CN112918710A

CN112918710A - Automatic feeding machine for feeding block

Info

Publication number: CN112918710A
Application number: CN202110353840.6A
Authority: CN
Inventors: 潘四普; 丁守刚; 庞宏磊; 谢子超; 徐玉杰; 许旭; 钱颢樾
Original assignee: Nanjing Vocational University of Industry Technology NUIT
Current assignee: Nanjing Vocational University of Industry Technology NUIT
Priority date: 2021-04-01
Filing date: 2021-04-01
Publication date: 2021-06-08

Abstract

The invention discloses an automatic feeding machine for a nutrition pot, which comprises a pot separating system, a conveying system and a blanking system, wherein the feeding system comprises a feeding hopper, a feeding hopper and a feeding hopper; the pot separating system and the blanking system are both positioned above the conveying system, and the blanking system is positioned in the downstream direction of the pot separating system along the movement direction of the conveying system; the pot separating system comprises a clamping mechanism, a lifting mechanism and a separating mechanism; the clamping mechanism is arranged above the separating mechanism and is connected with the separating mechanism through a lifting mechanism; the automatic nutrition pot separating and charging machine disclosed by the invention can effectively separate empty nutrition pots and automatically convey and charge the empty nutrition pots, so that the labor force is saved and the labor efficiency is improved.

Description

Automatic feeding machine for feeding block

The technical field is as follows:

the invention relates to the technical field of agricultural machinery, in particular to an automatic feeding machine for a nutrition pot.

Background art:

the utilization of the nutrition pot for seedling raising in advance is an agricultural technology with very obvious effects of increasing yield and income, and is gradually accepted and applied by broad growers. The traditional method for manufacturing the nutrition pot mainly depends on manual labor, the labor intensity is high, the production efficiency is low, and the quality of the nutrition pot is difficult to guarantee.

At present, a nutrition pot making machine is available on the market, such as: the 2ZBJ-50 type bowl-making machine mainly meets the economic crops of corn, cotton and the like, although the bowl-making process can be operated semi-mechanically, the bowl-making machine has larger floor area and complex structure, and the template needs to be recovered in time, and is only suitable for producing bowls in large and medium-sized factories. Therefore, the automatic nutrition pot separating and charging machine capable of effectively separating empty nutrition pots, automatically conveying and charging is designed and invented according to the defects of the existing nutrition pot manufacturing machine.

The invention content is as follows:

in order to solve the technical problem, the invention provides an automatic feeding machine for a nutrition pot, which comprises: the utility model provides an automatic branch alms bowl charging machine of nutritive cube which characterized in that includes: the device comprises a pot separating system, a conveying system and a blanking system; the pot separating system and the blanking system are both positioned above the conveying system, and the blanking system is arranged in the downstream direction of the pot separating system along the movement direction of the conveying system.

The pot separating system comprises a clamping mechanism, a lifting mechanism and a separating mechanism; the clamping mechanism is arranged above the separating mechanism and is connected with the separating mechanism through a lifting mechanism;

the clamping mechanism comprises a nutrition pot placing cylinder, a heavy hammer and a pinch roller mechanism; the nutrition pot placing cylinder is a cylinder, an empty nutrition pot to be filled is placed in the nutrition pot placing cylinder, and the heavy hammer is placed in the empty nutrition pot; the lower end of the nutrition pot placing cylinder is provided with a groove, and the included angle between every two grooves is 90 degrees;

the lifting mechanism comprises a fixed platform, a lifting cylinder and a guide rail; the fixed platform is fixedly connected with the lower end of the nutrition pot placing cylinder, and a circular hole which is concentric with the outer wall circle of the nutrition pot placing cylinder and has the same size with the outer wall circle of the nutrition pot placing cylinder is formed in the fixed platform; the left side and the right side of the fixed platform are respectively provided with a lifting cylinder, and a piston rod of each cylinder downwards passes through the fixed platform through a hole on the fixed platform and is connected with the movable platform of the separation mechanism; the guide rails are arranged on the bottom surface of the fixed platform and are distributed in a rectangular shape, and the guide rails penetrate through holes in the moving platform of the separating mechanism.

