KR102624008B1 - Apparatus for controlling the mount of feed - Google Patents

Abstract

The present invention is a feed storage bin in which a space for storing feed is formed, an inlet is provided at the top for injecting feed transferred through a feed transfer pipe into the space, and a feed discharge port for discharging the feed is provided at the bottom of the feed storage bin, the feed storage bin A central axis installed in the internal space, the top of which is located below the central axis and is inserted into the outer diameter of the central axis, and a feed separation plate that divides the internal space of the feed storage bin into first and second spaces, located above the central axis. In the positioned state, the lower end is rotatably fitted to the outer diameter of the central axis and is connected to the feed distribution plate and the feed distribution plate that blocks and unblocks the inlet of the feed storage container and the first space of the feed storage container, and is connected to the feed distribution plate. Provided is a feed storage amount control device characterized in that it consists of an operating means that forcibly rotates.

Description

Apparatus for controlling the mount of feed}

The present invention relates to a feed storage volume control device, and more specifically, in a state where the internal space of a feed storage bin in which feed is stored is divided into first and second spaces, one of the divided spaces is selectively opened to allow sow This relates to a feed storage volume control device that allows the amount of feed to be adjusted according to the calving period.

In general, livestock such as pigs, cows, dogs, etc. eat different amounts of feed for each individual, and the amount of feed fed varies depending on the growth period, such as physique conditions and body weight, and an appropriate amount of feed is fed accordingly. In particular, in the case of pigs, the amount of feed varies significantly depending on the early to middle or late pregnancy, before/after parturition, lactation, end of lactation, pregnancy waiting period, etc.

Accordingly, by controlling the body weight according to age, parturition, and pregnancy period, it is possible to produce a large number of healthy piglets, and for this purpose, the appropriate amount of feed and drinking water is artificially adjusted.

In the conventional feed storage container, which is not equipped with a feed storage amount control device, in an automatic sow feeder that forcibly discharges feed by a drive motor, the feed supplied from the feed transfer pipe had no choice but to fill the entire space of the feed storage container. The sow automatic feeder is usually equipped with a feed supply means to supply feed to farrowing sows, but in this case, the method of storing feed is different from the manual feed storage bin.

In normal cases, farrowing sows are supplied with feed from 7 days before farrowing to 28 days after farrowing. Before farrowing, they are fed less than 3 kg to as little as 0.5 kg of feed per day, and after farrowing, they are fed 1 kg to 2 kg per day. The amount is gradually increased to 1.5 kg on the first day, 2 kg on the third day, 2.5 kg on the fourth day, 3 kg on the fifth day, 3.5 kg on the sixth day, and 4 kg on the seventh day, so there are some days when the maximum amount of more than 10 kg is supplied.

Normally, the amount of feed stored in the feed storage container is more than 6kg, but the problem is that if you feed less than 3kg of feed per day, you must feed the feed once received for 2 days or feed the feed once filled for 3 days before and after calving. .

Since this is located inside a livestock barn in a poor environment, it is bound to be contaminated with moisture and odor, so in order to always feed fresh feed to livestock, it is most desirable to empty at least the feed supplied that day. There is a way to feed fresh feed to livestock. am. However, if the capacity of the feed storage container is made small, the animal will eat more than 10 kg per day starting from the 8th day after calving. At that time, it is more inconvenient and difficult to fill the feed storage container 4 times a day, so it is supplied up to 2 times a day. It is used after being molded to have a target capacity of about 6kg.

Document 1: Republic of Korea Intellectual Property Office Published Patent Publication No. 10-2017-0011402

Therefore, the purpose of the present invention to solve the problems described above is to partition the internal space of the feed storage bin into first and second spaces, and selectively open any one of the partitioned spaces to allow sow The aim is to provide a feed storage amount control device that allows the feed amount to be adjusted according to the calving time of the baby.

The present invention to achieve the above-mentioned objectives is a feed storage volume control device, in which a space for storing feed is formed, an inlet for feeding feed transferred through a feed transfer pipe into the space is provided at the top, and feed is provided at the bottom of the feed storage amount control device. A feed storage bin provided with a feed discharge port for discharging, a central axis installed in the inner space of the feed storage bin, and in a state located below the central axis, its upper end is inserted into the outer diameter of the central axis and defines the internal space of the feed storage bin as a first, A feed separation plate dividing into two spaces, located above the central axis, the lower end of which is rotatably inserted into the outer diameter of the central axis, and blocking and unblocking the inlet of the feed storage bin and the first space of the feed storage bin. It is connected to a distribution diaphragm and the feed distribution diaphragm and is characterized by consisting of an operating means for forcibly rotating the feed distribution diaphragm.

The operating means consists of an operating lever that allows rotation by pulling or pushing the feed distribution plate in a state where one end is connected to the upper side of the feed distribution plate and the other end penetrates the feed storage bin and is exposed to the outside. desirable.

The operating means consists of a metallic magnetic material installed on the feed distribution plate and a magnet movably installed on the outside of the feed storage container. As the magnetic material moves, the feed distribution plate moves around the central axis by the magnetic force of the magnet. It is desirable to rotate it around the center.

