CN220721555U - Fodder production line packing apparatus - Google Patents

Abstract

The utility model discloses a packing device for a feed production line, which comprises the following components: the feeding pipe is communicated with the quantitative bin through a first feeding hole, the feeding pipe is communicated with the quantitative bin through a first discharging hole, a quantitative inner cavity is formed in the quantitative bin, a second discharging hole and a second feeding hole are formed in the quantitative bin, the second discharging hole is communicated with the first discharging hole, the second feeding hole is communicated with the first feeding hole, the backing plate mechanism is arranged between the quantitative bin and the inner wall of the main body in a sliding mode, the lower end of the backing plate mechanism is fixedly connected to the bottom of the inner cavity of the main body, the upper end of the backing plate mechanism is in butt joint with the lower end face of the quantitative bin, the upper end face of the backing plate mechanism and the lower end face of the quantitative bin are inclined faces, and one end of the backing plate mechanism is connected with a driving mechanism. The automatic quantitative packing device for the feed does not need to finish quantitative packing by opening and closing the feed inlet and the feed outlet by workers, realizes automatic quantitative packing of the feed, and is suitable for mass production of production lines.

Description

Fodder production line packing apparatus

Technical Field

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

Background

The feed has comprehensive and balanced nutrition, can meet the normal growth and development requirements of livestock and poultry, and has the following advantages compared with the feeding of other foods to livestock and poultry: 1. grain is saved, and the feed can maximally utilize grain, byproducts of food processing and industrial offal; 2. the use is convenient, the equipment and the manpower are saved, the feed can be used for direct feeding, and the convenience and the manpower are saved; 3. the method is convenient for mechanical feeding and large-scale feeding, and the characteristics that the feed can be directly fed to livestock and poultry are suitable for large-scale breeding.

The utility model discloses a fodder packing apparatus in patent CN213948835U relates to fodder packing technical field, the on-line screen storage device comprises a base, the top fixedly connected with support column of base, the outer wall fixedly connected with fixed column of support column, the one end fixedly connected with connecting block of fixed column, one side fixedly connected with main vat of connecting block, the bottom fixedly connected with connecting pipe of main vat, the inner wall swing joint of connecting pipe has first baffle, one side fixedly connected with first handle of first baffle, the outer wall fixedly connected with non-slip layer of first handle, the outer wall fixedly connected with ration storage bucket of connecting pipe, the bottom fixedly connected with discharging pipe of ration storage bucket. This fodder packing apparatus can reach quantitative packing's purpose, in actual use, and operating personnel can carry out quantitative packing to the fodder through packing apparatus, and the follow-up operation process of being convenient for has solved general fodder packing apparatus and can not quantitative packing's problem.

The prior art has the following defects: the above-mentioned patent is although can realize quantitative packing, but needs the switching of manual control valve, and when the volume of each package of fodder was great, just needed bigger ration feed cylinder, packing apparatus just was big, and its control position will be too high, is unfavorable for staff to operate, and all needs the staff to carry out the switching to accomplish the packing operation when packing at every turn, and the process is too loaded down with trivial details.

Disclosure of Invention

The utility model aims to provide a packing device for a feed production line, which aims to solve the defects in the prior art.

In order to achieve the above object, the present utility model provides the following technical solutions: a feed line bagging apparatus comprising: the feeding pipe is communicated with the quantitative bin through a first feeding hole, the feeding pipe is communicated with the quantitative bin through a first discharging hole, a quantitative inner cavity is formed in the quantitative bin, a second discharging hole and a second feeding hole are formed in the quantitative bin, the second discharging hole is communicated with the first discharging hole, the second feeding hole is communicated with the first feeding hole, the backing plate mechanism is arranged between the quantitative bin and the inner wall of the main body in a sliding mode, the lower end of the backing plate mechanism is fixedly connected to the bottom of the inner cavity of the main body, the upper end of the backing plate mechanism is in butt joint with the lower end face of the quantitative bin, the upper end face of the backing plate mechanism and the lower end face of the quantitative bin are inclined faces, and one end of the backing plate mechanism is connected with a driving mechanism.

Further, one side of backing plate mechanism is connected with first gear, first gear is connected with the second gear through the connecting rod, the outer edge meshing of second gear has the third gear, be provided with first baffle on the first gear, be provided with the second baffle on the third gear, still include the connecting plate, be provided with the drive pole on the side of connecting plate, and be provided with the axis of rotation on the another side, the drive pole respectively with first baffle and second baffle looks butt at rotatory in-process.

Further, one end of the rotating shaft is connected to the connecting plate, and the other end of the rotating shaft is connected with a motor through a planetary reducer.