The separating mechanism comprises a moving platform, a fixed ring, a movable ring, a steel ball, a fixed pressing plate, a movable pressing plate, an adjusting nut, a rotating rod, a vacuum chuck, a cylinder gear and a rotating cylinder; the movable platform is provided with a circular hole which is concentric with the inner circle of the fixed ring and has the same size; the movable ring is provided with three through grooves with mutual included angles of 120 degrees, three non-through grooves with mutual included angles of 120 degrees are arranged below the movable ring, the diameter of each non-through groove is larger than that of a steel ball, the steel balls are respectively arranged in 3 non-through grooves, and the movable ring is arranged on the movable platform through the steel balls; the diameter of the through groove of the movable ring is larger than that of the pin, the pin is arranged in the through groove, the middle part of the rotating rod is provided with a small hole, the diameter of the hole is larger than that of the pin on the fixed ring, the small hole of the rotating rod is sleeved on the pin, the other end of the rotating rod is provided with a vacuum sucker, and the vacuum sucker is connected with a vacuum generator; the fixed pressing plates and the movable pressing plates are distributed on a concentric circle with the diameter larger than the excircle of the movable ring, and the included angle between 2 fixed pressing plates is 120 degrees and is fixedly connected on the movable platform; the included angle between the movable pressing plate and the adjacent fixed pressing plate is 120 degrees, the bottom of the movable pressing plate is provided with a column with threads, the column extends downwards out of the moving platform through a through groove on the moving platform, and an adjusting nut is arranged on the column with the threads and is positioned below the moving platform; a gear is arranged on the excircle of the movable ring within the range of an included angle of 60 degrees and is connected with an external gear of the cylinder gear; the rotary cylinder is positioned below the moving platform and is connected with the cylinder gear through a small hole on the moving platform.

The conveying system comprises a conveying belt, a roller, a nutrition pot support, a groove wheel mechanism and a rotary cylinder;

according to a further technical scheme, the pinch roller mechanism comprises a patch, a cross beam, a reinforcing rib, a spring, a threaded rod, an adjusting nut, a wheel support and a rubber wheel; the patch is fixedly connected above the groove, the cross beam is fixedly connected with the patch, the short edge of the reinforcing rib is fixedly connected with the patch, and the long edge of the reinforcing rib is fixedly connected above the cross beam; the lower end of the wheel bracket is provided with a rubber wheel, and the upper end of the wheel bracket is hinged with the cross beam; a hole is formed in the middle of the wheel support, the threaded rod penetrates through the hole, one end of the spring is connected to the hook below the cross beam, and the other end of the spring is connected to the hook of the threaded rod; the adjusting nut is connected with the threaded rod through threads and is positioned below the wheel bracket.

According to the further technical scheme, two ends of the conveying belt 201 are sleeved on the 2 rollers, the nutrition pot support is installed on the outer surface of the conveying belt, a grooved wheel in the grooved wheel mechanism is installed on one of the rollers, a driving plate in the grooved wheel mechanism is installed on a rotary cylinder, and a cylindrical pin on the driving plate is located in a radial groove of the grooved wheel.

According to a further technical scheme, the blanking system comprises a hopper, a supporting rod, a rotary cylinder, a stirring rod, a blanking groove, a sliding block and a telescopic cylinder; the hopper is vertically communicated, 2 support rods are arranged at the upper part of the hopper, the rotary cylinder is arranged on the 2 support rods, and the stirring rod is arranged at the lower part of the rotary cylinder; the slider is located the charging conduit, and the slider outside is connected with telescopic cylinder.

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

the automatic nutrition pot separating and charging machine is provided with the pot separating system, the conveying system and the blanking system, the empty nutrition pots can be effectively separated through the pot separating system, adhesion between the empty nutrition pots and the empty nutrition pots is prevented, waste of the nutrition pots is reduced, meanwhile, automatic transportation and charging of the nutrition pots can be achieved through the conveying system and the blanking system, labor force is effectively saved, and labor efficiency is improved.

Description of the drawings:

the accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention without limiting the invention, in which:

FIG. 1 is a schematic structural view of an automatic feeding machine for separating and loading nutrition bowls

FIG. 2 is a schematic view of the clamping mechanism

FIG. 3 is a side view of the separating mechanism

FIG. 4 is a front view of the release mechanism

FIG. 5 is a structural view of a conveying system

FIG. 6 is a schematic view of a blanking system

Reference numerals: 1-pot separating system, 2-conveying system, 3-blanking system, 101-nutrition pot placing cylinder, 102-reinforcing rib, 103-beam, 104-wheel bracket, 105-patch, 106-rubber wheel, 107-empty nutrition pot, 108-adjusting nut, 109-threaded rod, 1010-spring, 1011-moving platform, 1012-movable pressing plate, 1013-movable ring, 1014-fixed ring, 1015-pin, 1016-fixed pressing plate, 1017-gear, 1018-cylinder gear, 1019-rotating rod, 1020-vacuum chuck, 1021-threaded column, 1022-adjusting nut, 1023-steel ball, 1024-rotating cylinder, 201-conveying belt, 202-nutrition pot bracket, 203-roller, 204-grooved pulley, 205-driving dial, 301-rotating cylinder, 302-supporting rod, 303-stirring rod, 304-hopper, 305-charging chute, 306-sliding block and 307-telescopic cylinder.

