CN215754738U - Fodder conveyer - Google Patents

Abstract

The utility model discloses a feed conveying device, which is characterized in that: the horizontal longitudinal arrangement servo motor is arranged at the front relative position of the top surface of the first support frame, a longitudinal arrangement transmission screw rod is connected to the shaft end of the servo motor, a connecting block is connected to the surface of the transmission screw rod, a longitudinal arrangement second guide rail is arranged at the left relative position of the top surface of the first support frame, a second sliding block is connected to the top of the second guide rail, a longitudinal arrangement first guide rail is arranged at the right relative position of the top surface of the first support frame, a first sliding block is connected to the top of the first guide rail, the first guide rail and the second guide rail are arranged in parallel, a transverse arrangement first discharging shell is connected to the top of the second sliding block and the top of the first sliding block, and the bottom of the first discharging shell is fixedly connected to the top of the connecting block. The threaded rod is adopted to cooperate to move, so that the material mixing is more uniform, the structure is simple, and the equipment efficiency is high.

Description

Fodder conveyer

Technical Field

The utility model belongs to the technical field of ingredient conveyors, and particularly relates to a feed conveying device.

Background

The conveyer is a mechanical device which utilizes a motor to drive a screw to rotate and push materials to realize the conveying purpose, in the traditional batching application, a batching conveyor mostly adopts a conveyor belt type to convey batching, so as to achieve the aim of raw material blending, the discharge amount of traditional batching equipment is uncontrollable in batching, the operation mode of the conveyor belt has influence on the hardness and the conveying effect of the conveyor belt according to different working environments, the other mode adopts a screw conveyor for conveying, the raw materials are blended manually, then the mixture is poured into a conveyor together, the method wastes time and labor, has low efficiency, larger error and low practicability, combines with actual production, consequently research and development fodder conveyer reaches to have and to batching automatically, and the batching precision is high, and equipment operation is stable and efficient.

SUMMERY OF THE UTILITY MODEL

The utility model provides a feed conveying device, which enables equipment to run more safely and stably and efficiently through the action of a spiral screw rod mechanism in actual use.

In order to solve the technical problems, the utility model adopts the following technical scheme:

a feed conveying device comprises a first support frame, a servo motor which is horizontally and longitudinally arranged is arranged at a front relative position of the top surface of the first support frame, a transmission screw rod which is longitudinally arranged is connected at the shaft end of the servo motor, a connecting block is connected on the surface of the transmission screw rod, a second guide rail which is longitudinally arranged is arranged at a left relative position of the top surface of the first support frame, a second sliding block is connected at the top of the second guide rail, a first guide rail which is longitudinally arranged is arranged at a right relative position of the top surface of the first support frame, a first sliding block is connected at the top of the first guide rail, the first guide rail and the second guide rail are arranged in parallel, a first discharging shell which is transversely arranged is connected at the top of the second sliding block and the top of the first sliding block, the bottom of the first discharging shell is fixedly connected with the top of the connecting block, a first feeding hole is connected at the top of the first discharging shell, a second discharging hole is connected at the bottom of the first discharging shell, the inside relative position of first ejection of compact casing is equipped with transverse arrangement's first hob, first hob right side connection is equipped with first rotating electrical machines, first rotating electrical machines fixed connection is in first ejection of compact casing right flank relative position, first support frame left side is equipped with the second support frame, second support frame top surface connection is equipped with second ejection of compact casing, second ejection of compact casing bottom connection is equipped with first discharge gate, first discharge gate bottom relative position is equipped with the case that gathers materials, second ejection of compact casing top is equipped with the second pan feeding mouth, relative position is equipped with horizontal longitudinal arrangement second rotating electrical machines in the second pan feeding mouth, second rotating electrical machines axle head front portion connects the second hob that is equipped with longitudinal arrangement, second rotating electrical machines and second hob cooperation are connected.

Further, the first screw rod has a size smaller than that of the second screw rod.

Furthermore, the first discharging shell is arranged at the top opposite position of the second discharging shell, and the second discharging port at the bottom of the first discharging shell is connected with the second feeding port at the top of the second discharging shell in a matching manner.

Furthermore, the servo motor drives the transmission screw rod to rotate, the transmission screw rod drives the connecting block to move back and forth, and the connecting block drives the first discharging shell to move synchronously.

