CN108293892B

CN108293892B - Liquid feed supply machine

Info

Publication number: CN108293892B
Application number: CN201810014252.8A
Authority: CN
Inventors: 李昌铉
Original assignee: Individual
Current assignee: Individual
Priority date: 2017-01-11
Filing date: 2018-01-08
Publication date: 2020-10-16
Anticipated expiration: 2038-01-08
Also published as: JP2018110579A; KR20180082923A; CN108293892A; KR101963490B1; JP6670330B2

Abstract

The present invention relates to a liquid feed dispenser which supplies drinking water by rotating a drinking water supply unit along the contour of a central protrusion of a feed holder by rotating a rotary shaft tube, thereby uniformly supplying drinking water to the entire storage space of the feed holder. The present invention includes a storage hopper, a feed supporting frame which is positioned at the lower side of the hopper, is provided with a central projection part at the center in a projecting way, and is provided with a storage space along the outline, and the feed supporting frame also includes: a rotary shaft tube which is rotated by power of a driving motor in a state of vertically crossing the inner space of the hopper, and in which a flow path for passing drinking water is formed; and a drinking water supply part provided at a lower end of the rotary shaft tube, for discharging drinking water, which passes through a flow path of the rotary shaft tube during rotation by a rotation action of the rotary shaft tube, to a storage space of the feed holder in a state of being positioned above the central protrusion of the feed holder.

Description

Liquid feed supply machine

Technical Field

The present invention relates to a liquid fodder supplying machine, and more particularly, to a liquid fodder supplying machine in which a drinking water supplying part is connected to a lower end of a rotary shaft pipe so that the drinking water supplying part rotates along a storage space of a fodder holding frame by a rotating motion of the rotary shaft pipe to supply drinking water, thereby uniformly supplying the drinking water to the entire storage space of the fodder holding frame.

Background

Generally, livestock such as pigs, cows, sheep, and the like (hereinafter referred to as 'livestock') fed by a farm or a barn are supplied with feed and drinking water, and such feed and drinking water are classified into a wet type in which feed and water are supplied simultaneously, a dry type in which feed and water are supplied separately, and the like according to the supply method.

An example of a typical prior art of the wet type feed supply machine is korean patent laid-open publication No. 10-2013-.

The prior art relates to a wet type automatic feed supplier, comprising; a hopper with a feed outlet formed at the lower part; a feed supporting frame formed at the lower part of the hopper, wherein the upper partition plate is combined with the hopper; a feed discharge member formed inside the hopper; a drinking water supply part formed at one side of the hopper; and a controller for controlling the overall operation of the device, wherein the feed discharging part is formed with a 1 st discharging component, a central shaft formed at the center of the hopper is rotated by an upper driving motor, and an adjusting rod having a vertical rod is telescopically assembled on a cross rod combined with the central shaft.

In the drinking water supply unit of the prior art described above, the discharge holes are formed in the hose-type drinking water distribution pipe with the holes perforated at predetermined intervals, and thus the drinking water supplied to the drinking water distribution pipe is discharged to the feed holder through the discharge holes.

However, the prior art as described above has a structure in which the drinking water is discharged only to the discharge holes of the drinking water distribution pipe, and thus the drinking water cannot be smoothly supplied to the feed holding frame region located between the discharge holes, so that the drinking water and the feed cannot be well mixed, and a wet feed of good quality cannot be supplied to livestock.

[ Prior Art document ]

[ patent document ]

(patent document 1) Korean patent office laid-open patent publication No. 10-2013-

Disclosure of Invention

Technical problem to be solved by the invention

In order to solve the above-mentioned problems of the conventional art, the present invention provides a liquid feed dispenser, in which a drinking water supply unit is provided at a lower end of a rotary shaft tube, and the drinking water supply unit is disposed on an upper surface of a central protruding portion of a feed holder, so that the drinking water supply unit is rotated along a storage space of an outer frame of the feed holder by a rotating operation of the rotary shaft tube to supply drinking water, thereby uniformly supplying drinking water to the entire storage space of the feed holder.

Another object of the present invention is to provide a liquid fodder supplying machine, which can prevent the deterioration of fodder residue by uniformly supplying fodder by driving the fodder accumulated on the upper surface of the central protrusion and dropping the fodder into the storage space of the fodder supporting frame during the rotation of the drinking water supplying part.

Technical scheme for solving problems

In order to achieve the above object, the present invention provides a liquid feed dispenser including a storage hopper, a feed support frame located under the storage hopper, having a central protrusion formed at the center thereof, and having a storage space formed along the outer contour thereof, the feed support frame further including: a rotary shaft tube which is vertically spanned over the inner space of the hopper and is rotated by the power of a driving motor, and a flow path for drinking water to pass through is formed inside the rotary shaft tube; and a drinking water supply part provided at a lower end of the rotary shaft tube, for discharging drinking water, which passes through a flow path of the rotary shaft tube during rotation by a rotation action of the rotary shaft tube, to a storage space of the feed holder in a state of being positioned above the central protrusion of the feed holder.

