CN114193529B - Mixed fish feed constant-temperature slicing device and slicing method thereof - Google Patents

Abstract

The invention discloses a mixed fish feed constant temperature slicing device and a slicing method thereof, wherein the mixed fish feed constant temperature slicing device comprises a slicing shell, a pushing component, a conveying component, a hydraulic driving component, a slicing knife, a venting head and a reset spring.

Description

Mixed fish feed constant-temperature slicing device and slicing method thereof

Technical Field

The invention relates to the technical field of feed processing, in particular to a mixed fish feed constant-temperature slicing device and a slicing method thereof.

Background

The main components of the fish feed comprise protein, fat, vitamins and minerals, wherein the protein is an important nutrient substance for survival of fish and shrimp, is an important component substance for forming cells, tissues and organs of a body, and the feed is required to be digested and absorbed easily in normal growth of fish, and has the advantages of slow growth, reduced immunity of the body, proper amino acid ratio when the fish ingests the protein, slow growth, reduced immunity of the body, slow tissue renewal, poor wound healing force and susceptibility to diseases when the fish ingests the protein.

Patent number CN201720500852.6 provides an aquatic animal fodder slicer, and the fodder is cut into pieces by the cutter that is on a parallel with the setting of screen cloth board when leaving the screen cloth board, and the fodder after the section falls into the material receiving box, collects and utilizes, and the moisture extrusion in the fodder is walked earlier before to fodder slicing process, effectively improves the slice quality of fodder, adopts screw extrusion pole to carry the fodder to slice, can last to the fodder slicing process, improves the work efficiency of fodder slicing process. The above patent has the following problems:

1. in the process of mixing, preparing and slicing the fish feed, the problem of deterioration of the fish feed in the mixing process is easily caused due to the change of temperature, so that the quality of the final feed slice is affected;

2. the sliced mixed fish feed is easy to scatter everywhere, so that the recovery of workers is difficult and the recovery time is long.

Disclosure of Invention

The invention aims to provide a mixed fish feed constant-temperature slicing device and a slicing method thereof, wherein mixed fish feed is poured into a pushing shell in a pushing assembly through a feed hopper and is conveyed to a power supply connector through a connecting pipe, a lead connector is connected to the power supply connector to supply power to a constant temperature resistor and provide constant temperature for the interior of the pushing shell, after the mixed fish feed in the pushing shell is solidified, a push rod motor is started to drive an inner pushing rod to move forwards, the mixed fish feed is pushed out of a pushing opening at a constant speed through a pushing head, a hydraulic driving assembly is started and drives a slicing knife to reciprocate up and down, the pushed mixed fish feed is sliced at a constant speed through the slicing knife, the sliced mixed fish feed falls onto a conveying belt in the conveying assembly and is discharged through a part conveyed to a discharging opening through the conveying belt, and is collected and recovered by staff, so that the problems in the background art are solved.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the utility model provides a mixed fish fodder constant temperature section device, includes section shell, pushing components, conveying components, hydraulic drive subassembly, slicing knife, bleeder head and reset spring, the inside upper end installation pushing components of section shell, conveying components is installed to the inside left downside of section shell, hydraulic drive subassembly is installed in the upper left side of section shell, slicing knife is installed to hydraulic drive subassembly's bottom, install bleeder head on the section shell on hydraulic drive subassembly right side, bleeder head is overhead to install reset spring.

Preferably, the slicing shell comprises a main shell, a central partition plate, a feeding hopper, a fixing bolt, a connecting pipe, a discharging hole, a fastening bolt, a power supply joint, a component mounting hole, a pump base, an air circulating pump, a circulating pipe and a sealing cover, wherein the central partition plate is mounted at the inner center of the main shell, the feeding hopper is arranged on the upper right side of the main shell, the fixing bolt is mounted on the side surface of the feeding hopper, the connecting pipe is arranged at the center of the bottom of the feeding hopper, the discharging hole is mounted on the bottom of the right side of the main shell, the fastening bolt is mounted on the side surface of the discharging hole, the power supply joint is arranged at the center of the top of the main shell, the component mounting hole is arranged at the upper left end of the main shell, the pump base is respectively arranged on the upper side and the lower side of the left end of the main shell, the air circulating pump is mounted in the pump base, and the sealing cover is mounted at the tail end of the circulating pipe.

