KR20050018839A - Auto feeder of fooder - Google Patents

Abstract

PURPOSE: An automatic feed provider is provided to provide a predetermined amount of feed and disperse feed broadly in a fish farm by providing accelerated wind to a dispersing plate. CONSTITUTION: The automatic feed provider includes a storing hopper(1), a tubular case(3) connected to the lower part of the storing hopper, a dispersing plate(50) and a driving motor(9). The dispersing plate(50) is connected to the rotating axis of the driving motor(9). The automatic feed provider further includes a feed guide pipe, a blade, which is detachably connected to the rotating axis to be positioned at the lower part of the feed guide pipe. Many through-holes(4) are formed on the case(3) to allow outside air to float into the blade. Spiral grooves are formed on the feed guide pipe and the rotating axis.

Description

Auto feeder of fooder

The present invention relates to a feed automatic feeder, and more particularly, to a feed automatic feeder that can adjust the feed amount of the feed and can be widely scattered by naturally drying the feed.

In traditional cage farms, people feed their hands several times a day, which requires a lot of hands, and if you give them too much when you feed them, the meat will float or sink before eating, causing waste and water pollution. As it is, it is sprayed continuously for a long time.

Therefore, it is necessary to sprinkle the feed around the place, so the work of sprinkling on the cage farm was the most cumbersome and requires a lot of hands.

In order to solve the above problem has been presented feed automatic feeder as shown in Figures 9 to 11, which is fixed to the bottom of the feed reservoir 110, the feed reservoir 110 and the buoy 101, the feed is stored on the buoy 101 The frame 103 fixed to the upper portion of the fixed support plate 102, and installed in the lower portion of the feed reservoir 110 to discharge the feed and the two different outlet diameters (115, 116) and the outlets (115, 116) In the discharge control plate 120 to adjust the amount of the feed is discharged, the control unit 126 for controlling the discharge control plate 120 to be moved left and right in the operating unit 125, and in the feed reservoir 110 Feeding hopper 130 for moving the feed discharged through the discharge port (115, 116) and the scattering ball 136 to sprinkle the feed moved from the input hopper 130 and receives the rotational force of the motor (132) It consists of.

The feed reservoir 110 is fixed to the frame 103 and the frame 103 is fixed to the support plate 102 installed on the buoy 101 of the cage farm, one is usually installed in the center of four cage cages Use one feeder to feed the four caged farms.

The feed reservoir 110 is provided with a sieve rod 111 in the upper portion so that the feed bag is not introduced when feeding the feed, and forms two outlets 115 and 116 having different diameters in the lower portion of the feed reservoir 110, An inner lower portion of the feed reservoir 110 is provided with a stirring blade 114 that is rotated by the motor 113 so that the feed contained in the feed reservoir 110 can be discharged to the outlets 115 and 116 without stagnation.

In addition, the discharge control plate 120 is formed on the top of the discharge port (115, 116) is formed with one discharge hole 121, the discharge control plate 120 is moved left, right, feed by changing the position of the discharge hole 121 Is not discharged or is discharged to one of the outlets (115, 116), the rotary rod 135 is rotatably installed in the fixed rod 137 fixed to the frame 103, the lower portion of the injection hopper 130 Connected to the hose 131 stretched to the position (136) is the feed is configured to be carried on the hose 131 to the inlet to fly scattering 136.

Conventional feed automatic feeder configured as described above after the feed moved to the injection hopper 130 is vertically dropped from the hose 131 to the scattering ball 135. The structure that is scattered in the transverse direction by the rotary rod 135, the impact generated when the feed hits the inner wall of the scattering sphere 136 to scatter the feed by the impact and centrifugal force generated when the feed falls on the rotary rod 135 There was a problem that is broken finely.

In addition, since the feed simply feeds a considerable amount of feed from the hose 131 having a predetermined diameter through the tubular scattering ball 136, the thermal properties are pushed around the breeding space of the fish farm due to the scattering of the feed in a relatively wide range. Fishes were unable to grow enough to feed their diets.

In particular, since a large amount of feed is scattered in a small range of fish farms, the amount of time the food stays on the water surface is relatively reduced. The fish farm was polluted by the stacked feed.