The drinking water supply part includes: a coupling pipe coupled to a distal end of the rotating shaft pipe and having a flow path formed therein to be communicated with the slip connection of the rotating shaft; a horizontal pipe which is connected with the combination pipe and contacts with the upper surface of the central protrusion part under the state that a horizontal flow path communicated with the flow path of the combination pipe is formed; a vertical pipe which is formed by bending a front end of the horizontal pipe downward and contacts with an outer contour surface of the central protrusion in a state where a vertical flow path communicating with a horizontal flow path of the horizontal pipe is formed; and a shaft pin formed to protrude from a lower end of the horizontal pipe and rotatably inserted into a hole formed in a center of an upper surface of the central protrusion.

ADVANTAGEOUS EFFECTS OF INVENTION

According to the liquid feed dispenser of the present invention, the drinking water supply unit is provided at the lower end of the rotary shaft tube, and the drinking water supply unit is disposed on the upper surface of the central protruding portion of the feed holder such that the drinking water supply unit rotates along the outer storage space of the feed holder by the rotation of the rotary shaft tube to supply drinking water, thereby uniformly supplying drinking water to the entire storage space of the feed holder and manufacturing wet feed of good quality.

In addition, the drinking water supply component of the invention drives the feed accumulated on the upper surface of the central protruding part and drops in the storage space of the feed support frame in the process of rotating the drinking water supply component, thereby uniformly supplying the feed and preventing the problems of feed residue deterioration and the like.

Drawings

Fig. 1 is a view showing an overall configuration of a liquid feed supplying machine according to a preferred embodiment of the present invention;

fig. 2 is a drawing showing in detail a technical configuration of the drinking water supply part (100) illustrated in fig. 1;

fig. 3 is a diagram illustrating a technical configuration of the drinking water supply part (100) illustrated in fig. 2 in a cross section.

Description of the figures

10: hopper 20: feed support frame

30 feed discharge pipe 40 rotary shaft pipe

42 flow path 50 connecting pipe

60: horizontal pipe 70: vertical pipe

80: axle pin

Detailed Description

Embodiments of the present invention are described below with reference to the drawings. In order to achieve the above-described technical problem, an embodiment of the present invention will be presented in the detailed description to be described later. In addition, the structure of the present invention is described instead of another embodiment provided by the present invention.

Fig. 1 is a drawing showing the overall configuration of a liquid feed supply machine according to a preferred embodiment of the present invention. The liquid feed supply machine according to the present invention comprises: a typical hopper 10; a feed discharge pipe 30; and a feed support 20.

Referring to fig. 1, a feed holding frame 20 holds a liquid feed in the form of dough to be ingested by livestock (hereinafter, referred to as "pigs") with a feed supplied from a hopper 10 and drinking water supplied from a drinking water supply unit 100 described later. The above-mentioned feed holding frame 20 is formed in a generally circular shape, and has a central protrusion 22 formed to protrude from a central portion thereof, and a storage space 24 formed to be recessed along an outer periphery thereof with the central protrusion 22 as a center. A drinking water supply unit 100, which is an essential component of the present invention, is provided on the upper surface of the central protrusion 22, and the feed supplied through the hopper 10 and the drinking water supplied through the drinking water supply unit 100 are simultaneously contained in the storage space 24 of the feed holding frame 20.

A space for storing the fodder is formed inside the hopper 10, and a fodder discharge pipe 30 is provided at a lower end portion thereof. The feed discharge pipe 30 is formed in a cylindrical pipe shape having an open lower side, and the feed stored in the hopper 10 is discharged through the lower side of the open feed discharge pipe 30 and is received in the feed support frame 20.

Furthermore, a drinking water supply unit 100, which is an essential component of the present invention, is provided on the upper surface of the central protrusion 22 of the feed holder 20, and preferably, a drinking water supply unit 100 for uniformly stirring the feed and the drinking water stored in the storage space 24 of the feed holder 20 is provided. The detailed construction of the drinking water supply part 100 described above can be easily understood by the following detailed description of fig. 2 and 3.

The drinking water supply unit 100 according to the present invention is technically configured to uniformly supply drinking water to the storage space 24 of the fodder holding frame 20 by rotating the rotary shaft tube 40 provided inside the hopper 10 along the outer peripheral surface of the central protrusion 22.

Before describing the drinking water supply unit 100 according to the present invention, as shown in fig. 1, a feed kink preventer 44 capable of preventing feed from being entangled and smoothly discharged to the feed discharge pipe 30 side is provided inside the hopper 10. The feed kink preventing means 44 is coupled to a rotary shaft tube 40 which is rotated by power of a driving motor 46 and vertically provided across the inner space of the hopper 10, and prevents the feed from being twisted by the rotating motion of the rotary shaft tube 40. At this time, the drinking water supply unit 100 according to the present invention is provided at the end of the rotary shaft tube 40, and the drinking water is supplied to the storage space 24 of the fodder holding frame 20 by rotating along the outer circumferential surface of the central protrusion 22 of the fodder holding frame 20 by the rotating motion of the rotary shaft tube 40.