Preferably, the pushing component comprises a motor clamping groove, a push rod motor, a pushing shell, a constant temperature sleeve pipe, a constant temperature resistor, a wire connector, a feeding port, an inner pushing rod, a limiting plate, a pushing head, a sealing groove, a sealing gasket and a pushing port, wherein the push rod motor is arranged in the motor clamping groove, the pushing shell is arranged on the left side of the motor clamping groove, the constant temperature sleeve pipe is arranged on the outer side of the middle section of the pushing shell, the constant temperature resistor is arranged in the constant temperature sleeve pipe, the wire connector is arranged at the tail end of the constant temperature resistor, the feeding port is arranged on the right upper side of the pushing shell, the inner pushing rod is arranged in the inner mounting of the pushing shell, the limiting plate is arranged at the tail end of the right side of the inner pushing rod, the sealing groove is arranged on the side surface of the pushing head, the sealing gasket is arranged in the sealing groove, and the pushing port is arranged at the tail end of the left side of the pushing shell.

Preferably, the conveying assembly comprises a base plate, a spring groove, a conveying shaft, a torsion spring, a conveying belt, a driving shaft, a motor sleeve, a conveying motor, a driven wheel and a driven shaft, wherein the spring groove is formed in the inner side of the base plate, the torsion spring is installed in the spring groove, the conveying shaft is installed at the tail end of the torsion spring, the conveying belt is installed on the conveying shaft, the driving shaft is arranged on the outer side of the base plate, the motor sleeve is installed at the tail end of the driving shaft, the conveying motor is installed in the motor sleeve, the driven shaft is arranged in the middle section of the conveying belt, and driven wheels are respectively arranged at the two ends of the driven shaft.

Preferably, the tail end of the wire connector is inserted and connected in the power supply connector.

Preferably, the inner pushing rod is installed in the pushing rod motor in a penetrating mode.

The invention provides another technical scheme that: a slicing method of a mixed fish feed constant temperature slicing device comprises the following steps:

step one: pouring mixed fish feed into a feed hopper and conveying the mixed fish feed into a pushing shell in a pushing assembly through a connecting pipe;

step two: connecting the wire connector with the power supply connector to supply power to the constant temperature resistor and provide constant temperature for the interior of the pushing shell;

step three: after the mixed fish feed in the pushing shell is solidified, a push rod motor is started to drive the inner pushing rod to move forwards, and the mixed fish feed is pushed out from the pushing opening at a constant speed by utilizing the pushing head;

step four: starting a hydraulic driving assembly, driving a slicing knife to reciprocate up and down, and performing uniform slicing operation on the pushed mixed fish feed by using the slicing knife;

step five: the sliced mixed fish feed falls onto a conveyor belt in the conveying assembly and is discharged from a position conveyed to a discharge hole by the conveyor belt, and is collected and recovered by a worker.

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

when the mixed fish feed is sliced, firstly, the mixed fish feed is poured into the pushing shell in the pushing assembly through the feed hopper and conveyed into the pushing shell in the pushing assembly through the connecting pipe, the lead connector is connected with the power supply connector to supply power to the constant temperature resistor and provide constant temperature for the inside of the pushing shell, after the mixed fish feed in the pushing shell is solidified, the push rod motor is started to drive the inner pushing rod to move forwards, the mixed fish feed is pushed out of the pushing opening at a constant speed by the pushing head, the hydraulic driving assembly is started, the slicing knife is driven to reciprocate up and down, the pushed mixed fish feed is sliced at a constant speed by the slicing knife, and then the pushed mixed fish feed is discharged and collected at the position of the discharging opening through the conveying belt, so that slicing is realized under the constant temperature condition, and the mixed fish feed can be conveyed and recovered integrally through the conveying assembly, and the mixed fish feed slicing device is convenient and rapid.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic cross-sectional view of the present invention;

FIG. 3 is a schematic cross-sectional view of the slicing enclosure of the present invention;

FIG. 4 is a schematic cross-sectional view of a pusher assembly of the present invention;

FIG. 5 is an enlarged schematic view of the pushing assembly at A of the present invention;

fig. 6 is a schematic structural view of the conveying assembly of the present invention.

