CN220144062U - Conveying device for feed production line - Google Patents

Abstract

The utility model discloses a conveying device for a feed production line, which comprises a feeding cylinder, a metal impurity removing assembly, a first impurity removing assembly, an outer cylinder and a storage box, wherein the metal impurity removing assembly comprises an electromagnetic rod arranged in the feeding cylinder, the first impurity removing assembly comprises a filter plate connected in the feeding cylinder, a vibrating motor is connected to the filter plate, one end of the outer cylinder is connected with the bottom end of the feeding cylinder, a driving piece for conveying feed is arranged in the outer cylinder, and one end of the outer cylinder far away from the feeding cylinder is communicated with the storage box. The utility model has the effect of improving the production quality of the feed.

Description

Conveying device for feed production line

Technical Field

The utility model relates to the technical field of feed production, in particular to a conveying device for a feed production line.

Background

The feed mainly refers to foods of animals raised in agriculture or animal husbandry, and comprises more than ten varieties of feed raw materials such as soybean, soybean meal, corn, fish meal, whey powder, grains, feed additives and the like. The feed production line is a set of equipment from raw materials to finished feed products in feed processing, and can specifically comprise single feed processing, compound feed processing, concentrated feed processing, additive and mixed feed processing, concentrated feed processing, supplementary feed processing, and the like.

At present, a feed additive smashing production line with the publication number of CN203417734U comprises a material lifting machine, a conveying mechanism, a smashing machine, a screw conveyor, an exhaust fan, a dust recycling device and a material receiving mechanism. The conveying mechanism is arranged between the material hoister and the pulverizer, the spiral conveyor is arranged at the bottom end of the pulverizer and used for conveying the pulverized material to the material receiving mechanism, the exhaust fan is used for connecting a discharge hole of the pulverizer with the dust recoverer, one end of the dust recoverer is communicated with the exhaust fan, the other end of the dust recoverer is communicated with the spiral conveyor, the recovered dust is conveyed to the spiral conveyor, and the material receiving mechanism is arranged at the discharge hole end of the spiral conveyor.

In view of the above-mentioned related art, the inventor considers that in the feed conveying process of the feed additive crushing production line, a worker uses a material lifting device to lift the feed onto a conveying device for conveying. In the process of mixing and transporting the feed, because the feed is directly contacted with the outside, metal impurities and dust in the air can enter the feed, and components for screening various impurities are not arranged in the production line, so that the impurities can influence the production quality of the feed.

Disclosure of Invention

In order to improve the production quality of feed, the utility model provides a conveying device for a feed production line.

The utility model provides a conveying device for a feed production line, which adopts the following technical scheme:

a conveyor for feed production line, including throwing feed cylinder, metal edulcoration subassembly, first edulcoration subassembly, urceolus and storage box, metal edulcoration subassembly including set up in throw the electromagnetic lever in the feed cylinder, first edulcoration subassembly including connect in throw the filter in the feed cylinder, be connected with vibrating motor on the filter, the one end of urceolus with throw the bottom of feed cylinder and be connected, be provided with the driving piece that is used for carrying the fodder in the urceolus, the urceolus keep away from throw the one end of feed cylinder with the storage box intercommunication sets up.

By adopting the technical scheme, the feed without impurity removal is put into the feeding cylinder, the electromagnetic rod is electrified, and the electromagnetic rod adsorbs metal impurities in the feeding cylinder. The vibration motor is started and drives the filter plate to synchronously vibrate, and feed in the cylinder body is filtered through the filter plate. The impurities with larger particle size are filtered by the filter plates, so that the impurity removal operation of the feed is realized. The feed after impurity removal enters the outer barrel, and the feed in the outer barrel enters the storage box for temporary storage under the drive of the driving piece. Through the mutually supporting of throwing feed cylinder, metal edulcoration subassembly, first edulcoration subassembly, realized the edulcoration operation to metal impurity and great particle diameter impurity, have the effect that improves feed production quality.