The specific implementation mode is as follows:

as shown in the figure, an automatic feeding machine for separating the nutrition bowls comprises: the device comprises a pot separating system 1, a conveying system 2 and a blanking system 3; the pot separating system 1 and the blanking system 3 are both positioned above the conveying system 2, and the blanking system 3 is arranged in the downstream direction of the pot separating system 1 along the movement direction of the conveying system 2.

The pot separating system 1 comprises a clamping mechanism, a lifting mechanism and a separating mechanism; the clamping mechanism is arranged above the separating mechanism and is connected with the separating mechanism through a lifting mechanism;

the clamping mechanism comprises a nutrition pot placing barrel 101, a heavy hammer and 4 pinch roller mechanisms; the feeding block placing cylinder 101 is a cylinder, an empty feeding block 107 to be filled is placed in the feeding block placing cylinder, and the heavy hammer is placed in the empty feeding block 107; the lower end of the nutrition pot placing cylinder 101 is provided with 4 grooves, and the included angle between every two grooves is 90 degrees; the pinch roller mechanism comprises a patch 105, a beam 103, a reinforcing rib 102, a spring 1010, a threaded rod 109, an adjusting nut 108, a wheel bracket 104 and a rubber wheel 106; the patch 105 is fixedly connected above the groove, the beam 103 is fixedly connected with the patch 105, the short side of the reinforcing rib 102 is fixedly connected with the patch 105, and the long side of the reinforcing rib is fixedly connected above the beam 103; the lower end of the wheel bracket 104 is provided with a rubber wheel 106, and the upper end is hinged with the cross beam 103; a hole is formed in the middle of the wheel bracket 104, the threaded rod 109 penetrates through the hole, one end of the spring 1010 is connected to a hook below the cross beam 103, and the other end of the spring 1010 is connected to a hook of the threaded rod 109; the adjusting nut 108 is connected with the threaded rod 109 through threads and is positioned below the wheel bracket 104; the included angle between every two of the 4 pinch roller mechanisms is 90 degrees, and each rubber wheel 106 is positioned in the middle of the groove of the corresponding nutrition pot placing barrel 101.

The lifting mechanism comprises a fixed platform, a lifting cylinder and a guide rail; the fixed platform is fixedly connected with the lower end of the nutrition pot placing cylinder 101, and a circular hole which is concentric with and has the same size as the outer wall circle of the nutrition pot placing cylinder 101 is formed in the fixed platform; the left side and the right side of the fixed platform are respectively provided with a lifting cylinder, and a piston rod of each lifting cylinder downwards passes through the fixed platform through a hole on the fixed platform and is connected with a moving platform 1011 of the separating mechanism; the guide rails are arranged on the bottom surface of the fixed platform and are distributed in a rectangular shape, and the guide rails penetrate through holes in the moving platform of the separating mechanism.

The separating mechanism comprises a moving platform 1011, a fixed ring 1014, a movable ring 1013, a

