KR102015049B1 - feeding device for large size feed - Google Patents

Abstract

In accordance with an aspect of the present invention, there is provided a large feed device, which is formed in a cylindrical shape and has a feed supply part configured to supply a feed at an upper portion of one side in a longitudinal direction, and a feed housing configured to discharge feed from the feed to the other side; A rotational force driving device mounted to one outside of the body housing; The screw blade connected to one side of the shaft of the rotational force driving device is formed in a predetermined pitch and diameter without a central axis of rotation in the longitudinal direction of the horizontal center of the body, and feeds the feed introduced from the feeder as the feed of the body housing is rotated. A first shaftless feed screw for pushing to be discharged to the outlet side; And a second shaftless coil type screw which is connected in one direction with a shaft of the rotational force driving device and is formed in a coil shape in a longitudinal direction so as to surround an outer side of the first shaftless feed screw. It includes.

Description

Feeding device for large size feed}

The present invention relates to a large feed feeder using a shaftless feed screw that can smoothly feed large feed to livestock.

In general, livestock farms are provided with an automatic feeder that automatically feeds feed to provide a predetermined amount of feed intake of livestock.

Feeds for cattle, goats, etc. are supplied in the form of solids containing nutrients necessary for livestock and short-cut hay straw.

In the past, it was common to feed the concentrated feed (compound compressed feed) automatically with the automatic feeder and to feed the feed (grass, hay, etc.) by the owner directly.

Conventionally, after the feed is manufactured and mixed by using a fixed mixing device transported to a barn using a transport means such as a cart, the worker uses a method of feeding directly to a separate tool.

This feed feeding method is cheaper in facility investment, but requires more manpower and time.

In contrast to the feed amount of the functional feed intake in the automatic feeding machine, there is a problem in the supply of forage due to the lack of management of the farmhouse, causing the problem of death or drop in flow rate due to inequality imbalance.

As a result, it was proposed to provide additional feed with enhanced feed composition. However, in the case of such feed, the feed flow is not good due to the lack of internal space and the structure of the existing feed hopper due to the problem that the feeding is a lot of problems have been recognized as a problem in the feed supply.

In addition, in the case of a feeding device for feeding by a screw rotating around the central axis, when feeding a large size of the feed is often a tunnel effect occurs when the feed is not supplied even when the feed motor rotation. In addition, the volume of the feeder is also large, which is uneconomical for operation and manufacturing when it is adapted to large size feed.

In addition, when feeding to the central axis screw feed method by the existing hopper is a problem that the feed amount is not constant due to the problem of feed blockage or tunnel effect (empty space in the feed line).

Accordingly, despite the normal rotation of the driving force motor, there is a problem in that damage occurs because the tunnel is generated due to the narrowing of the way down the feed and the feed is not eaten.

Background art of the present invention has been published in Korean Utility Model Publication No. KR 20-0450955 Y1.

Utility Model Registration KR 20-0450955 Y1 (Automatic feeder)

The present invention is to provide a feed device for large-sized feed that can ensure smooth feeding and cleanliness of large feeds containing coarse feed ingredient.

Still another object of the present invention is to provide a large feed device that can be fed smoothly without feeding the feed containing a large diameter feed material attached to the inner wall of the body housing of the transfer device when feeding the large size feed to the feeder will be.

According to an aspect of the present invention, the body housing is formed in a cylindrical shape, the feed side for feeding the feed is formed on one side upper portion of the longitudinal direction, the feed housing is formed with a feed outlet for transporting the discharge to the other side; A rotational force driving device mounted to one outside of the body housing; The screw blade connected to one side of the shaft of the rotational force driving device is formed in a predetermined pitch and diameter without a central axis of rotation in the longitudinal direction of the horizontal center of the body, and feeds the feed introduced from the feeder as the feed of the body housing is rotated. A first shaftless feed screw for pushing to be discharged to the outlet side; And a second shaftless coil type screw which is connected in one direction with a shaft of the rotational force driving device and is formed in a coil shape in a longitudinal direction so as to surround an outer side of the first shaftless feed screw. There is provided a large feed device comprising a.

In addition, the second shaftless coil-type screw is characterized in that formed with a larger rotation diameter and larger pitch than the first shaftless feed screw.

And the rotational force drive device is characterized in that for transmitting the rotational force to the shaft to rotate the first shaftless feed screw at 30 ~ 45 RPM.

In addition, the rotational force drive device is characterized in that for transmitting the rotational force to the shaft to rotate the first shaftless feed screw at 40 RPM.

In addition, the inner diameter of the body housing is 100 (± 5%) mm, and the pitch and rotation diameter of the first shaftless feed screw is characterized in that the 60 (± 5%) mm.

In addition, the maximum width of the screw blade of the first axisless feed screw is 25 ± 5% mm, the thickness is characterized in that formed by 2.0 ± 5% mm.