Optionally, throw the feed cylinder include the stack shell of vertical setting and connect in the stack shell on the stack shell, metal edulcoration subassembly still includes first motor and axis of rotation, first motor connect in on the top surface of stack shell, the axis of rotation vertical set up in the bottom surface of stack shell and with the output shaft transmission of first motor is connected, the electromagnetic rod is in along length direction in the axis of rotation is connected with a plurality of, the filter set up in the below of axis of rotation.

Through adopting above-mentioned technical scheme, first motor starts and drives the axis of rotation and take place to rotate, and a plurality of electromagnetic rods of connecting in the axis of rotation rotate simultaneously along with the axis of rotation, adsorb the removal to the metallic impurity in the fodder. The first motor and the setting of axis of rotation make the metal impurity of each position in throwing the feed cylinder homoenergetic be adsorbed by the electromagnetic lever, help improving the production quality of fodder.

Optionally, be provided with the second edulcoration subassembly in the urceolus, the second edulcoration subassembly includes the inner tube, inner tube coaxial coupling in the inside of urceolus, throw the bottom of feed cylinder run through the urceolus and with the inner tube intercommunication is connected, a plurality of sieve meshes have been seted up on the inner tube.

Through adopting above-mentioned technical scheme, when the fodder through the first edulcoration removes towards the direction of storage case through the inner tube, the dust of mixing or the impurity of less particle diameter in the fodder get into in the clearance between inner tube and the urceolus through the sieve mesh, has realized that fodder and the impurity hungry separation edulcoration of less particle diameter are favorable to improving the production quality of fodder.

Optionally, a slag discharging port is formed in the cylinder body, the bottom edge of the slag discharging port corresponds to the top edge of the filter plate, and a sliding door for blocking the slag discharging port is connected to the outer wall of the cylinder body in a sliding manner.

Through adopting above-mentioned technical scheme, after the edulcoration of a period of time, remove the door that slides from the mouth of arranging the sediment and clear up the waste residue in the stack shell.

Optionally, the filter plate is obliquely arranged in the cylinder body, and the arrangement position of the slag discharge port corresponds to the lowest point position of the filter plate.

Through adopting above-mentioned technical scheme, through the filterable waste residue of filter under the effect of gravity accumulation to the position of sliding door. After a period of use, open the door of sliding and clear up the waste residue in the stack shell, the filter of slope setting has made things convenient for the clearance to the waste residue.

Optionally, a lap ring is connected to the inner annular wall of the barrel, and the filter plate is lapped on the lap ring.

Through adopting above-mentioned technical scheme, the setting of lap-joint has realized dismantling between stack shell and the filter and has connected, can open the cover and take out the filter and clean and change after the use of a period of time.

Optionally, the driving piece includes second motor and screw transmission axle, the second motor connect in urceolus length direction's one end, screw transmission axle's one end coaxial set up in the inner tube, screw transmission axle's one end with the second motor transmission is connected.

Through adopting above-mentioned technical scheme, the second motor starts and drives the spiral transmission axle and take place to rotate, and the fodder that gets into the inner tube removes towards the direction of storage box under the drive of spiral transmission axle, has realized the automatic drive to the fodder in the inner tube.

Optionally, a dust outlet is formed in the outer cylinder, a dust outlet pipe is connected to the dust outlet, a dust collecting box is connected to one end, far away from the outer cylinder, of the dust outlet pipe in a communicating mode, and a fan is connected to the dust collecting box in a communicating mode.

Through adopting above-mentioned technical scheme, the fan starts to bleed to the dust collection box, and the inner chamber of play dirt pipe and urceolus forms the negative pressure under the effect of fan, and less particle diameter impurity in the inner tube gets into between urceolus and the inner tube under the effect of negative pressure, and the impurity is passed through out the dirt pipe and is got into the dust collection box and carry out the temporary storage, and the impurity of less particle diameter of fan is helped more thoroughly with the fodder separation.

