by a feed sieve plate, a heating resistor is powered and heated through a power supply interface, the feeding sleeve is at a constant heat temperature, the feed is conveyed into the feeding sleeve through a spiral conveying pipe, and the feed is discharged from a feeding head and is fed into a culture water area through the overturning conveying of a buckle sleeve and an overturning blade, so that the problem in the background technology is solved.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides a can prevent that aquatic products fodder from throwing device that material in-process fodder wets, is including throwing material subassembly, buckle bolt, defeated material subassembly, compounding case and fixing bolt, throw the upside of material subassembly and install the buckle bolt respectively in both ends about, the upside of throwing the material subassembly is equipped with defeated material subassembly, the top installation compounding case of defeated material subassembly, fixing bolt is installed respectively to the left and right sides on defeated material subassembly top.

Preferably, the feeding assembly comprises a connecting plate, bolt holes, a heating sleeve, a heating resistor, a power supply interface, a feeding sleeve, an external fixing screw, a feeding head, a buckle sleeve and a turnover blade, the bolt holes are respectively formed in the inner sides of the left end and the right end of the connecting plate, the heating sleeve is arranged at the center of the bottom of the connecting plate, the heating resistor is arranged inside the heating sleeve, the power supply interface is arranged at the tail end of the heating resistor, the feeding sleeve is arranged inside the heating sleeve, the external fixing screw is arranged on the lower side of the front face of the feeding sleeve, the buckle sleeve is arranged inside the feeding sleeve, the turnover blade is arranged on the side face of the buckle sleeve, and the feeding head is arranged at the bottom of the feeding sleeve.

Preferably, the conveying assembly comprises a conveying shell, a ventilating assembly, lug plate bolts, a clamping groove, an adjusting chute, an adjusting slider, a connecting rod, a conveying pipe, an embedded pipe, a spiral conveying pipe, a discharging port and bolt clamping grooves, the ventilating assembly is installed on the left side and the right side of the conveying shell respectively, the lug plate bolts are installed on the ventilating assembly, the adjusting chute is arranged on the front side of the conveying shell, the adjusting slider is installed in the adjusting chute, the connecting rod is arranged on the bottom side of the adjusting slider, the tail end of the connecting rod is provided with the conveying pipe, the embedded pipe is arranged at the top of the conveying pipe, the spiral conveying pipe is arranged at the bottom of the conveying pipe, the bottom of the spiral conveying pipe is connected to the discharging port, and the bolt clamping grooves are formed in the left side face and the right side face of the clamping groove respectively.

Preferably, the ventilation assembly comprises a buckling plate, a fixing lug plate, a ventilation shell, a ventilation groove, an internal connecting rod, a motor clamping sleeve, a ventilation motor and a ventilation fan blade, the fixing lug plate is arranged on the left side of the buckling plate, the ventilation shell is arranged on the right side of the buckling plate, the ventilation groove is formed in the right side of the ventilation shell, the internal connecting rod is arranged inside the ventilation shell, the motor clamping sleeve is arranged at the center of the internal connecting rod, the ventilation motor is installed in the motor clamping sleeve, and the ventilation fan blade is installed on the ventilation motor.

Preferably, the compounding case includes case shell, folded plate buckle, folded plate bolt, fodder sieve, feeder hopper, hopper bolt, assists the hopper, inlay card installing port and one-way membrane, install the folded plate buckle through folded plate bolt on the inner wall of case shell, the top of folded plate buckle is equipped with the fodder sieve, the top of case shell is equipped with the feeder hopper, the side-mounting hopper bolt of feeder hopper, the left and right sides of case shell is equipped with respectively assists the hopper, the bottom center department of case shell is equipped with the inlay card installing port, the inside of inlay card installing port is equipped with one-way membrane.

Preferably, the embedded insertion pipe penetrates through the material conveying shell and the embedded groove and is embedded and installed in the one-way film in the embedded installation opening.