Furthermore, the first discharge hole in the bottom of the second discharge shell is located in the middle of the top surface of the material collecting box, and the material collecting box is of a hollow rectangular structure.

Compared with the prior art, the utility model has the beneficial effects that:

(1) through threaded rod and guide rail cooperation use, make the top conveyer operate steadily when moving, but the top feed is free longitudinal movement when the batching operation, makes the batching more accurate.

(2) This design conveyer adopts a big one little structure cooperation to use, and the top is carried as the batching, and the bottom conveyer is carried as the aggregate, and the current conveyer operation status is looked over to bottom conveyer accessible top pan feeding mouth when moving, also is more convenient for maintain.

(3) Adopt the hob as conveyor, relatively with traditional conveyer belt conveying, the ejection of compact is even when the operation of this design, and the ratio is controllable, and the precision is also higher.

Drawings

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

FIG. 2 is a schematic diagram of the internal mechanism of the whole device of the present invention.

Description of the drawings: 1. the automatic feeding device comprises a first discharging shell, 2, a first feeding hole, 3, a first rotating motor, 4, a first supporting frame, 5, a transmission screw rod, 6, a first guide rail, 7, a servo motor, 8, a material collecting box, 9, a second guide rail, 10, a second feeding hole, 11, a connecting block, 12, a first screw rod, 13, a first sliding block, 14, a second supporting frame, 15, a second screw rod, 16, a second discharging shell, 17, a second rotating motor, 18, a second sliding block, 19, a first discharging hole and 20, and is characterized in that the first rotating motor is arranged on the first supporting frame, the second rotating motor is arranged on the second supporting frame, and the second rotating motor is arranged on the second supporting frame.

Detailed Description

As shown in figures 1 and 2, the feed conveying device comprises a first support frame 4, a servo motor 7 which is horizontally and longitudinally arranged is arranged at a front relative position of the top surface of the first support frame 4, a transmission screw 5 which is longitudinally arranged is connected at the shaft end of the servo motor 7, a connecting block 11 is connected on the surface of the transmission screw 5, a second guide rail 9 which is longitudinally arranged is arranged at a left relative position of the top surface of the first support frame 4, a second sliding block 18 is connected at the top of the second guide rail 9, a first guide rail 6 which is longitudinally arranged is arranged at a right relative position of the top surface of the first support frame 4, a first sliding block 13 is connected at the top of the first guide rail 6, the first guide rail 6 and the second guide rail 9 are arranged in parallel, a first discharging shell 1 which is transversely arranged is connected at the top of the second sliding block 18 and the first sliding block 13, the bottom of the first discharging shell 1 is fixedly connected with the top of the connecting block 11, a first feeding hole 2 is connected at the top of the first discharging shell 1, the bottom of the first discharging shell 1 is connected with a second discharging hole 20, a first screw rod 12 which is transversely arranged is arranged at a relative position in the first discharging shell 1, a first rotating motor 3 is connected to the right side of the first screw rod 12, the first rotating motor 3 is fixedly connected to a relative position on the right side face of the first discharging shell 1, a second supporting frame 14 is arranged on the left side of the first supporting frame 4, a second discharging shell 16 is connected to the top face of the second supporting frame 14, a first discharging hole 19 is connected to the bottom of the second discharging shell 16, a material collecting box 8 is arranged at a relative position on the bottom of the first discharging hole 19, a second feeding hole 10 is arranged at the top of the second discharging shell 16, a horizontal and longitudinally-arranged second rotating motor 17 is arranged at a relative position in the second feeding hole 10, a longitudinally-arranged second screw rod 15 is connected to the front portion of the second rotating motor 17, and the shaft end of the second rotating motor 17 is connected with the second screw rod 15 in a matching mode.

The size of the first screw rod 12 is smaller than the size of the second screw rod 15.

The first discharging shell 1 is arranged at the top opposite position of the second discharging shell 16, and the second discharging hole 20 at the bottom of the first discharging shell 1 is connected with the second feeding hole 10 at the top of the second discharging shell 16 in a matching way.

The servo motor 7 drives the transmission screw rod 5 to rotate, the transmission screw rod 5 drives the connecting block 11 to move back and forth, and the connecting block 11 drives the first discharging shell 1 to move synchronously.

The first discharge hole 19 at the bottom of the second discharge shell 16 is located at the middle position of the top surface of the material collecting box 8, and the material collecting box 8 is of a hollow rectangular structure.