In summary, the present utility model includes at least one of the following beneficial technical effects:

1. through the mutual matching of the feeding barrel, the metal impurity removing component and the first impurity removing component, the impurity removing operation on metal impurities and impurities with larger particle sizes is realized, and the effect of improving the production quality of feed is achieved;

2. the obliquely arranged filter plates facilitate the cleaning of waste residues;

3. the arrangement of the fan is beneficial to the separation of impurities with smaller particle size from the feed more thoroughly.

Drawings

Fig. 1 is a schematic view of a conveyor apparatus for a feed production line according to an embodiment of the present utility model.

Fig. 2 is a partial cross-sectional view showing the internal structure of a conveyor apparatus for a feed production line in accordance with an embodiment of the present utility model.

Fig. 3 is an enlarged view of a portion a in fig. 2.

Reference numerals illustrate: 1. a charging barrel; 101. a barrel body; 102. a cylinder cover; 103. a slag discharge port; 104. a sliding door; 2. a metal impurity removal component; 21. a first motor; 22. a rotating shaft; 23. an electromagnetic rod; 3. a first impurity removal assembly; 31. a filter plate; 32. a lap ring; 33. a vibration motor; 4. a second impurity removal assembly; 41. an outer cylinder; 42. an inner cylinder; 43. a second motor; 44. a screw transmission shaft; 45. a dust outlet pipe; 46. a dust collection box; 47. a blower; 5. a storage bin; 6. a feed pipe; 7. a tube cover; 8. a sieve pore; 9. and a dust outlet.

Detailed Description

The utility model is described in further detail below with reference to fig. 1-3. The embodiment of the utility model provides a conveying device for a feed production line, which has the effect of improving the feed production quality.

Referring to fig. 1 and 2, a conveyor for a feed production line includes a feed cylinder 1, a metal impurity removal assembly 2, a first impurity removal assembly 3, a second impurity removal assembly 4, and a storage tank 5. The charging barrel 1 comprises a barrel body 101 which is vertically arranged, and a barrel cover 102 which is rotatably connected with the top end opening of the barrel body 101. The top of cover 102 is connected with inlet pipe 6, and the top rotation of inlet pipe 6 is connected with tube cap 7, and the bottom of inlet pipe 6 and the inner chamber intercommunication of barrel 101 set up.

Referring to fig. 2, a metal impurity removing unit 2 is provided on a charging barrel 1, and the metal impurity removing unit 2 includes a first motor 21, a rotation shaft 22, and an electromagnetic rod 23. The first motor 21 is fixedly connected to the top surface of the cylinder cover 102, one end of the rotating shaft 22 is in transmission connection with the output shaft of the first motor 21, and the rotating shaft 22 penetrates through the cylinder cover 102 and vertically extends downwards. The electromagnetic rods 23 are fixedly connected to the rotating shaft 22 horizontally at equal intervals along the length direction, and the electromagnetic rods 23 are connected to a power supply (not shown in the drawing).

Referring to fig. 2 and 3, the first impurity removing unit 3 is disposed in the drum body 101, and the first impurity removing unit 3 includes a filter plate 31, a landing ring 32, and a vibration motor 33. The lap joint ring 32 is fixedly connected to the inner annular wall of the barrel body 101, the filter plate 31 is lapped above the lap joint ring 32, and the filter plate 31 is positioned below the metal impurity removing component 2 in the barrel body 101. The vibration motor 33 is fixedly coupled to the top surface of the filter plate 31. The filter plate 31 is arranged in the cylinder body 101 in an inclined manner, a slag discharge port 103 is formed in the cylinder body 101, and a sliding door 104 for covering the slag discharge port 103 is connected to the outer wall of the cylinder body 101 in a sliding manner. The slag discharge port 103 is provided at a position corresponding to the lowest point of the filter plate 31. The pore size of the filter plate 31 is larger than the particle size of the feed.