The invention provides another technical scheme: an implementation method of a device capable of preventing aquatic feed from being affected with damp in the feeding process comprises the following steps:

the method comprises the following steps: the material conveying pipe in the material conveying shell is controlled to move upwards through the adjusting slide block, and finally the inserting pipe above the material conveying pipe is inserted into the one-way film in the inserting mounting opening;

step two: the feed is added into a feed hopper at the top of the mixing box, mixed auxiliary materials are added into an auxiliary material hopper, and the feed added into the mixing box enters a feed conveying assembly through an insertion pipe after being screened by a feed sieve plate;

step three: the heating resistor is powered and heated through the power supply interface, so that the feeding sleeve is at a constant heat temperature;

step four: the fodder passes through spiral delivery pipe and carries to throwing in the material cover to carry via buckle sleeve pipe and upset of upset blade, discharge and put in and breed the waters from throwing stub bar department with the fodder.

Compared with the prior art, the invention has the beneficial effects that:

the invention provides a device and a method for preventing feed from being affected with damp in the feeding process of aquatic feed, the feed delivery pipe in the feed delivery shell is controlled to move upwards by adjusting the slide block, and finally the inserting pipe above the feed delivery pipe is inserted in the one-way film in the inserting installation opening, the feed is added into a feed hopper at the top of the mixing box, the mixed auxiliary materials are added into an auxiliary material hopper, the feed added into the mixing box is screened by a feed sieve plate, enters the material conveying assembly through the inserted pipe, supplies power and heats the heating resistor through the power supply interface, enables the feeding sleeve to be at a constant temperature, conveys the feed into the feeding sleeve through the spiral conveying pipe, and through the upset transport of buckle sleeve pipe and upset blade, discharge and put in and breed the waters from throwing the stub bar with the fodder, realized that aquatic products fodder keeps dry state at the input in-process, prevents to wet, and has realized the mixed transport of aquatic products fodder and auxiliary material.

Drawings

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

FIG. 2 is a schematic view of the feeding assembly of the present invention in partial cross-section;

FIG. 3 is a schematic cross-sectional view of the feeding assembly of the present invention;

FIG. 4 is a schematic structural view of a feeding assembly of the present invention;

FIG. 5 is a schematic cross-sectional view of a feeding assembly of the present invention;

FIG. 6 is a schematic cross-sectional view of the venting assembly of the present invention;

FIG. 7 is a schematic sectional view of the mixing box of the present invention.

In the figure: 1. a feeding assembly; 101. a connecting plate; 102. bolt holes; 103. heating the sleeve; 104. a heating resistor; 105. a power supply interface; 106. feeding a sleeve; 107. externally fixing a screw; 108. feeding head; 109. a buckle sleeve; 1010. turning over the blades; 2. a snap bolt; 3. a material conveying component; 31. a material conveying shell; 32. a venting assembly; 321. a buckle plate; 322. fixing the ear plate; 323. a breathable outer shell; 324. a ventilation groove; 325. an inner connecting rod; 326. a motor card sleeve; 327. a breathable motor; 328. ventilating fan blades; 33. an ear plate bolt; 34. a clamping groove; 35. adjusting the sliding chute; 36. adjusting the sliding block; 37. a connecting rod; 38. a delivery pipe; 39. inserting a cannula; 310. a spiral conveying pipe; 311. a discharge port; 312. a bolt clamping groove; 4. a mixing box; 41. a tank housing; 42. buckling a folded plate; 43. a folded plate bolt; 44. a feed sieve plate; 45. a feed hopper; 46. a hopper bolt; 47. an auxiliary hopper; 48. the mounting port is embedded in a clamping manner; 49. a unidirectional film; 5. and (5) fixing the bolt.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, a device for preventing aquatic feed from being affected with damp in the feeding process comprises a feeding assembly 1, a buckle bolt 2, a material conveying assembly 3, a mixing box 4 and a fixing bolt 5, wherein the buckle bolt 2 is respectively installed at the left end and the right end of the upper side of the feeding assembly 1, the material conveying assembly 3 is arranged on the upper side of the feeding assembly 1, the mixing box 4 is installed at the top of the material conveying assembly 3, and the fixing bolt 5 is respectively installed at the left side and the right side of the top end of the material conveying assembly 3.