The working process is as follows: when the device is used, raw materials are respectively connected to the position of a first feeding hole 2 at the top of a first discharging shell 1, the position behind a second feeding hole 10 at the top of a second discharging shell 16 is set, the device is operated after the data such as the speed and the reference amount during operation are set, a second rotating motor 17 and a first rotating motor 3 synchronously operate at the moment to drive a second screw rod 15 and a first screw rod 12 to rotate, the material mixing starts at the moment, after the conveying amount of the first screw rod 12 at the top and the conveying ratio error of the second screw rod 15 at the bottom reach the maximum allowable error, the second rotating motor 17 at the bottom stops operating, the second screw rod 15 stops conveying at the moment, a servo motor 7 operates, and the first discharging shell 1 is driven to integrally move back and forth through the matching of a transmission screw rod 5 and a guide rail. Second discharge gate 20 of 1 bottom of first ejection of compact casing is located second pan feeding mouth 10 relative position, it carries to prepare burden, reach normal back until the batching volume, the second rotating electrical machines 17 of bottom drives second hob 15 operation once more, servo motor 7 counter-rotation drives first ejection of compact casing 1 and associated device return this moment, the raw materials after the batching are carried to terminal first discharge gate 19 through second hob 15, fall into inside case 8 that gathers materials through first discharge gate 19, the effect of batching transport has been accomplished.

Claims (5)

1. A fodder conveyer which characterized in that: comprises a first support frame (4), a servo motor (7) which is horizontally and longitudinally arranged is arranged at the front relative position of the top surface of the first support frame (4), a transmission screw rod (5) which is longitudinally arranged is connected at the shaft end of the servo motor (7), a connecting block (11) is connected on the surface of the transmission screw rod (5), a second guide rail (9) which is longitudinally arranged is arranged at the left relative position of the top surface of the first support frame (4), a second sliding block (18) is connected at the top of the second guide rail (9), a first guide rail (6) which is longitudinally arranged is arranged at the right relative position of the top surface of the first support frame (4), a first sliding block (13) is connected at the top of the first guide rail (6), the first guide rail (6) and the second guide rail (9) are arranged in parallel, a first discharging shell (1) which is transversely arranged is connected at the tops of the second sliding block (18) and the first sliding block (13), the bottom of the first discharging shell (1) is fixedly connected with the top of the connecting block (11), the top of a first discharging shell (1) is connected with a first feeding hole (2), the bottom of the first discharging shell (1) is connected with a second discharging hole (20), a first screw rod (12) which is transversely arranged is arranged at a relative position in the first discharging shell (1), a first rotating motor (3) is connected with the right side of the first screw rod (12), the first rotating motor (3) is fixedly connected with a relative position on the right side surface of the first discharging shell (1), a second supporting frame (14) is arranged on the left side of the first supporting frame (4), a second discharging shell (16) is connected with the top surface of the second supporting frame (14), a first discharging hole (19) is connected with the bottom of the second discharging shell (16), a material collecting box (8) is arranged at a relative position on the bottom of the first discharging hole (19), a second feeding hole (10) is arranged at the top of the second discharging shell (16), a horizontal and longitudinal second rotating motor (17) is arranged at a relative position in the second feeding hole (10), the front part of the shaft end of the second rotating motor (17) is connected with a second screw rod (15) which is longitudinally arranged, and the second rotating motor (17) is connected with the second screw rod (15) in a matching way.

2. A feed transporter as claimed in claim 1, wherein: the first screw rod (12) has a size smaller than the second screw rod (15).

3. A feed transporter as claimed in claim 1, wherein: the first discharging shell (1) is arranged at the top opposite position of the second discharging shell (16), and a second discharging hole (20) at the bottom of the first discharging shell (1) is connected with a second feeding hole (10) at the top of the second discharging shell (16) in a matching manner.

4. A feed transporter as claimed in claim 1, wherein: the servo motor (7) drives the transmission screw rod (5) to rotate, the transmission screw rod (5) drives the connecting block (11) to move back and forth, and the connecting block (11) drives the first discharging shell (1) to move synchronously.

5. A feed transporter as claimed in claim 1, wherein: the first discharge hole (19) at the bottom of the second discharge shell (16) is positioned in the middle of the top surface of the material collecting box (8), and the material collecting box (8) is of a hollow rectangular structure.

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