steel ball

1023, 2 fixed pressing plates 1016, a movable pressing plate 1012, an adjusting nut 1022, a rotating rod 1019, a vacuum suction cup 1020, an air cylinder gear 1018 and a rotating air cylinder 1024; the movable platform 1011 is provided with a circular hole which is concentric with the inner circle of the fixed ring 1014 and has the same size; the fixed ring 1014 is fixedly connected with the moving platform 1011, the surface of the fixed ring 1014 is provided with three rotating rods 1019 which mutually form an included angle of 120 degrees, one end of each rotating rod 1019 is provided with a pin 1015, the diameter of the inner circle of the movable ring 1013 is larger than that of the outer circle of the fixed ring 1014, the movable ring 1013 and the fixed ring 1014 are concentrically arranged on the moving platform 1011, the movable ring 1013 is provided with three through grooves which mutually form an included angle of 120 degrees, the lower part of the movable ring 1013 is provided with three non-through grooves which mutually form an included angle of 120 degrees, the diameter of the non-through grooves is larger than that of the steel balls 1023, the 3 steel balls 1023 are respectively arranged in the; the diameter of the through groove of the movable ring is larger than that of the pin 1015, the pin is arranged in the through groove, the middle part of the rotating rod 1019 is provided with a small hole, the diameter of the hole is larger than that of the pin 1015 on the fixed ring 1014, the small hole of the rotating rod 1019 is sleeved on the pin 1015, the other end of the rotating rod 1019 is provided with a vacuum sucker 1020, and the vacuum sucker 1020 is connected with a vacuum generator; the fixed pressing plates 1016 and the movable pressing plates 1012 are distributed on a concentric circle with the diameter larger than the excircle of the movable ring 1013, and the included angle between 2 fixed pressing plates 1016 is 120 degrees and is fixedly connected on the movable platform 1011; the included angle between the movable pressing plate 1012 and the adjacent fixed pressing plate 1016 is 120 degrees, the bottom of the movable pressing plate 1012 is provided with a threaded column 1021, the movable platform extends downwards through a through groove on the movable platform 1011, and an adjusting nut 1022 is arranged on the threaded column 1021 and is positioned below the movable platform 1011; a gear 1017 is arranged on the excircle of the movable ring 1013 within the range of an included angle of 60 degrees and is connected with an external gear of the cylinder gear 1018; the rotary cylinder 1024 is located below the moving platform 1011 and is connected with the cylinder gear through a small hole on the moving platform 1011.

The conveying system comprises a

conveying belt

201, 2 rollers 203, a nutrition pot support 202, a sheave mechanism and a rotary cylinder 1024;

the conveying belt 201 is sleeved on 2 rollers 203, the nutrition pot support 202 is installed on the outer surface of the conveying belt 201, a sheave 204 in a sheave mechanism is installed on one of the rollers, a driving dial 205 in the sheave mechanism is installed on a rotary cylinder 1024, and a cylindrical pin on the driving dial 205 is located in a radial groove of the sheave 204.

The blanking system comprises a hopper 304, a supporting rod 302, a rotary cylinder 301, a stirring rod 303, a blanking groove 305, a sliding block 306 and a telescopic cylinder 307;

the hopper 304 is vertically communicated, 2 support rods 302 are arranged at the upper part of the hopper, a rotary cylinder 1024 is arranged on the 2 support rods 302, and a stirring rod 303 is arranged at the lower part of the rotary cylinder 1024; the charging chute 305 is L-shaped, the middle part of the charging chute is through, the sliding block 306 is positioned in the charging chute 305, and the outer part of the sliding block 306 is connected with the telescopic cylinder 307.

The working principle is as follows: when carrying out nutritive cube and dividing alms bowl and feeding, revolving cylinder 1024 among the separating mechanism drives cylinder gear 1018 rotatory, thereby it is rotatory to drive activity ring 1013, rotary rod 1019 gathers together to the center, vacuum chuck 1020 holds nutritive cube outer wall, simultaneously lift cylinder among the elevating system begins the extension, drive the whole decline of separating mechanism, make the nutritive cube held by vacuum chuck separate, then vacuum chuck gassing, separated nutritive cube falls into conveying system's nutritive cube support 202, revolving cylinder drives cylinder 203, make conveyer belt 201 move forward, stirring rod 303 among the blanking system lasts the rotation, make the material fall into the charging chute 305 from the hole of hopper 304 bottom in, telescopic cylinder 307 extension, take slider 306 and move forward, promote the material and fall down from the charging chute 305, fall into in the nutritive cube on the conveyer belt below the charging system.

The parts not involved in the present invention are the same as or can be implemented using the prior art.

While the invention has been shown and described with reference to certain preferred embodiments as described above, it is not intended to be construed as limited to the invention itself, but may be modified in form and detail without departing from the spirit and scope of the invention as defined in the appended claims.

The technical means disclosed by the scheme of the invention are not limited to the technical means disclosed by the technical means, and the technical scheme also comprises the technical scheme formed by equivalent replacement of the technical features. The present invention is not limited to the details given herein, but is within the ordinary knowledge of those skilled in the art.