Referring to fig. 2-3, the feeding assembly 1 includes a connection plate 101, bolt holes 102, a heating sleeve 103, a heating resistor 104, a power supply interface 105, a feeding sleeve 106, an external fixing screw 107, a feeding head 108, a fastening sleeve 109 and a turning blade 1010, the bolt holes 102 are respectively disposed on the inner sides of the left and right ends of the connection plate 101, the heating sleeve 103 is disposed at the center of the bottom of the connection plate 101, the heating resistor 104 is disposed inside the heating sleeve 103, the power supply interface 105 is disposed at the tail end of the heating resistor 104, the feeding sleeve 106 is disposed inside the heating sleeve 103, the external fixing screw 107 is disposed on the lower side of the front surface of the feeding sleeve 106, the fastening sleeve 109 is disposed inside the feeding sleeve 106, the turning blade 1010 is disposed on the side surface of the fastening sleeve 109, and the feeding head 108 is disposed at the bottom of the feeding sleeve 106.

Referring to fig. 4-5, the feeding assembly 3 includes a feeding housing 31, an air permeable assembly 32, an ear plate bolt 33, an embedding groove 34, an adjusting chute 35, an adjusting slider 36, a connecting rod 37, a feeding pipe 38, an embedding tube 39, a spiral conveying pipe 310, a discharging port 311 and a bolt slot 312, the air permeable assembly 32 is respectively installed on the left and right sides of the feeding housing 31, the ear plate bolt 33 is installed on the air permeable assembly 32, the adjusting chute 35 is installed on the front surface of the feeding housing 31, the adjusting slider 36 is installed in the adjusting chute 35, the connecting rod 37 is installed on the bottom side of the adjusting slider 36, the feeding pipe 38 is installed at the end of the connecting rod 37, the embedding tube 39 is installed on the top of the feeding pipe 38, the spiral conveying pipe 310 is installed on the bottom of the feeding pipe 38, the bottom of the spiral conveying pipe 310 is connected to the discharging port 311, and the bolt slot 312 is respectively installed on the left and right sides of the embedding groove 34.

Referring to fig. 6, the ventilation assembly 32 includes a fastening plate 321, a fixing lug plate 322, a ventilation housing 323, a ventilation groove 324, an inner connecting rod 325, a motor ferrule 326, a ventilation motor 327, and ventilation fan blades 328, the left side of the fastening plate 321 is provided with the fixing lug plate 322, the right side of the fastening plate 321 is provided with the ventilation housing 323, the right side of the ventilation housing 323 is provided with the ventilation groove 324, the inner connecting rod 325 is disposed inside the ventilation housing 323, the center of the inner connecting rod 325 is provided with the motor ferrule 326, the ventilation motor 327 is installed in the motor ferrule 326, and the ventilation fan blades 328 are installed on the ventilation motor 327.

Referring to fig. 7, the mixing box 4 includes a box housing 41, a folded plate fastener 42, a folded plate bolt 43, a feed sieve plate 44, a feed hopper 45, a hopper bolt 46, an auxiliary material hopper 47, a clamping and embedding mounting port 48 and a one-way film 49, the folded plate fastener 42 is mounted on the inner wall of the box housing 41 through the folded plate bolt 43, the feed sieve plate 44 is disposed above the folded plate fastener 42, the feed hopper 45 is disposed on the top of the box housing 41, the hopper bolt 46 is mounted on the side surface of the feed hopper 45, the auxiliary material hoppers 47 are respectively disposed on the left and right sides of the box housing 41, the clamping and embedding mounting port 48 is disposed at the center of the bottom of the box housing 41, the one-way film 49 is disposed inside the clamping and embedding mounting port 48, and the inserting pipe 39 penetrates through the feed conveying housing 31 and the clamping and embedding groove 34 and is inserted and mounted in the one-way film 49 in the clamping and embedding mounting port 48.

In order to better show the implementation process of the device for preventing the feed from being affected with moisture in the feeding process of the aquatic feed, the embodiment provides an implementation method of the device for preventing the feed from being affected with moisture in the feeding process of the aquatic feed, comprising the following steps:

the method comprises the following steps: the feed delivery pipe 38 in the feed delivery shell 31 is controlled to move upwards through the adjusting slide block 36, and finally the inserting pipe 39 above the feed delivery pipe 38 is inserted in the one-way film 49 in the inserting mounting opening 48;

step two: the feed is added into a feed hopper 45 at the top of the mixing box 4, mixed auxiliary materials are added into an auxiliary material hopper 47, and the feed added into the mixing box 4 enters the material conveying assembly 3 through an embedded insertion pipe 39 after being screened by a feed sieve plate 44;

step three: the heating resistor 104 is powered and heated through the power supply interface 105, so that the feeding sleeve 106 is at a constant heat temperature;

step four: the feed is conveyed into the feeding sleeve 106 through the spiral conveying pipe 310, and is discharged from the feeding head 108 and is thrown into a culture water area through the overturning conveying of the buckling sleeve 109 and the overturning blade 1010.