And the second axisless coil type screw is characterized in that formed with a rotation diameter and pitch of 80 (± 5%) mm.

In addition, the second shaftless coil-type screw is characterized in that it is made of spring steel wire having a diameter of 4 (± 5%).

According to an embodiment of the present invention, by using a combination of the first shaftless feed screw and the second shaftless coil type screw inside the body housing, it is possible to smoothly feed the large-size feed that was impossible to feed the feed in the general automatic feeder. It can work.

Large feed according to an embodiment of the present invention is a large feed feed device for smoothly supplying a large-size feed by the structure to be transferred using a first shaftless feed screw and a second shaftless coil-type screw, Since the body housing can be reduced in size, it can be made compact.

According to an embodiment of the present invention, the tunnel effect of the large feed is prevented by the rotation of the first axisless feed screw and the second axisless coil type screw formed to surround the outside thereof, and the feed scale is prevented from occurring on the inner wall of the body housing. And, the function of removing the accumulated feed can be performed.

When the large feed is applied to the feeder according to an embodiment of the present invention, when feeding the large-size feed to the feeder can prevent the phenomenon that the feed stuck to the inner wall of the body housing, large feed smoothly It is possible to supply fresh food without any decay at all times.

1 is a front view of a large feed device according to an embodiment of the present invention.
Figure 2 shows a left side view of a large feed device according to an embodiment of the present invention.
3 is a perspective view of a large feed device according to an embodiment of the present invention.
Figure 4 illustrates the internal screw structure of a large feed feeder according to an embodiment of the present invention.

The terminology used herein is for the purpose of describing particular example embodiments only and is not intended to be limiting of the invention. Singular expressions include plural expressions unless the context clearly indicates otherwise.

In the present application, when a part is said to "include" a certain component, it means that it can further include other components, without excluding other components, unless specifically stated otherwise. In addition, throughout the specification, "on" means to be located above or below the target portion, and does not necessarily mean to be located above the gravity direction.

Hereinafter will be described in detail with respect to a large feed device according to the embodiment of the present invention.

The grain size of the products with fortified ingredients within the cereal grains is larger than the old 5 * 10mm cylindrical feed and recently increased to 15 * 10mm cylindrical feed or 40 * 40 * 40mm for square compressed feed. Is released.

The present invention has been developed a large feed device capable of smoothly supply the large feed 40 × 40 * 40mm or more.

1 is a front view of a large feed device according to an embodiment of the present invention.

Referring to Figure 1, the large feed unit according to an embodiment of the present invention is a device for transporting large feed grains by rotating the first shaftless feed screw and the second shaftless coil-type screw formed inside the body housing of a constant diameter to be.

1, a large feeder according to an embodiment of the present invention hopper 10 for temporarily storing the feed; A cylindrical housing having a feed supply part 11 receiving feed from the hopper, and having a feed outlet 15 for feeding and discharging the feed to the other side in a cylindrical upper portion of the longitudinal direction; A rotational force driving device 30 mounted to one outside of the body housing 20; A screw blade connected to one side of the shaft 31 of the rotational force driving device 30 is formed in a predetermined pitch and diameter without a central rotation axis in the longitudinal direction of the horizontal center of the body, and is rotated from the feed supply unit 11 according to the rotation. A first shaftless feed screw 21 for pushing the introduced feed to the feed outlet 15 of the body housing 20; And a second shaftless coil-type screw 22 connected to one side of the shaft 31 of the rotational force driving device and formed in a coil-shaped length direction to surround the outer side of the first shaftless feed screw. It includes.

Figure 2 shows a left side view of a large feed device according to an embodiment of the present invention.

3 is a perspective view of a large feed device according to an embodiment of the present invention.

1 to 3, the second shaftless coil screw 22 is formed in the same spiral direction as the first shaftless feed screw 22, and has a larger diameter than that of the first shaftless feed screw 22. Characterized in that the coil is formed in a large pitch coil shape

The first shaftless feed screw 21 and the second shaftless coil type screw are rotated by being connected to the shaft 31 of the rotational force driving device 30, thereby being introduced from the lower feeder 11 of the hopper 10. Feed the feed to the feed outlet (15) side of the body housing (20).

3 and 4, the large feeder according to an embodiment of the present invention is because the first shaftless feed screw 21 is a feed screw without a central axis, the shaft is not formed compared to the feed screw formed with a central axis It can feed the size of the space as big as space.

In addition, in the case of a feeding device for feeding by a screw rotating around the central axis, when feeding a large size of the feed is often a tunnel effect occurs when the feed is not supplied even if the screw rotates. Accordingly, even though the motor rotates normally, a tunnel shape may occur due to the narrowing of the way down the feed, which may cause a problem in that the feed cannot be supplied in a timely manner.