Therefore, the feed can be scattered to a wide range of fish farms by a certain amount, and the fish feeder is operated for several hours at the fish farm, which prevents the water from being contained in the feed, so that the feed can be supplied to the fish farm. Means of need are needed.

The present invention has been made to solve the above problems, the object of the present invention can be adjusted to supply a fixed amount of feed, by feeding the accelerated wind to the feed plate scattering the feed naturally to feed the fish farm Not only can it spread widely, but the increased retention time of the food on the surface of the fish can also eat enough zealous fish that have been pushed around the breeding area of the fish farm. It is possible to minimize, and in particular, the configuration is very simple, and the components of each part can be easily used interchangeably to provide a feed automatic feeder that can reduce the purchase cost and maintenance costs.

The configuration of the present invention for achieving the above object, the feed is stored in the storage hopper connected to the tubular case at the bottom, the spray plate formed with a plurality of wing pieces so as to spray the feed discharged from the storage hopper, In the feed automatic feeder consisting of a drive motor coupled to the rotating shaft, one side is detachably coupled to the bottom of the storage hopper (1) and the feed guide tube 20 provided in a tubular shape so that the rotating shaft (7) penetrates )and; A blade 30 detachably coupled to the rotary shaft 7 so as to be positioned below the feed guide tube 20; Consists of a plurality of through-holes (4) formed in the case (3) so that the outside air flows to the blade 30, each of the spiral grooves so that the feed is moved to the feed guide tube 20 and the rotary shaft (7) (H) is characterized in that formed.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view of an automatic feeder according to the present invention, Figure 2 is a longitudinal cross-sectional view of the automatic feeder according to the present invention, Figure 3 is an enlarged cross-sectional view "A" part of Figure 2, Figure 4 according to the present invention Figure 5 is a perspective view showing a separation state of the configuration coupled to the rotating shaft and the rotating shaft, Figure 5 is a perspective view showing a guide plate according to the invention, Figure 6 is a partially enlarged perspective view showing a state in which the feed is discharged according to the invention, 7 is a longitudinal sectional view showing another embodiment of an automatic feeder according to the present invention, Figure 8 is a plan view showing a discharge means according to the present invention.

As shown in the figure, the feed automatic feeder of the present invention is a storage hopper (1) is connected to the lid 2 is connected to the upper hinge, the tubular case (3) is connected to the lower, and the storage hopper (1) And a driving motor 8 having a plurality of wing pieces 51 formed thereon, and a driving motor 8 coupled to the rotating shaft 7 to sprinkle the feed discharged from the drive motor. The support plate 5 is installed at the upper and lower portions of the support plate 8, and the support 6 is connected to the bottom of the support plate 5, and the support pillar 9 is connected to the storage hopper 1 and the support plate 5. .

The stirring blade 10 is detachably coupled to the upper end of the rotating shaft 7 to discharge the feed built into the storage hopper 1 without stagnation, and apply external power to the driving motor 8. A control panel is installed on the support pillar 9 so as to be driven.

The main component of the present invention is the feed guide tube 20 and the feed guide tube provided in a tubular shape so that one side is detachably coupled to the bottom of the storage hopper 1 and the rotary shaft 7 penetrates the feed guide tube ( A blade 30 detachably coupled to the rotary shaft 7 so as to be located at the lower portion of the blade 20, and a plurality of blades formed in the case 3 to allow external air to flow to the blade 30. Consists of the through hole 4, the feed guide tube 20 and the rotary shaft 7 is formed with a spiral groove (H), respectively, so that the feed can be moved.

Here, the feed is located in the spiral groove (H) formed in the feed guide tube 20 and the rotary shaft (7), the feed shaft is lowered along the spiral groove (H) only when the rotary shaft (7) is rotated. Although it is transferred to the bar, the automatic feeder of the present invention can be implemented without having to separately provide an opening and closing means for opening the bottom of the storage hopper 1, as another embodiment of the present invention the storage as shown in Figs. The opening and closing means 11 may be separately installed between the bottom of the hopper 11 and the top of the feed guide tube 20.

The opening and closing means 11 is a pair of opening and closing plate 12 is formed in the through-hole sealing the bottom of the storage hopper 1 and the rotating shaft 7 is penetrated and closely contact each other in a semi-circular shape, the opening and closing plate 12 The bottom of the storage hopper 1 can be opened by pulling the movable rod 13 in the lateral direction by configuring the movable rod 13 connected to the above, and the opening and closing means 11 is variously used in the automatic feeder. As an additional component that can be implemented, it is obvious that the present invention is not limited to the above-described embodiment.