The working principle of the invention is as follows: the device and the method for preventing the feed from being affected with damp in the feeding process of the aquatic feed control the feed delivery pipe 38 in the feed delivery shell 31 to move upwards through the adjusting slide block 36, finally, the inserting pipe 39 above the material conveying pipe 38 is inserted into the one-way film 49 in the clamping and installing opening 48, the feed is added into a feed hopper 45 at the top of the mixing box 4, the mixed auxiliary materials are added into an auxiliary material hopper 47, the feed added into the mixing box 4 is screened by a feed screen plate 44, enters the material conveying component 3 through the embedded inserting pipe 39, supplies power and heats the heating resistor 104 through the power supply interface 105, leads the feeding sleeve 106 to be at a constant temperature, feeds are conveyed into the feeding sleeve 106 through the spiral conveying pipe 310, and the feed is discharged from the feeding head 108 and is fed into a culture water area through the overturning conveying of the buckle sleeve 109 and the overturning blade 1010, so that the feeding of the aquatic feed is completed.

In summary, the following steps: the invention can prevent the feed from getting damp in the course of feeding aquatic feed and its method, control the feed delivery pipe 38 in the feed delivery outer cover 31 to move upwards through the regulating slide 36, and finally make the insertion pipe 39 above the feed delivery pipe 38 insert in the unidirectional film 49 in the mounting opening 48 of the card, add feed into the feed hopper 45 on the top of the mixing box 4, and add mixed auxiliary materials into the auxiliary material hopper 47, the feed added into the mixing box 4 enters the feed delivery assembly 3 through the insertion pipe 39 after the screening of the feed sieve plate 44, heat the power supply to the heating resistance 104 through the power supply interface 105, make the feed feeding sleeve 106 in the constant temperature, the feed is transported to the feed feeding sleeve 106 through the spiral transport pipe 310, and through the turning transport of the card sleeve 109 and turning blade 1010, the feed is discharged from the feed feeding head 108 and is fed into the water area, the invention is complete and reasonable in structure, realize that the aquatic feed keeps the dry state in the course, prevent to wet, and realized the mixed transport of aquatic products fodder and auxiliary material.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims (7)

1. The utility model provides a can prevent that aquatic products fodder from throwing device that material in-process fodder wets, including throwing material subassembly (1), buckle bolt (2), defeated material subassembly (3), compounding case (4) and fixing bolt (5), its characterized in that: throw the upside of material subassembly (1) and install buckle bolt (2) respectively in both ends about both ends, the upside of throwing material subassembly (1) is equipped with defeated material subassembly (3), the top installation compounding case (4) of defeated material subassembly (3), fixing bolt (5) are installed respectively to the left and right sides on defeated material subassembly (3) top.

2. The apparatus of claim 1, wherein the apparatus is adapted to prevent the feed from becoming wet during the feeding of the aquatic feed, and further comprising: the feeding assembly (1) comprises a connecting plate (101), bolt holes (102), a heating sleeve (103), a heating resistor (104), a power supply interface (105), a feeding sleeve (106), an external fixing screw (107), a feeding head (108), a buckle sleeve (109) and a turnover blade (1010), the bolt holes (102) are respectively arranged on the inner sides of the left end and the right end of the connecting plate (101), the heating sleeve (103) is arranged at the center of the bottom of the connecting plate (101), the heating resistor (104) is arranged in the heating sleeve (103), the power supply interface (105) is arranged at the tail end of the heating resistor (104), the feeding sleeve (106) is arranged in the heating sleeve (103), the external fixing screw (107) is arranged on the lower side of the front face of the feeding sleeve (106), the buckle sleeve (109) is arranged in the feeding sleeve (106), the turnover blade (1010) is arranged on the side face of the buckle sleeve (109), the bottom of the feeding sleeve (106) is provided with a feeding head (108).