In the figure: 1. slicing the shell; 101. a main housing; 102. a central partition; 103. a feed hopper; 104. a fixing bolt; 105. a connecting pipe; 106. a discharge port; 107. a buckle bolt; 108. a power supply connector; 109. a component mounting port; 1010. a pump base; 1011. an air circulation pump; 1012. a circulation pipe; 1013. sealing cover; 2. a pushing component; 21. a motor clamping groove; 22. a push rod motor; 23. a pushing shell; 24. a constant temperature sleeve; 25. a constant temperature resistor; 26. a wire connector; 27. a feed port; 28. an inner pushing rod; 29. a limiting plate; 210. pushing the material head; 211. sealing grooves; 212. a sealing gasket; 213. a pushing port; 3. a transport assembly; 31. a base plate; 32. a spring groove; 33. a conveying shaft; 34. a torsion spring; 35. a conveyor belt; 36. a drive shaft; 37. a motor housing; 38. a conveying motor; 39. driven wheel; 310. a driven shaft; 4. a hydraulic drive assembly; 5. a slicing knife; 6. a gas release head; 7. and a return spring.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-2, a mixed fish feed constant temperature slicing device comprises a slicing shell 1, a pushing component 2, a conveying component 3, a hydraulic driving component 4, a slicing knife 5, a venting head 6 and a return spring 7, wherein the pushing component 2 is arranged at the upper end of the inside of the slicing shell 1, the conveying component 3 is arranged at the lower left side of the inside of the slicing shell 1, the hydraulic driving component 4 is arranged at the upper left side of the slicing shell 1, the slicing knife 5 is arranged at the bottom of the hydraulic driving component 4, the venting head 6 is arranged on the slicing shell 1 at the right side of the hydraulic driving component 4, and the return spring 7 is arranged on the venting head 6.

Referring to fig. 3, the slicing housing 1 includes a main housing 101, a central partition 102, a feed hopper 103, a fixing bolt 104, a connection pipe 105, a discharge port 106, a fastening bolt 107, a power supply connector 108, a component mounting port 109, a pump base 1010, an air circulation pump 1011, a circulation pipe 1012 and a sealing cover 1013, wherein the central partition 102 is mounted at the inner center of the main housing 101, the feed hopper 103 is disposed at the upper right side of the main housing 101, the fixing bolt 104 is mounted on the side of the feed hopper 103, the connection pipe 105 is disposed at the bottom center of the feed hopper 103, the discharge port 106 is mounted at the bottom right side of the main housing 101, the fastening bolt 107 is mounted on the side of the discharge port 106, the power supply connector 108 is disposed at the top center of the main housing 101, the component mounting port 109 is disposed at the upper left side and lower side of the main housing 101, the pump base 1010 is disposed at the upper and lower sides of the left end of the main housing 101, the air circulation pump 1011 is mounted on the air circulation pump 1011, and the sealing cover 1013 is mounted at the end of 1012.

Referring to fig. 4-5, the pushing assembly 2 includes a motor slot 21, a push rod motor 22, a pushing shell 23, a constant temperature sleeve 24, a constant temperature resistor 25, a wire connector 26, a feeding port 27, an inner pushing rod 28, a limiting plate 29, a pushing head 210, a sealing groove 211, a sealing gasket 212 and a pushing opening 213, wherein the push rod motor 22 is installed in the motor slot 21, the pushing shell 23 is arranged at the left side of the motor slot 21, the constant temperature sleeve 24 is installed at the middle outer side of the pushing shell 23, the constant temperature resistor 25 is arranged in the constant temperature sleeve 24, the wire connector 26 is arranged at the tail end of the constant temperature resistor 25, the wire connector 26 is inserted and connected in the power supply connector 108, the feeding port 27 is arranged at the right upper side of the pushing shell 23, the inner pushing rod 28 is installed in the pushing shell 23 in a penetrating manner, the limiting plate 29 is arranged at the right tail end of the inner pushing rod 28, the pushing head 210 is arranged at the left tail end of the inner pushing rod 28, the sealing groove 211 is arranged at the side of the pushing head 210, the sealing gasket 212 is installed in the sealing groove 211, and the left tail end of the pushing opening 213 is arranged at the left tail end of the pushing shell 23.

Referring to fig. 6, the conveying assembly 3 includes a base plate 31, a spring groove 32, a conveying shaft 33, a torsion spring 34, a conveying belt 35, a driving shaft 36, a motor sleeve 37, a conveying motor 38, a driven wheel 39 and a driven shaft 310, the spring groove 32 is arranged on the inner side of the base plate 31, the torsion spring 34 is arranged in the spring groove 32, the conveying shaft 33 is arranged at the tail end of the torsion spring 34, the conveying belt 35 is arranged on the conveying shaft 33, the driving shaft 36 is arranged on the outer side of the base plate 31, the motor sleeve 37 is arranged at the tail end of the driving shaft 36, the conveying motor 38 is arranged in the motor sleeve 37, the driven shaft 310 is arranged at the middle section of the conveying belt 35, and the driven wheels 39 are respectively arranged at two ends of the driven shaft 310.