A water supply line (not shown) is connected to a distal end of the rotary shaft tube 40, and a flow path 42 through which drinking water supplied from the water supply line passes is formed inside the rotary shaft tube. In this case, in order to prevent dew condensation, the rotary shaft tube 40 may be doubly provided with another water supply pipe (not shown) inside the rotary shaft tube 40.

The technical structure of the drinking water supply unit 100 according to the present invention will be described in detail with reference to fig. 2 and 3.

The drinking water supplying part 100 of the present invention is coupled to the end of the rotating shaft tube 40, and includes: a coupling pipe 50 having a flow path 52 formed therein and connected to and communicated with the flow path 42 of the rotary shaft pipe 40; a horizontal pipe 60 inserted into the coupling pipe 50 and contacting the upper surface of the central protrusion 22 in a state in which a horizontal flow path 62 communicating with the flow path 52 of the coupling pipe 50 is formed therein; a vertical pipe 70 formed by bending the tip of the horizontal pipe 60 downward and contacting the outer contour surface of the central protrusion 22 in a state where a vertical passage 72 communicating with the horizontal passage 62 of the horizontal pipe 60 is formed; and a shaft pin 80 formed to protrude from a lower end of the horizontal pipe 60 and rotatably inserted into a hole 26 formed in a center of an upper surface of the central protrusion 22 through a bushing 82.

Referring to fig. 2 and 3, in the drinking water supply unit 100 according to the present invention, when the rotary shaft tube 40 is rotated by the power of the driving motor 46, the coupling tube 50 coupled to the rotary shaft tube 40 is rotated together with the rotary shaft tube 40, and thus the horizontal tube 60 and the vertical tube 70 connected to the coupling tube 50 are rotated along the upper surface and the outer circumferential surface of the central protrusion 22 of the fodder holding frame 20. When the drinking water is supplied to the flow path 42 of the rotary shaft tube 40 in the above state, the drinking water passes through the flow path 52 of the coupling tube 50 communicating with the flow path 42 of the rotary shaft tube 40, the horizontal flow path 62 of the horizontal tube 60 communicating with the flow path 52 of the coupling tube 50, and the vertical flow path 72 of the vertical tube 70 communicating with the horizontal flow path 62 of the horizontal tube 60, and is supplied to the storage space 24 of the fodder holding rack 20. At this time, the drinking water is uniformly discharged to the entire storage space 24 of the feed holder 20 by the drinking water supply part 100 rotated by the rotating operation of the rotating shaft tube 40, and thus the feed stored in the storage space 24 of the feed holder 20 is uniformly mixed with the drinking water, thereby manufacturing a wet feed of good quality. A circular scraper 64 is integrally formed on one side of the horizontal tube 60 in an extending manner, and the scraper 64 drives the fodder accumulated on the upper surface of the central protrusion 22 of the fodder support frame 20 to drop down to the storage space 24 while the horizontal tube 60 rotates, so that the fodder can be uniformly discharged, and the fodder is prevented from being left and deteriorating.

In the present invention, the rotating shaft tube 40 and the drinking water supply unit 100 of the present invention, i.e., the horizontal tube 60 in detail, are assembled using the separate coupling tube 50, but the rotating shaft tube 40 may be formed to extend long and the end portion may be bent to be in contact with the outer contour of the central protrusion 22 of the fodder holding frame 20.

Claims

1. A liquid feed supply machine comprising: a hopper (10) in which feed is stored; a rotary shaft tube (40) provided inside the hopper (10) to supply drinking water; be located the downside of hopper (10), be formed with feed support frame (20) of storage space (24) of storage fodder and drinking water, its characterized in that still includes:

a drinking water supply part (100) provided at the rotary shaft tube (40) to supply the drinking water supplied through the rotary shaft tube (40) to the storage space (24) of the fodder holding frame (20);

wherein the drinking water supply part (100) comprises a horizontal pipe (60) which is combined with the tail end of the rotary shaft pipe (40) and contacts with the upper surface of the central protruding part (22) of the feed support frame (20) under the state that a horizontal flow path (62) communicated with the flow path (42) of the rotary shaft pipe (40) is formed; a circular scraper (64) is integrally formed on one side of the horizontal pipe (60) in an extending manner.

2. Liquid feed supply machine according to claim 1,

the rotary shaft tube (40) is rotated by a driving force of a driving motor (46), and the drinking water supply part (100) is rotated by the rotating action of the rotary shaft tube (40) to supply the drinking water to the storage space (24).

3. The liquid feed supply machine as claimed in claim 1, further comprising:

and a vertical pipe (70) which is formed by bending the front end of the horizontal pipe (60) downward and contacts the outer contour surface of the central protrusion (22) in a state in which a vertical flow path (72) which communicates with the horizontal flow path (62) of the horizontal pipe (60) is formed.

4. The liquid feed supply machine as claimed in claim 1, further comprising:

and a shaft pin (80) which is formed to protrude from the lower end of the horizontal pipe (60) and is rotatably inserted into a hole (26) formed in the center of the upper surface of the central protruding portion (22).