Claims

1. The utility model provides an automatic branch alms bowl charging machine of nutritive cube which characterized in that includes: the device comprises a pot separating system, a conveying system and a blanking system; the pot separating system and the blanking system are both positioned above the conveying system, and the blanking system is positioned in the downstream direction of the pot separating system along the movement direction of the conveying system;

the lifting mechanism comprises a fixed platform, a lifting cylinder and a guide rail; the fixed platform is fixedly connected with the lower end of the nutrition pot placing cylinder, and a circular hole which is concentric with the outer wall circle of the nutrition pot placing cylinder and has the same size with the outer wall circle of the nutrition pot placing cylinder is formed in the fixed platform; the left side and the right side of the fixed platform are respectively provided with a lifting cylinder, and a piston rod of each cylinder downwards passes through the fixed platform through a hole on the fixed platform and is connected with the movable platform of the separation mechanism; the guide rails are arranged on the bottom surface of the fixed platform and are distributed in a rectangular shape, and the guide rails penetrate through holes in the moving platform of the separating mechanism;

the separating mechanism comprises a moving platform, a fixed ring, a movable ring, a steel ball, a fixed pressing plate, a movable pressing plate, an adjusting nut, a rotating rod, a vacuum chuck, a cylinder gear and a rotating cylinder; the movable platform is provided with a circular hole which is concentric with the inner circle of the fixed ring and has the same size; the movable ring is provided with three through grooves with mutual included angles of 120 degrees, three non-through grooves with mutual included angles of 120 degrees are arranged below the movable ring, the diameter of each non-through groove is larger than that of a steel ball, the steel balls are respectively arranged in 3 non-through grooves, and the movable ring is arranged on the movable platform through the steel balls; the diameter of the through groove of the movable ring is larger than that of the pin, the pin is arranged in the through groove, the middle part of the rotating rod is provided with a small hole, the diameter of the hole is larger than that of the pin on the fixed ring, the small hole of the rotating rod is sleeved on the pin, the other end of the rotating rod is provided with a vacuum sucker, and the vacuum sucker is connected with a vacuum generator; the fixed pressing plates and the movable pressing plates are distributed on a concentric circle with the diameter larger than the excircle of the movable ring, and the included angle between 2 fixed pressing plates is 120 degrees and is fixedly connected on the movable platform; the included angle between the movable pressing plate and the adjacent fixed pressing plate is 120 degrees, the bottom of the movable pressing plate is provided with a column with threads, the column extends downwards out of the moving platform through a through groove on the moving platform, and an adjusting nut is arranged on the column with the threads and is positioned below the moving platform; a gear is arranged on the excircle of the movable ring within the range of an included angle of 60 degrees and is connected with an external gear of the cylinder gear; the rotary cylinder is positioned below the moving platform and is connected with the cylinder gear through a small hole on the moving platform;

the conveying system comprises a conveying belt, a roller, a nutrition pot support, a groove wheel mechanism and a rotary cylinder.

2. The automatic feeding-block separating and charging machine according to claim 1, characterized in that: the pinch roller mechanism comprises a patch, a cross beam, a reinforcing rib, a spring, a threaded rod, an adjusting nut, a wheel bracket and a rubber wheel; the patch is fixedly connected above the groove, the cross beam is fixedly connected with the patch, the short edge of the reinforcing rib is fixedly connected with the patch, and the long edge of the reinforcing rib is fixedly connected above the cross beam; the lower end of the wheel bracket is provided with a rubber wheel, and the upper end of the wheel bracket is hinged with the cross beam; a hole is formed in the middle of the wheel support, the threaded rod penetrates through the hole, one end of the spring is connected to the hook below the cross beam, and the other end of the spring is connected to the hook of the threaded rod; the adjusting nut is connected with the threaded rod through threads and is positioned below the wheel bracket.

3. The automatic feeding-block separating and charging machine according to claim 1, characterized in that: the two ends of the conveying belt 201 are sleeved on the 2 rollers, the nutrition pot support is installed on the outer surface of the conveying belt, a grooved wheel in the grooved wheel mechanism is installed on one of the rollers, a driving plate in the grooved wheel mechanism is installed on a rotary cylinder, and a cylindrical pin on the driving plate is located in a radial groove of the grooved wheel.

4. The automatic feeding-block separating and charging machine according to claim 1, characterized in that: the blanking system comprises a hopper, a supporting rod, a rotary cylinder, a stirring rod, a blanking groove, a sliding block and a telescopic cylinder; the hopper is vertically communicated, 2 support rods are arranged at the upper part of the hopper, the rotary cylinder is arranged on the 2 support rods, and the stirring rod is arranged at the lower part of the rotary cylinder; the slider is located the charging conduit, and the slider outside is connected with telescopic cylinder.