The blade 30 has an inner boss 31 having a spiral formed therein so as to be screwed to the rotating shaft 7, and the inner boss 31 and two to three connecting pieces 32. And a pair of support pieces 34 extending outwardly so that the pair of wing plates 35 are coupled to the outside, and the blade 30 is formed from the rotary shaft 7. Not only can it be separated, but the feed is moved along the spiral groove (H) of the feed guide tube 20 and the rotary shaft 7 passes between the inner / outer boss (31, 33).

In addition, the guide plate 40, which is inclined to the case 3 and protrudes a plurality of guide protrusions 41 to be positioned below the blade 30, is further provided. It is provided in a tubular shape to match the shape of the case 3, the plurality of guide protrusions 41 is preferably formed in a curved shape to accelerate the wind generated by the blade (blade, 30). something to do.

On the other hand, the rotary shaft 7 is connected to the rotary shaft 7 of the drive motor 8 by a flange or the like so as to be separated in two stages, spirals are formed at regular intervals, the stirring blade 10, the blade ( Blade, 30, the injection plate 50 is formed with a spiral screw thread detachably coupled to the rotary shaft (7), the wing plate of the stirring blade 10 and the blade plate of the blade (blade, 30) ( 35) can be replaced by bolts and nuts.

Referring to the operation and effect of the present invention configured as described above, while fixing the support pillar (9) on the upper part of the support plate 5 installed on the mouth 6 and supplying power to the control panel, while opening the cover (2) The feed into the storage hopper (1) is prepared to feed the fish farm.

At this time, the rotating shaft 7 which is screwed to the stirring blade 10, the blade (blade) 30, the injection plate 50 at a predetermined interval, respectively, and a flange on the shaft of the drive motor (8) installed on the support plate (5) Connect with or plug in.

After the preparation of the feed automatic feeder is completed as described above, if the user sets the feed input time and cycle by operating the control panel, the feed is sprinkled on the fish farm for the set time for each set time period.

That is, the rotary shaft (7) is rotated while the external power is applied to the drive motor (8) by the control panel, the feed by the stirring blade (10) rotated in the same way as the rotary shaft (7) Evenly divided without stagnation is supplied to the feed guide tube 20, the feed is transported downward by a predetermined amount along the spiral groove (H) formed in the rotary shaft (7) and the feed guide tube (20).

The feed conveyed through the spiral groove H passes through the space between the inner and outer bosses 31 and 33 of the blade 30 and then falls to the spray plate 50. While being sprayed to the fish farm by the rotational force of the jet plate 50.

Here, the feed can be continuously discharged as the feed is moved along the spiral groove (H), and if it is necessary to increase or decrease the amount of feed per unit time according to the type of fish farm or the type of fish By selecting and using the rotary shaft 7 and the feed guide tube 20 having a small or large pitch distance of the groove H, the feed amount of the feed may be adjusted.

 In addition, as the outside air introduced into the through hole 4 of the case 3 passes through the blades 30, wind is formed, which in turn is formed in the guide plate 40 formed inside the case 3. Accelerated along the guide protrusion 41 of the) is emitted to the outside through the center of the jet plate 50, the accelerated wind acts as a driving force to increase the flying distance of the feed through the jet plate 50 Not only can the feed to the fish farm evenly, but also because the feed automatic feeder is operated on the surface of the fish farm, the moisture contained in the feed can be naturally dried by the wind formed by the blade (30) Feeding is possible.

That is, due to the characteristics of the fish, it is located under the water before feeding, and when the food is sprayed, it floats on the water and eats the food, while the low-growth recessive fish eats the food falling near the water, the blade Sprinkle dry feed by (blade, 30) to increase the time the food stays on the surface, making it possible for low-growth recessive fish to feed evenly, as well as the bottom before the fish eats the feed. This will solve the problem of sinking.

When the drive motor 8 is driven and stopped after the time set in the control panel in the same manner as described above, the feed is laminated in the spiral groove (H) formed in the rotary shaft (7) and the feed guide tube (20) There is no flow in the state and the feeding is stopped.