Referring to fig. 2, the second impurity removing unit 4 includes an outer cylinder 41, an inner cylinder 42, a second motor 43, a screw transmission shaft 44, a dust outlet pipe 45, a dust box 46, and a blower 47. The outer cylinder 41 is horizontally arranged below the feeding cylinder 1, the inner cylinder 42 is coaxially connected in the inner cavity of the outer cylinder 41, and the bottom end of the feeding cylinder 1 penetrates through the outer cylinder 41 and is communicated and connected with the inner cylinder 42. The inner cylinder 42 is provided with a plurality of sieve holes 8, the diameter of the sieve holes 8 is smaller than the grain diameter of the feed, and one end of the inner cylinder 42 far away from the feeding cylinder 1 is communicated and connected with the storage box 5. The second motor 43 is fixedly connected to the outer wall of one end of the outer cylinder 41 in the length direction, the spiral transmission shaft 44 is coaxially arranged in the inner cylinder 42, and one end of the spiral transmission shaft 44 penetrates through the inner cylinder 42 and the end of the outer cylinder 41 and is in transmission connection with the transmission shaft of the second motor 43. The outer cylinder 41 is provided with a dust outlet 9, and one end of a dust outlet pipe 45 is connected to the outer wall of the outer cylinder 41 and is communicated with the dust outlet 9. One end of the dust outlet pipe 45 far away from the outer cylinder 41 is communicated with a dust box 46, and a fan 47 is communicated and connected to the dust box 46. The dust outlet 9 is provided in the outer tube 41 in a plurality along the longitudinal direction.

Referring to fig. 3 and 2, when removing impurities from the feed, the cap 7 is opened to feed the feed from the feed pipe 6 into the feed cylinder 1. The first motor 21 is started and drives the rotating shaft 22 to rotate, and a plurality of electromagnetic rods 23 connected to the rotating shaft 22 adsorb metal impurities in the feed on the electromagnetic rods 23. The arrangement of the first motor 21 and the rotating shaft 22 realizes impurity removal operation on metal impurities at various positions in the feeding barrel 1. The vibration motor 33 is started and drives the filter plate 31 to vibrate, impurities with particle sizes larger than that of feed are reserved on the filter plate 31, and the first impurity removal assembly 3 is arranged to remove impurities with larger particle sizes in the feed.

Referring to fig. 2 and 3, after a certain period of time has elapsed for the removal of the impurities, the sliding door 104 is removed from the slag discharge opening 103 and the slag on the filter plate 31 is cleaned. The filter plate 31 which is obliquely arranged enables waste residues on the filter plate 31 to be accumulated at the position of the slag discharge opening 103, and is convenient for operators to clean the waste residues. The detachable connection between the filter plate 31 and the cylinder body 101 is realized by the arrangement of the lap joint ring 32, so that the filter plate 31 is conveniently taken out from the cylinder body 101 for thorough cleaning.

Referring to fig. 2, the primarily filtered feed enters an inner cylinder 42 communicated with the lower part of the feeding cylinder 1, a second motor 43 is started to drive a spiral transmission shaft 44 to rotate, and the spiral transmission shaft 44 drives the feed in the inner cylinder 42 to move towards the direction of the feed storage tank 5. The blower 47 is started to pump air, negative pressure is formed in the dust collection box 46 and the dust collection pipe which are communicated with the blower, and dust with smaller particle size and impurities in the feed enter a gap between the inner cylinder 42 and the outer cylinder 41 under the action of the negative pressure. The fan 47 temporarily stores the impurities in the dust box 46 through the dust outlet pipe 45. The feed after the two times of impurity removal enters the storage box 5 for temporary storage under the drive of the spiral transmission shaft 44.

The implementation principle of the conveying device for the feed production line in the embodiment of the utility model is as follows: when removing impurities from the feed, the feed is put into the feed cylinder 1. The electromagnetic rods 23 adsorb metal impurities in the feed onto the electromagnetic rods 23. The vibration motor 33 is started and drives the filter plate 31 to vibrate, and impurities with particle sizes larger than that of feed remain on the filter plate 31.