Large feed equipment according to an embodiment of the present invention by the rotation of the second axisless coil type screw 22 formed in a coil shape of a larger diameter and a larger pitch than the rotation diameter of the first shaftless feed screw 21 and The same tunnel occurrence phenomenon can be prevented, and the large feed can be smoothly supplied.

When the axisless feed screw is rotated in the center of the cylindrical body in the empty space, a significant external pressure is applied to the length of the screw, and particularly, at the end of the screw, a large radius of rotation may occur, similar to precession.

In addition, when only one side of the screw blade is fixed by the rotational force driving device, when the rotary motion is performed in the absence of the contents, the screw blade in the unfixed direction is swung by the precession motion.

However, in the state where the large feed is contained, if the feed is rotated within a certain rotational range while the feed is full on the outside of the axisless feed screw, the load is moved by the feed material while the feed is pushed to the outer wall so that the axisless feed screw is Automatically centered.

In an embodiment of the present invention, when driving at an unreasonable speed as a result of various experiments, a precession may occur, thereby causing a phenomenon in which an end portion of the axisless feed screw is swung because the origin alignment of the axisless feed screw is damaged.

As a result of various experiments, when the first shaftless feed screw exceeded 45 RPM, it was analyzed that intermittent fluctuations occurred during feeding.

In addition, it was analyzed that the rotational efficiency is less economical at 30 rpm or less.

The rotational speed per minute of the first shaftless feed screw of the large feeder according to an embodiment of the present invention may be applied at an appropriate rotational speed of 30 to 45 RPM, preferably maintaining 40 rotations to prevent precession. Supply can be efficient.

The first shaftless feed screw and the second coil screw of the large feeder according to an embodiment of the present invention are operated at a low speed, such as 30 to 45 RPM, and used after feeding for problems, even when used for a long time as a center alignment. Has the effect that does not occur.

Therefore, the rotational force driving device is characterized in that for transmitting the rotational force to the shaft to rotate the first shaftless feed screw at 30 ~ 45 RPM.

In addition, the second shaftless coil-type screw 22, which is formed in a coil shape having a larger diameter and a larger pitch than the first shaftless feed screw 21, is also subjected to pressure by the second shaftless coil-type screw due to a natural loading effect by the feed. The change in pressure due to the discharge of the feed increases the restoring capacity of the second shaftless coil-type screw 22 and consequently performs the function of shaking the inner space of the inner space of the body housing 20 of the large feeder.

Accordingly, the problem of the tunnel of the feed and the cause of the flow failure can be eliminated, it is possible to smoothly transport large feeds.

In addition, the second shaftless coil-type screw 22 formed in a coil shape having a larger diameter and a larger pitch than the first shaftless conveying screw 21 is rotated in a zigzag rotation with the first shaftless conveying screw 21 during rotation. It is possible to prevent the formation of the tunnel shape of the feed feed, to prevent the feed stuck to the inner wall of the body housing, it can perform a function to help feed indirectly.

The second shaftless coil-type screw 22 is installed to be close to the inner wall of the body housing 20 at a predetermined interval, and the first shaftless feed screw 21 and the zigzag rotational movement of the body housing 20 of the large feeder. By implementing a function that properly cleans the feed on the inner wall so as to prevent corruption due to animal feed.

Accordingly, the second shaftless coil-type screw 22 according to an embodiment of the present invention prevents the tunnel effect of the large feed due to rotation, prevents the feed scale from being generated on the inner wall of the body housing, and removes the accumulated feed. The function can be performed.

The inner diameter of the body housing 20 was tested in various cases up to 55, 60, 65, 75, and 100 mm. The smaller the pipe was, the better the precision of the feed amount was. The safety of feed flow could be ensured only by using pipes with inner diameter.

In one embodiment of the present invention, the body housing 20 of the large feeder was developed based on an inner diameter of 100 (± 5%) mm.

Figure 4 illustrates the internal screw structure of a large feed feeder according to an embodiment of the present invention.

The pitch of a screw with a common central axis is produced at intervals of 40 mm.

In an embodiment of the present invention, the first pitch P1 of the first shaftless feed screw 21 is 60 (± 5%) mm in order to smoothly transport large feeds of 40 * 40 * 40 mm or more. It is characterized by having.

If the first pitch P1 of the first shaftless feed screw 21 is less than 60 (± 5%) mm, the cube-shaped (cube) forage moves a lot, leading to poor livestock consumption. have.

In addition, when the first pitch P1 of the first shaftless feed screw 21 is larger than 60 ± 3 mm, there is a problem that the feed amount per minute is reduced.

In addition, in one embodiment of the present invention, when the rotational diameter of the first shaftless feed screw 21 is considered to smoothly transfer large feeds of 40 * 40 * 40 or more, the body housing 20 is 60 ± 100 mm based on the inner diameter. It has a size of ± 3mm.