In order to better show the slicing flow of the mixed fish feed constant temperature slicing device, the embodiment now provides a slicing method of the mixed fish feed constant temperature slicing device, which comprises the following steps:

step one: pouring the mixed fish feed through the feed hopper 103 and delivering the mixed fish feed into the pushing housing 23 in the pushing assembly 2 through the connecting tube 105;

step two: connecting the wire connector 26 to the power supply connector 108 to supply power to the constant temperature resistor 25 and provide a constant temperature to the interior of the pushing shell 23;

step three: after the mixed fish feed in the feed pushing shell 23 is solidified, the push rod motor 22 is started to drive the inner feed pushing rod 28 to move forwards, and the mixed fish feed is pushed out from the feed pushing opening 213 at a constant speed by the feed pushing head 210;

step four: starting a hydraulic driving assembly 4, driving a slicing knife 5 to reciprocate up and down, and performing uniform slicing operation on the pushed mixed fish feed by using the slicing knife 5;

step five: the sliced mixed fish feed falls onto a conveyor belt 35 in the conveying assembly 3 and is conveyed to a position of a discharge port 106 via the conveyor belt 35 to be discharged, and is collected and recovered by a worker.

The working principle of the invention is as follows: when the mixed fish feed is mixed and sliced, firstly, the mixed fish feed is poured into a feed hopper 103 and conveyed into a pushing shell 23 in a pushing assembly 2 through a connecting pipe 105, a lead connector 26 is connected with a power supply connector 108 to supply power to a constant temperature resistor 25 and provide constant temperature for the interior of the pushing shell 23, after the mixed fish feed in the pushing shell 23 is solidified, a push rod motor 22 is started to drive an inner pushing rod 28 to move forwards, the mixed fish feed is pushed out of a pushing port 213 at a constant speed by a pushing head 210, a hydraulic driving assembly 4 is started to drive a slicing knife 5 to reciprocate up and down, the pushed mixed fish feed is sliced at a constant speed by the slicing knife 5, and the sliced mixed fish feed falls onto a conveying belt 35 in the conveying assembly 3 and is discharged and collected at a position of the discharging port 106 through the conveying belt 35.

To sum up: when the mixed fish feed is mixed and sliced, firstly, the mixed fish feed is poured into the feed hopper 103 and conveyed into the pushing shell 23 in the pushing assembly 2 through the connecting pipe 105, the lead connector 26 is connected with the power supply connector 108, so that the constant temperature resistor 25 is supplied to the constant temperature, the constant temperature is provided for the interior of the pushing shell 23, after the mixed fish feed in the pushing shell 23 is solidified, the push rod motor 22 is started, the inner pushing rod 28 is driven to move forwards, the mixed fish feed is pushed out at a constant speed from the pushing opening 213 by the pushing head 210, the hydraulic driving assembly 4 is started, the slicing knife 5 is driven to reciprocate up and down, the pushed mixed fish feed is sliced at a constant speed by the slicing knife 5, and then the pushed mixed fish feed is conveyed to the position of the discharging opening 106 through the conveying belt 35.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should be covered by the protection scope of the present invention by making equivalents and modifications to the technical solution and the inventive concept thereof.

Claims (6)

1. The utility model provides a mixed fish fodder constant temperature section device, includes section shell (1), pushing components (2), conveying components (3), hydraulic drive subassembly (4), slicing knife (5), bleeder head (6) and reset spring (7), its characterized in that: the utility model discloses a slicing machine, including slicing machine shell (1), inside upper left side installation conveying component (3) of slicing machine shell (1), hydraulic drive subassembly (4) are installed to the upper left side of slicing machine shell (1), slicing machine knife (5) are installed to the bottom of hydraulic drive subassembly (4), install on slicing machine shell (1) on hydraulic drive subassembly (4) right side and release first (6), install reset spring (7) on release first (6), push away material subassembly (2) include motor draw-in groove (21), push rod motor (22), push away material shell (23), constant temperature sleeve pipe (24), constant temperature resistor (25), wire connector (26), feed port (27), interior push rod (28), limiting plate (29), push away material head (210), seal groove (211), sealing washer (212) and push away material mouth (213), the internally mounted push rod motor (22) on motor draw-in groove (21) left side is equipped with push away material shell (23), constant temperature middle section (24) is equipped with constant temperature sleeve pipe (24), constant temperature end-section (25) is equipped with constant temperature resistor (25), the upper right side of pushing away material shell (23) is equipped with feed port (27), pushing away interior installation of material shell (23) is interior pushing away material pole (28), the right side end of interior pushing away material pole (28) is equipped with limiting plate (29), the left side end of interior pushing away material pole (28) is equipped with pushing away stub bar (210), the side of pushing away stub bar (210) is equipped with seal groove (211), install sealing washer (212) in seal groove (211), the left side end of pushing away material shell (23) is equipped with pushing away material mouth (213).