After a certain period of time, the sliding door 104 is removed from the slag discharge opening 103, and the slag on the filter plate 31 is cleaned. The feed enters the inner cylinder 42, the fan 47 is started, and dust with smaller particle size and impurities in the feed enter a gap between the inner cylinder 42 and the outer cylinder 41 under the action of negative pressure. The fan 47 temporarily stores the impurities in the dust box 46 through the dust outlet pipe 45. The feed after the two times of impurity removal enters the storage box 5 for temporary storage under the drive of the spiral transmission shaft 44.

The above embodiments are not intended to limit the scope of the present utility model, so: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims (8)

1. A conveyor for fodder production line, its characterized in that: including throwing feed cylinder (1), metal edulcoration subassembly (2), first edulcoration subassembly (3), urceolus (41) and storage case (5), metal edulcoration subassembly (2) including set up in throw electromagnetism pole (23) in feed cylinder (1), first edulcoration subassembly (3) including connect in filter (31) in feed cylinder (1), be connected with vibrating motor (33) on filter (31), the one end of urceolus (41) with the bottom of feed cylinder (1) is connected, be provided with the driving piece that is used for carrying the fodder in urceolus (41), urceolus (41) are kept away from throw the one end of feed cylinder (1) with storage case (5) intercommunication sets up.

2. A conveyor for a feed production line according to claim 1, characterized in that: the feeding barrel (1) comprises a barrel body (101) which is vertically arranged and a barrel cover (102) which is connected to the barrel body (101), the metal impurity removal component (2) further comprises a first motor (21) and a rotating shaft (22), the first motor (21) is connected to the top surface of the barrel cover (102), the rotating shaft (22) is vertically arranged on the bottom surface of the barrel cover (102) and is in transmission connection with an output shaft of the first motor (21), a plurality of electromagnetic rods (23) are connected to the rotating shaft (22) along the length direction, and the filter plates (31) are arranged below the rotating shaft (22).

3. A conveyor for a feed production line according to claim 1, characterized in that: be provided with second edulcoration subassembly (4) in urceolus (41), second edulcoration subassembly (4) include inner tube (42), inner tube (42) coaxial coupling in the inside of urceolus (41), throw feed cylinder (1) the bottom run through urceolus (41) and with inner tube (42) intercommunication is connected, a plurality of sieve meshes (8) have been seted up on inner tube (42), the diameter of sieve mesh (8) is less than the aperture of filter (31).

4. A conveyor for a feed production line according to claim 2, characterized in that: the slag discharging device is characterized in that a slag discharging port (103) is formed in the barrel body (101), the bottom edge of the slag discharging port (103) corresponds to the top edge of the filter plate (31), and a sliding door (104) for blocking the slag discharging port (103) is connected to the outer wall of the barrel body (101) in a sliding mode.

5. A conveyor for a feed production line according to claim 4, wherein: the filter plate (31) is obliquely arranged in the cylinder body (101), and the arrangement position of the slag discharging port (103) corresponds to the lowest point position of the filter plate (31).

6. A conveyor for a feed production line according to claim 4, wherein: the inner annular wall of the barrel body (101) is connected with a lap joint ring (32), and the filter plate (31) is lapped on the lap joint ring (32).

7. A conveyor for a feed production line according to claim 3, characterized in that: the driving piece comprises a second motor (43) and a spiral transmission shaft (44), the second motor (43) is connected to one end of the outer cylinder (41) in the length direction, one end of the spiral transmission shaft (44) is coaxially arranged in the inner cylinder (42), and one end of the spiral transmission shaft (44) is in transmission connection with the second motor (43).

8. A conveyor for a feed production line according to claim 7, wherein: the dust collector is characterized in that the outer cylinder (41) is provided with a dust outlet (9), the dust outlet (9) is connected with a dust outlet pipe (45), one end, far away from the outer cylinder (41), of the dust outlet pipe (45) is communicated with a dust collecting box (46), and the dust collecting box (46) is communicated with a fan (47).