Further, the pad mechanism includes: the gear comprises a base plate and a roller, wherein one end of the base plate is connected with a toothed plate, and the toothed plate is meshed with the outer edge of the first gear.

Further, the gyro wheel is all installed to the up and down terminal surface of backing plate, the gyro wheel that sets up on the backing plate up end slides and sets up on the ration storehouse, the gyro wheel that sets up on the backing plate lower terminal surface slides and sets up in the main part, just the both sides of gyro wheel all are provided with the joint piece.

Further, the bottom of the quantitative inner cavity is an inclined surface and is inclined to the position of the first discharge hole.

In the technical scheme, the packing device for the feed production line has the beneficial effects that:

according to the utility model, through arranging the cushion plate mechanism and the quantitative bin, the quantitative bin moves downwards by sliding the cushion plate mechanism, so that the process from feeding to discharging is completed, firstly, feed enters the quantitative inner cavity after passing through the first feed port and the second feed port through the feed pipe, after the quantitative inner cavity is full, the cushion plate mechanism moves to the right end, so that the quantitative bin moves downwards, the second feed port and the second feed port move downwards, the second feed port is disconnected with the first feed port, the second feed port is communicated with the first feed port, feed in the quantitative inner cavity passes through the second feed port and the first feed port and then is discharged and packaged, and the cushion plate mechanism moves back to the original place again to jack up the quantitative bin upwards, so that the first feed port is communicated with the second feed port for continuous feeding; the quantitative packing of the feed can be completed through the steps, a worker is not required to complete quantitative packing through opening and closing of the feed inlet and the feed outlet, automatic quantitative packing of the feed is realized, and the quantitative packing device is suitable for mass production of production lines.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

This document provides an overview of various implementations or examples of the technology described in this disclosure, and is not a comprehensive disclosure of the full scope or all of the features of the disclosed technology.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present utility model, and other drawings may be obtained according to these drawings for a person having ordinary skill in the art.

FIG. 1 is a schematic diagram of a structure provided in an embodiment of the present utility model;

FIG. 2 is a cross-sectional view provided by an embodiment of the present utility model;

FIG. 3 is an enlarged view of FIG. 2A provided in accordance with an embodiment of the present utility model;

fig. 4 is a schematic structural diagram of a pad mechanism according to an embodiment of the present utility model.

Reference numerals illustrate:

1. a main body; 2. a motor; 3. a planetary reducer; 4. a feed pipe; 41. a first feed port; 5. a discharge pipe; 51. a first discharge port; 6. a backing plate mechanism; 61. a backing plate; 62. a roller; 63. a toothed plate; 64. a clamping block; 7. a quantitative bin; 71. quantifying the inner cavity; 72. a second discharge port; 73. a second feed inlet; 91. a first gear; 92. a second gear; 921. a first baffle; 93. a third gear; 931. a second baffle; 10. a connecting plate; 101. a drive rod; 102. and (3) rotating the shaft.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present disclosure more apparent, the technical solutions of the embodiments of the present disclosure will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present disclosure. It will be apparent that the described embodiments are some, but not all, of the embodiments of the present disclosure. All other embodiments, which can be made by one of ordinary skill in the art without the need for inventive faculty, are within the scope of the present disclosure, based on the described embodiments of the present disclosure.

Referring to fig. 1-4, a feed line baling apparatus, comprising: the quantitative feeding device comprises a main body 1, wherein a backing plate mechanism 6 and a quantitative bin 7 are arranged in the main body 1, a feeding pipe 4 and a discharging pipe 5 are arranged on the main body 1, the feeding pipe 4 is communicated with the quantitative bin 7 through a first feeding hole 41, the discharging pipe 5 is communicated with the quantitative bin 7 through a first discharging hole 51, a quantitative inner cavity 71 is formed in the quantitative bin 7, a second discharging hole 72 and a second feeding hole 73 are formed in the quantitative bin 7, the second discharging hole 72 is communicated with the first discharging hole 51, the second feeding hole 73 is communicated with the first feeding hole 41, the backing plate mechanism 6 is slidably arranged between the quantitative bin 7 and the inner wall of the main body 1, the lower end of the backing plate mechanism 6 is fixedly connected to the bottom of the inner cavity of the main body 1, the upper end of the backing plate mechanism 6 is abutted to the lower end face of the quantitative bin 7, the upper end face of the backing plate mechanism 6 and the lower end face of the quantitative bin 7 are inclined faces, and one end of the backing plate mechanism 6 is connected with a driving mechanism.