The present invention divides the internal space of the feed storage bin where feed is stored into first and second spaces, and selectively opens any one of the divided spaces to adjust the amount of feed supplied according to the sow's farrowing time. .

This is done by adjusting the feed distribution diaphragm so that only half of the feed is stored in the period when a small amount of feed is supplied, and by placing the feed distribution diaphragm in the center of the input port when a lot of feed is needed (approximately 15 days), so that the entire feed storage bin is covered with feed. By storing and using it, fresh feed can always be supplied, allowing piglets to be raised healthily by supplying as much feed as possible to livestock.

In addition, the feed separation diaphragm serves to limit the space where feed is stored and minimizes the phenomenon of the feed being tangled inside the feed storage bin due to external humidity or moisture, preventing it from being easily discharged, so that the feed is properly distributed in the correct amount without being tangled through the feed outlet at the bottom. ensure that it can be supplied.

1 is a diagram showing the configuration of a feed storage amount control device according to a preferred embodiment of the present invention.
Figure 2 is an operating state diagram of Figure 1.
Figure 3 is a three-dimensional view showing the structure of the feed storage amount control means in Figure 1.
Figure 4 is a diagram showing another embodiment of the operating means installed in the feed storage amount control device.
Figure 5 is an operation state diagram of Figure 4.
Figure 6 is a diagram showing another embodiment of the operating means installed in the feed storage amount control device.
Figure 7 is an operation state diagram of Figure 6.
Figure 8 is a diagram showing another embodiment of the operating means installed in the feed storage amount control device.
Figure 9 is an operation state diagram of Figure 8.

Hereinafter, embodiments of the present invention will be described with reference to the attached drawings. In the detailed description to be described later, various embodiments of the present invention will be presented to achieve the above-described technical problem.

The attached Figure 1 is a diagram showing the configuration of a feed storage amount control device according to a preferred embodiment of the present invention, Figure 2 is an operation state diagram of Figure 1, and Figure 3 is a three-dimensional view of the structure of the feed storage amount control means in Figure 1. This is a drawing.

As shown in Figures 1 to 3, the feed storage bin 10 is a means of supplying feed to a feed tray on the floor while storing a certain amount of feed inside.

The feed storage bin 10 has a space for storing feed inside, and a depression 26 is provided at the top thereof to support the feed transfer pipe 24, and the feed transfer pipe is located in the center of the depression 26. An inlet 28 is provided through which the feed transferred through (24) is introduced into the space of the feed storage bin 10.

A feed outlet 30 is provided at the bottom of the feed storage bin 10. At this time, a blade 32, which is a feed supply means, is installed inside the feed outlet 30, and the blade 32 is installed on the outside. In the process of performing a rotation operation with the power of the motor, the feed stored in the feed storage container (10) is discharged to the feed tray below through the feed discharge port (30).

The feed storage volume control means 40, which is the main component of the present invention, is installed in the inner space of the feed storage bin 10.

The feed storage volume control means (40) is largely composed of a central axis (42), a feed separation plate (44), and a feed distribution plate (50).

The central axis 42 is installed inside the feed storage bin 10 and supports the feed separation plate 44 and the feed distribution plate 50. At this time, the central axis 42 can be configured with both ends penetrating the outside of the feed storage bin 10, or with both ends of the central axis 42 in close contact with the feed storage bin 10 and a piece, etc. It can be fixed using fastening means, and the central axis 42 can be fixed to the feed storage bin 10 in various other ways.

The feed separation plate 44 is a plate that divides the internal space of the feed storage bin 10 into half, preferably into two first and second spaces 20 and 22, respectively. A guide pipe 46 is installed at the top of the feed separation plate 44, and the guide pipe 46 is inserted into the outer diameter of the central axis 42 and connects the feed separation plate 44 to the central axis 42. support it.

The front and rear sides of the feed separation plate 44 are in close contact with the inner surface of the feed storage bin 10, and the lower end is spaced a certain distance away from the upper surface of the blade 32, which is the feed supply means, so as to rotate the blade 32. Make sure not to interfere with.

The feed distribution plate 50 is provided with a guide pipe 52 at its lower end, and the guide pipe 52 is inserted into the outer diameter of the central axis 42 and assembled. That is, the feed distribution plate 50 is rotatably fitted to the outer diameter of the central axis 42 through the guide pipe 52 and rotates with the central axis 42 as a starting point, and the feed separation plate 44 ) to selectively block or unblock the connection between the first space (20, 22) and the feed storage bin (10), or the first and second spaces (20, 22) and the feed storage bin (10). Make sure to unblock all of the input ports (28).

For example, if the feed distribution plate 50 is maintained vertically below the input port 28 without rotating as shown in FIG. 1, the feed input through the input port 28 is stored in the first and second spaces (20). , 22), while when the feed distribution plate 50 is rotated to the left as shown in Figure 2, the first space 20 and the inlet 28 are blocked. Therefore, the feed input through the input port 28 is input only into the second space 22.