3. The apparatus of claim 1, wherein the apparatus is adapted to prevent the feed from becoming wet during the feeding of the aquatic feed, and further comprising: the material conveying component (3) comprises a material conveying shell (31), a ventilating component (32), lug plate bolts (33), a clamping and embedding groove (34), an adjusting sliding groove (35), an adjusting sliding block (36), a connecting rod (37), a material conveying pipe (38), an embedding pipe (39), a spiral conveying pipe (310), a discharging port (311) and a bolt clamping groove (312), wherein the ventilating component (32) is respectively installed on the left side and the right side of the material conveying shell (31), the lug plate bolts (33) are installed on the ventilating component (32), the adjusting sliding groove (35) is arranged on the front side of the material conveying shell (31), the adjusting sliding block (36) is installed in the adjusting sliding groove (35), the connecting rod (37) is arranged on the bottom side of the adjusting sliding block (36), the material conveying pipe (38) is arranged at the tail end of the connecting rod (37), the embedding pipe (39) is arranged at the top of the material conveying pipe (38), the spiral conveying pipe (310) is arranged at the bottom of the material conveying pipe (38), the bottom of the spiral conveying pipe (310) is connected to the discharge hole (311), and bolt clamping grooves (312) are respectively formed in the left side face and the right side face of the clamping and embedding groove (34).

4. The apparatus of claim 3, wherein the apparatus is adapted to prevent the feed from becoming wet during the feeding of the aquatic feed, and further comprising: ventilative subassembly (32) are including buckle plate (321), fixed otic placode (322), ventilative shell (323), ventilative groove (324), internal rod (325), motor cutting ferrule (326), ventilative motor (327) and ventilative flabellum (328), the left side of buckle plate (321) is equipped with fixed otic placode (322), the right side of buckle plate (321) is equipped with ventilative shell (323), the right side of ventilative shell (323) is equipped with ventilative groove (324), the inside of ventilative shell (323) is equipped with internal rod (325), the center department of internal rod (325) is equipped with motor cutting ferrule (326), install ventilative motor (327) in motor cutting ferrule (326), ventilative flabellum (328) of installation on ventilative motor (327).

5. The apparatus of claim 3, wherein the apparatus is adapted to prevent the feed from becoming wet during the feeding of the aquatic feed, and further comprising: mixing box (4) are including case shell (41), folded plate buckle (42), folded plate bolt (43), fodder sieve (44), feeder hopper (45), hopper bolt (46), auxiliary material fill (47), inlay card installing port (48) and unidirectional film (49), install folded plate buckle (42) through folded plate bolt (43) on the inner wall of case shell (41), the top of folded plate buckle (42) is equipped with fodder sieve (44), the top of case shell (41) is equipped with feeder hopper (45), the side-mounting hopper bolt (46) of feeder hopper (45), the left and right sides of case shell (41) is equipped with auxiliary material fill (47) respectively, the bottom center department of case shell (41) is equipped with inlay card installing port (48), the inside of inlay card installing port (48) is equipped with unidirectional film (49).

6. The apparatus of claim 5, wherein the apparatus is adapted to prevent the feed from becoming wet during the feeding of the aquatic feed, and further comprising: the embedded insertion pipe (39) penetrates through the material conveying shell (31) and the embedded groove (34) and is embedded and installed in the one-way film (49) in the embedded installation opening (48).

7. A method of implementing an apparatus for preventing the wetting of aquatic feed products during its feeding according to any of claims 1-5, comprising the steps of:

s1: a material conveying pipe (38) in the material conveying shell (31) is controlled to move upwards through an adjusting slide block (36), and finally an embedded insertion pipe (39) above the material conveying pipe (38) is embedded in a one-way film (49) in an embedded installation opening (48);

s2: feed is added into a feed hopper (45) at the top of the mixing box (4), mixed auxiliary materials are added into an auxiliary hopper (47), and the feed added into the mixing box (4) enters the material conveying component (3) through an embedded insertion pipe (39) after being screened by a feed sieve plate (44);

s3: the heating resistor (104) is powered and heated through a power supply interface (105), so that the feeding sleeve (106) is at a constant heat temperature;

s4: the feed is conveyed into the feeding sleeve (106) through the spiral conveying pipe (310), and is discharged from the feeding head (108) and thrown into a culture water area through the overturning conveying of the buckle sleeve (109) and the overturning blade (1010).

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