Specifically, the utility model sets the cushion plate mechanism 6 and the quantitative bin 7, the cushion plate mechanism 6 is slid to enable the quantitative bin 7 to move downwards, so that the process of feeding and quantitative discharging is completed, firstly, feed enters the quantitative inner cavity 71 after passing through the first feed inlet 41 and the second feed inlet 73 through the feed pipe 4, after the quantitative inner cavity 71 is full, the cushion plate mechanism 6 moves to the right end, so that the quantitative bin 7 moves downwards, the second feed inlet 72 and the second feed inlet 73 move downwards, the second feed inlet 73 is disconnected from the first feed inlet 41, the second feed inlet 72 is communicated with the first feed outlet 51, the feed in the quantitative inner cavity 71 is discharged and packed after passing through the second feed outlet 72 and the first feed outlet 51, and the cushion plate mechanism 6 moves back to the original place again to jack up the quantitative bin 7 upwards, so that the first feed inlet 41 and the second feed inlet 73 are connected for continuous feeding; the quantitative packing of the feed can be completed through the steps, a worker is not required to complete quantitative packing through opening and closing of the feed inlet and the feed outlet, automatic quantitative packing of the feed is realized, and the quantitative packing device is suitable for mass production of production lines.

Further, one side of the backing plate mechanism 6 is connected with a first gear 91, the first gear 91 is connected with a second gear 92 through a connecting rod, a third gear 93 is meshed with the outer edge of the second gear 92, a first baffle 921 is arranged on the first gear 91, a second baffle 931 is arranged on the third gear 93, the backing plate mechanism further comprises a connecting plate 10, a driving rod 101 is arranged on the side face of the connecting plate 10, a rotating shaft 102 is arranged on the other side face of the connecting plate, and the driving rod 101 is respectively abutted to the first baffle 921 and the second baffle 931 in the rotating process.

Specifically, firstly, the mounting positions of the first baffle 921 and the second baffle 931 differ by 90 degrees, that is, the driving rod 101 and the first baffle 921 are continuously rotated by 90 degrees to be abutted against the second baffle 931, the driving rod 101 is abutted against the first baffle 921 to drive the second gear 92 to rotate clockwise to drive the first gear 91 to rotate, so that the toothed plate 63 drives the base plate 61 to move to the right, then the driving rod 101 and the first baffle 921 are not abutted, the position of the base plate 61 is kept still, the driving rod 101 is continuously rotated, the feed in the feed ration cavity 71 is completely discharged in the period of time before the driving rod 101 contacts the second baffle 931, then the driving rod 101 is abutted against the second baffle 931 to drive the second baffle 931 to rotate clockwise, the second baffle 931 drives the first baffle 921 to rotate anticlockwise, the first gear 91 drives the toothed plate 63 to move leftwards to drive the base plate 61 to return to the original position, and thus the quantitative packing is completed, and in the quantitative packing process, the feeding and automatic quantitative packing time is shortened, and the packing device is greatly improved, and the packing efficiency is not suitable for the large-scale packing device.

Further, one end of the rotation shaft 102 is connected to the connection plate 10, and the other end of the rotation shaft 102 is connected to the motor 2 through the planetary reducer 3.

Specifically, the motor 2 adopts a motor with low rotation speed, and the gear set in the planetary reducer 3 is matched for further deceleration, so that enough feeding and discharging time is provided for the device.

Further, the pad mechanism 6 includes: the backing plate 61, gyro wheel 62, the one end of backing plate 61 is connected with pinion rack 63, and pinion rack 63 meshes with the outer edge of first gear 91.

Specifically, the pad 61 and the first gear 91 are connected by the toothed plate 63, and the toothed plate 63 is an important member for converting rotation into linear motion.

Further, the upper and lower end surfaces of the base plate 61 are provided with rollers 62, the rollers 62 arranged on the upper end surface of the base plate 61 are slidably arranged on the quantitative bin 7, the rollers 62 arranged on the lower end surface of the base plate 61 are slidably arranged on the main body 1, and two sides of the rollers 62 are provided with clamping blocks 64.

Specifically, the chute is all offered on ration storehouse 7 and the main part 1 inner wall, supplies gyro wheel 62 to slide for sliding friction between backing plate 61 and ration storehouse 7 and the main part 1 turns into rolling friction, reduces the resistance, alleviates motor 2's burden, does benefit to motor 2's selection, through the setting of joint piece 64, makes backing plate 61 can not break away from ration storehouse 7 and main part 1 easily, guarantees that backing plate 61 motion in-process is more stable, has improved the stability and the durability of device.

Further, the bottom of the dosing chamber 71 is inclined and inclined to the first discharge opening 51.

Specifically, the bottom of the quantifying cavity 71 is provided with an inclined plane facing the inclined plane at the position of the first discharge hole 51, so that the feed in the quantifying cavity 71 is discharged faster and cleaner, and the quantifying quality of the feed is ensured.