According to one embodiment of the present invention, when the rotational diameter of the first shaftless feed screw 21 is smaller than 60 ± 3mm, it is analyzed that the error of the feed amount per minute becomes worse.

In addition, when the rotational diameter of the first shaftless feed screw 21 exceeds 60 ± 3mm, the gap with the inner wall of the body housing 20 is narrowed, there may be insufficient free space for the transfer operation, accordingly the friction force This becomes severe and can cause excessive impact on the rotational force drive.

In addition, when the first shaftless feed screw 21 has a rotation diameter of 60 ± 3mm and considers a smooth feed of a large feed of 40 * 40 * 40 or more, the maximum width of the blade cross section of the first shaftless feed screw 21 is 25 (± 5%) mm, the thickness is characterized in that formed 2.0 (± 5%) mm.

In addition, the second axisless coil-type screw 22 is characterized in that formed in the coil shape of a larger diameter and a larger pitch than the rotation diameter of the first axisless feed screw (22).

The second shaftless coil-type screw 22 is formed to have a size closer to the inner diameter of the body housing 20 than the rotation diameter of the first shaftless feed screw 21 in order to have an effect of removing the feed scale of the inner wall.

In one embodiment of the present invention is formed in a size having a spacing of 10 (± 5%) mm.

In one embodiment of the present invention is formed to a size having a spacing of 10 (± 5%) mm from the inner diameter of the body housing 20 larger than 10 ± 5% mm than the rotation diameter of the first axisless feed screw (21).

That is, the second axisless coil-type screw 22 is characterized in that it is formed to have a rotation diameter of 80 (± 5%) mm.

In addition, the second pitch P12 of the second axisless coil-type screw 22 is characterized in that it has a size of 80 (± 5%) mm.

The rotation diameter and pitch P2 of the second shaftless coil-type screw 22 are differentially formed so as to have a size larger than the rotation diameter of the first shaftless feed screw 21 and the first pitch P1, Zigzag rotational movement is generated with each other, it is possible to prevent the occurrence of the tunnel phenomenon during the feed of the feed.

When the diameter of the second shaftless coiled screw 22 is smaller than 80 (-5%) mm, it may interfere with the rotational movement of the first shaftless feed screw 21, and may be greater than 80 (+ 5%) mm. If large, an excessive impact may be applied to the rotational force driving device by friction with the inner diameter of the body housing 20.

The second shaftless coil-type screw 22 according to an embodiment of the present invention prevents tunneling from occurring during the transport of a large feed and performs a function to have a strength enough to remove the feed scale. It should be made of spring material with sufficient thickness and elasticity.

The second shaftless coil type screw 22 according to an embodiment of the present invention is manufactured from a spring steel wire having a diameter of 4 mm ± 5%.

10: Hopper
11: feeder
15: feed outlet
20: body housing
21: first shaftless feed screw
22: second shaftless coil type screw
30: torque driving device
31: axis

Claims (8)

delete It is formed in a cylindrical shape, the upper side of the one side in the longitudinal direction is formed with a feed for supplying the feed, the body housing formed with a feed outlet for the feed is discharged to the other side;
A rotational force driving device mounted to one outside of the body housing;
A screw blade connected to one side of the shaft of the rotational force driving device is formed at a predetermined pitch and diameter without a central rotation axis in the longitudinal direction of the horizontal center of the body, and feeds the feed introduced from the feed supply unit according to the rotation of the feed of the body housing. A first shaftless feed screw for pushing to be discharged to the outlet side; And
A second shaftless coil type screw which is connected to one side of the shaft of the rotational force driving device and has no central rotation shaft in a longitudinal direction in a coil shape so as to surround an outer side of the first shaftless feed screw; Including,
The second shaftless coil screw is formed in the same spiral direction as the first shaftless feed screw, characterized in that formed with a larger rotation diameter and larger pitch than the first shaftless feed screw,
The pitch and rotation diameter of the first shaftless feed screw is formed of a size of 60mm, the second shaftless coil-type screw is a large feed, characterized in that formed with a rotation diameter and pitch of 80mm. The method of claim 2,
The rotational force drive device for feeding large feeds, characterized in that for transmitting the rotational force to the shaft to rotate the first shaftless feed screw at 30 ~ 45 RPM. The method of claim 2,
The rotational force drive device for feeding large feeds, characterized in that for transmitting the rotational force to the shaft to rotate the first shaftless feed screw at 40 RPM. The method of claim 2,
Large feeder, characterized in that the inner diameter of the body housing is 100mm. The method of claim 5,
The maximum width of the screw blade of the first shaftless feed screw is 25mm, the feed material, characterized in that the thickness is formed in the size of 2.0mm. delete The method of claim 6,
The second shaftless coil type screw is a large feed device, characterized in that made of spring steel wire having a diameter of 4mm.

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