2. A mixed fish feed thermostatic slicing apparatus as defined in claim 1, wherein: the slicing shell (1) comprises a main shell (101), a central partition plate (102), a feed hopper (103), fixing bolts (104), a connecting pipe (105), a discharge port (106), a clamping bolt (107), a power supply connector (108), a component mounting port (109), a pump base (1010), an air circulating pump (1011), a circulating pipe (1012) and a sealing cover (1013), wherein the central partition plate (102) is mounted at the inner center of the main shell (101), the feed hopper (103) is arranged on the right upper side of the main shell (101), the fixing bolts (104) are mounted on the side surface of the feed hopper (103), the connecting pipe (105) is arranged at the bottom center of the bottom of the feed hopper (103), the discharge port (106) is mounted on the right side bottom of the main shell (101), the power supply connector (108) is arranged at the top center of the main shell (101), the upper end of the left side of the main shell (101) is provided with the component mounting port (109), the pump base (1010) is respectively arranged on the upper side and lower side of the left end of the main shell (101), the circulating pump (1011) is mounted in the pump base (1010), the end of the circulation pipe (1012) is provided with a sealing cover (1013).

3. A mixed fish feed thermostatic slicing apparatus as defined in claim 2, wherein: the conveying assembly (3) comprises a base plate (31), a spring groove (32), a conveying shaft (33), a torsion spring (34), a conveying belt (35), a driving shaft (36), a motor sleeve (37), a conveying motor (38), a driven wheel (39) and a driven shaft (310), wherein the spring groove (32) is formed in the inner side of the base plate (31), the torsion spring (34) is arranged in the spring groove (32), the conveying shaft (33) is arranged at the tail end of the torsion spring (34), the conveying belt (35) is arranged on the conveying shaft (33), a driving shaft (36) is arranged at the outer side of the base plate (31), the motor sleeve (37) is arranged at the tail end of the driving shaft (36), the conveying motor (38) is arranged in the motor sleeve (37), the driven shaft (310) is arranged in the middle section of the conveying belt (35), and driven wheels (39) are respectively arranged at the two ends of the driven shaft (310).

4. A mixed fish feed thermostatic slicing apparatus as defined in claim 2, wherein: the tail end of the wire connector (26) is inserted and connected into the power supply connector (108).

5. A mixed fish feed thermostatic slicing apparatus as defined in claim 1, wherein: the inner pushing rod (28) is installed inside the pushing rod motor (22) in a penetrating mode.

6. A slicing method of the mixed fish feed constant temperature slicing apparatus of claim 3, comprising the steps of:

s1: pouring the mixed fish feed into a feed hopper (103) and conveying the mixed fish feed into a pushing shell (23) in a pushing assembly (2) through a connecting pipe (105);

s2: connecting the wire connector (26) to the power supply connector (108) to supply power to the constant temperature resistor (25) and provide constant temperature for the interior of the pushing shell (23);

s3: after the mixed fish feed in the feed pushing shell (23) is solidified, a push rod motor (22) is started to drive an inner feed pushing rod (28) to move forwards, and the mixed fish feed is pushed out from a feed pushing opening (213) at a constant speed by using a feed pushing head (210);

s4: starting a hydraulic driving assembly (4), driving a slicing knife (5) to reciprocate up and down, and performing uniform slicing operation on the pushed mixed fish feed by using the slicing knife (5);

s5: the sliced mixed fish feed falls onto a conveyor belt (35) in the conveying assembly (3) and is conveyed to a discharge port (106) through the conveyor belt (35) to be discharged, and is collected and recovered by staff.