Meanwhile, the blade plate of the stirring blade 10 and the blade plate 35 of the blade 30 are fixed by bolts and nuts, and the stirring blade 10, the blade 30, and the injection plate ( 50 is rotated by the drive motor 8 in a state that is screwed to the rotary shaft (7), respectively, even if some components are damaged due to inadvertent shock or wear occurs due to prolonged use, it is easy to a new configuration It can be exchanged to reduce maintenance and maintenance costs.

As such, the feed automatic feeder of the present invention is selectively used according to the pitch interval of the spiral groove H formed in the rotary shaft 7 and the feed guide tube 20 to adjust the feed amount of feed per unit time. It is possible to accelerate the wind generated by the blade (blade 30) by the guide plate 40 to supply to the center of the jet plate 50 by drying the feed naturally and at the same time by spreading the feed widely As the time for which the food stays on the surface of the fish farm is increased so that the fish can sufficiently feed the food, it may be a very useful invention in the industry.

According to the present invention as described above, there is an advantage that can be selectively used according to the pitch interval of the spiral groove (H) formed in the rotating shaft and the feed guide tube to adjust the amount of feed per unit time.

In addition, the wind generated by the blades can be accelerated by the guide plate and supplied to the center of the jet plate, so that the feed can be naturally dried and the feed can be scattered widely. Not only can fish give them the opportunity to eat enough food, but it also increases the amount of time that food stays on the surface, allowing them to eat enough food, so they can grow fish in a balanced manner, especially Can not minimize the sinking or discarded feed is effective to prevent the fish farm is contaminated by the feed.

In addition, the feed automatic feeder is very simple and the stirring blade, blade, wing plate, and jetting plate are detachably coupled to the rotating shaft so that it can be easily replaced with a new configuration even if it is damaged by external impact or wear occurs due to prolonged use. There is an advantage that can reduce the maintenance and maintenance costs.

1 is a perspective view of an automatic feeder according to the present invention,

Figure 2 is a longitudinal sectional view of the automatic feeder according to the present invention,

3 is an enlarged cross-sectional view of portion “A” of FIG. 2;

Figure 4 is a perspective view showing a separated state of the configuration coupled to the rotating shaft and the rotating shaft according to the present invention,

5 is a perspective view showing a guide plate according to the present invention,

6 is a partially enlarged perspective view showing a state in which the feed is discharged according to the present invention;

Figure 7 is a longitudinal sectional view showing another embodiment of the feed automatic feeder according to the present invention,

8 is a plan view showing the discharge means according to the invention,

9 is a side cross-sectional view showing an installation state of a conventional automatic feeder;

10 is an enlarged cross-sectional view of the main part of the conventional automatic feeder,

11 is an enlarged cross-sectional view of the main part of FIG. 10;

<Description of Symbols for Major Parts of Drawings>

1: Storage Hopper 2: Cover

3: case 4: through-hole

5: support plate 6: ball

7: axis of rotation 9: drive motor

10: stirring blade 11: opening and closing means

12: opening and closing plate 13: moving rod

20: feed guide 30: blade

31: inner boss 32: connection piece

33: outer boss 34: coupling piece

35: wing plate 40: guide plate

41: guide protrusion 50: jet plate

51: wing piece H: spiral groove

Claims (3)

The feed is stored in the feed hopper consisting of a storage hopper having a tubular case connected to the lower portion, a spray plate formed with a plurality of blade pieces to spray the feed discharged from the storage hopper, and a drive motor coupled to the rotating shaft In A feed guide tube having one side detachably coupled to a bottom portion of the storage hopper and having a tubular shape so that the rotating shaft passes therethrough; A blade detachably coupled to the rotating shaft to be positioned below the feed guide tube; Consists of a plurality of through-holes formed in the case so that the outside air flows to the blade, Feeding automatic feeder, characterized in that each of the spiral groove is formed so that the feed is moved to the feed guide tube and the rotating shaft. The method of claim 1, Feeding automatic feeder, characterized in that the guide plate protruding a plurality of guide projections are inclined to the case so as to be located below the blade. The method according to claim 1 or 2, Feeding automatic feeder characterized in that it further comprises an opening and closing means between the bottom of the storage hopper and the top of the feed guide tube.