In the utility model, firstly, feed passes through the feed pipe 4 and then enters the quantitative inner cavity 71 through the first feed port 41 and the second feed port 73, after the quantitative inner cavity 71 is full, the motor 2 drives the driving rod 101 to rotate after being decelerated through the planetary reducer 3, after the quantitative inner cavity 71 is full, the driving rod 101 is abutted against the first baffle 921, so that the second gear 92 rotates to drive the first gear 91 to rotate clockwise, the toothed plate 63 meshed with the first gear 91 moves to the right, the backing plate 61 slides to enable the quantitative bin 7 to descend, wherein the second feed port 72 and the second feed port 73 move downwards, so that the second feed port 73 is disconnected with the first feed port 41, the second feed port 72 is communicated with the first feed port 51, the driving rod 101 is disconnected with the first baffle 921, the toothed plate 63 loses power and stops, at the moment, after the feed in the quantitative inner cavity 71 is completely discharged through the second feed port 72 and the first feed port 51, the toothed plate 92 moves clockwise, the second gear 92 drives the second gear 92 to move anticlockwise, and the second feed port 92 is connected with the first feed port 73, the second feed port is connected with the first feed port 51, the second feed port is continuously moved anticlockwise, and the second feed port is connected with the first feed port 73, and the second feed port is continuously moved anticlockwise, and the feed port is connected with the second feed port 73, and the feed port is continuously moved anticlockwise, and the feed port is connected with the first feed port and the feed port is connected with the second feed port 73, and the feed port is continuously moved.

While certain exemplary embodiments of the present utility model have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that modifications may be made to the described embodiments in various different ways without departing from the spirit and scope of the utility model. Accordingly, the drawings and description are to be regarded as illustrative in nature and not as restrictive of the scope of the utility model, which is defined by the appended claims.

Claims (6)

1. A feed line bagging apparatus comprising: main part (1), its characterized in that: be provided with backing plate mechanism (6) and ration storehouse (7) in main part (1), be provided with inlet pipe (4) and row material pipe (5) on main part (1), inlet pipe (4) are through first feed inlet (41) and ration storehouse (7) intercommunication, row material pipe (5) are through first feed inlet (51) and ration storehouse (7) to the intercommunication, quantitative inner chamber (71) have been seted up in ration storehouse (7), second feed inlet (72) and second feed inlet (73) have been seted up on ration storehouse (7), second feed inlet (72) are linked together with first feed inlet (51), second feed inlet (73) are linked together with first feed inlet (41), backing plate mechanism (6) slide and are set up between the inner wall in ration storehouse (7) and main part (1), the lower extreme of backing plate mechanism (6) is connected on the inner chamber bottom of main part (1), backing plate mechanism's upper end and lower terminal surface (7) of ration storehouse are the terminal surface of backing plate mechanism (6) are connected with inclined plane mechanism (7), terminal surface (6) are all connected with the terminal surface mechanism (7).

2. The fodder production line packing apparatus according to claim 1, characterized in that one side of the backing plate mechanism (6) is connected with a first gear (91), the first gear (91) is connected with a second gear (92) through a connecting rod, the outer edge of the second gear (92) is meshed with a third gear (93), a first baffle plate (921) is arranged on the first gear (91), a second baffle plate (931) is arranged on the third gear (93), the fodder production line packing apparatus further comprises a connecting plate (10), a driving rod (101) is arranged on the side face of the connecting plate (10), a rotating shaft (102) is arranged on the other side face, and the driving rod (101) is respectively abutted to the first baffle plate (921) and the second baffle plate (931) in the rotating process.

3. A fodder production line packing apparatus according to claim 2, characterized in that one end of the rotating shaft (102) is connected to the connecting plate (10), and the other end of the rotating shaft (102) is connected to the motor (2) through the planetary reducer (3).

4. A feed line baling device as claimed in claim 3, characterized in that said backing plate mechanism (6) comprises: backing plate (61), gyro wheel (62), the one end of backing plate (61) is connected with pinion rack (63), pinion rack (63) meshes with the outer edge of first gear (91).

5. The fodder production line packing apparatus of claim 4, wherein the upper and lower end surfaces of the base plate (61) are provided with rollers (62), the rollers (62) arranged on the upper end surface of the base plate (61) are slidably arranged on the quantitative bin (7), the rollers (62) arranged on the lower end surface of the base plate (61) are slidably arranged on the main body (1), and two sides of the rollers (62) are provided with clamping blocks (64).

6. A fodder production line packing apparatus according to claim 1 or 5, wherein the bottom of the dosing chamber (71) is inclined and inclined towards the first discharge opening (51).