The feed distribution plate 50 rotates about the central axis 42 through the operating means 60 to block and unblock the first space 20 and the inlet 28.

Through the feed storage amount control means 40 configured in this way, the internal space of the feed storage bin 10 is divided into the first and second spaces 20 and 22, and is divided into the first and second spaces 20 and 22 according to the farrowing situation of the sow. 22), or by supplying feed limited to only two spaces (22), the amount of feed stored in the feed storage tank can be freely adjusted to supply fresh and fixed amount of feed required for the sow on time.

In the following, three representative embodiments of the above operating means will be described as examples.

1 and 2, the operating means 60 has one end connected to the upper side of the feed distribution plate 50 and the other end penetrates the feed storage bin 10 and is exposed to the outside. ), an operating lever 62 that pulls or pushes to enable rotation, is inserted into the outer diameter of the operating lever 62, and returns the operating lever 62 to its initial state while elastically supporting the operating lever 62 It is composed of a spring 64, and is fixed and released with a stopper (not shown).

The attached FIGS. 4 and 5 are diagrams showing operating means of another embodiment of the feed storage volume control device. The operating means includes installing a metallic magnetic body 160 on the feed distribution plate 50 and operating the feed storage bin 10. A magnet 162 was installed outside so that the rotational motion of the feed distribution plate 50 was implemented by the magnetic force of the magnet 162. By the operation of the magnet 162, the feed distribution plate 50 blocks and unblocks the first space 20 and the inlet 28 to open the first and second spaces (10) of the feed storage bin 10 according to the farrowing situation of the sow. 20, 22) controls the supply of feed.

The attached FIGS. 6 and 7 are diagrams showing another embodiment of the operating means in the feed storage volume control device. As shown, the operating means includes a rotary lever 260 installed on the outside of the feed storage container 10. In addition, the rotary lever 260 is connected to the guide pipe 52 of the feed distribution diaphragm 50 provided inside the feed storage bin 10, and the feed distribution diaphragm ( 50) is rotated to control the supply of feed to the first and second spaces (20.22) of the feed storage bin (10) according to the sow's farrowing situation. At this time, the rotary lever 260 is connected to the central axis 42, and the feed distribution plate 50 is fixed to the central axis 42 by rotating the central axis 42. It is operated to rotate, and by the operation of the rotary lever 260, the feed distribution plate 50 blocks and unblocks the first space 20 and the inlet 28 to open the feed storage bin 10 according to the farrowing situation of the sow. The supply of feed is controlled to the first and second spaces (20, 22).

The attached FIGS. 8 and 9 are diagrams showing another embodiment of the operating means in the feed storage volume control device. The operating means fixes one end of the latch 360 to the feed distribution plate 50, and the latch The other end of 360 is exposed to the outside while penetrating the feed storage container 10, and the exposed other end of the latch 360 is bent vertically to provide a bent portion 362. According to the pushing and pulling motion of the latch 360, the feed distribution plate 50 rotates about the central axis 42 and blocks and unblocks the first space 20 and the inlet 28 to ensure the sow's parturition situation. Accordingly, the supply of feed is controlled to the first and second spaces (20, 22) of the feed storage bin (10).

10: feed storage bin 28: input port
40: Means for controlling feed storage amount 42: Central axis
44: feed separation plate 46: guide tube
50: feed distribution plate 52: guide tube
60: operating means 62: operating lever

Claims (3)

In the feed storage amount control device,
A space for storing feed is formed inside, and a depression 26 is provided at the top to support the feed transfer pipe 24, and at the center of the depression 26 is the feed transported through the feed transfer pipe 24. A feed storage bin (10) provided with an inlet (28) for injecting feed into the space of the feed storage bin (10) and a feed discharge port (30) at the bottom thereof for discharging feed.
A central axis 42 installed in the inner space of the feed storage bin 10;
It is located below the central axis 42, and the upper end of the guide pipe 46 is installed to be inserted into the outer diameter of the central axis 42, and is supported on the central axis 42 and of the feed storage bin 10. A feed separation plate (40) dividing the internal space into first and second spaces (20, 22), respectively;
It is located above the central axis 42, and a guide tube 52 is installed at its lower end rotatably fitted to the outer diameter of the central axis 42, so that it rotates around the central axis 42 and feeds the feed. A feed distribution plate (50) that blocks and unblocks the inlet (28) of the storage bin (10) and the first space (20) of the feed storage bin (10);
It is connected to the feed distribution plate (50) and consists of an operating means (60) that forcibly rotates the feed distribution plate (50);
The operating means 60 is;
An operation to enable rotation by pulling or pushing the feed distribution plate 50 in a state where one end is connected to the upper side of the feed distribution plate 50 and the other end penetrates the feed storage bin 10 and is exposed to the outside. lever (62);
A feed storage amount control device, characterized in that it consists of a spring (64) that is inserted into the outer diameter of the operating lever (62) and returns the operating lever (62) to its initial state while elastically supporting the operating lever (62). delete delete