WO2012121550A2

WO2012121550A2 - Automatic feeder

Info

Publication number: WO2012121550A2
Application number: PCT/KR2012/001678
Authority: WO
Inventors: 박성남
Original assignee: Park Sung Nam
Priority date: 2011-03-08
Filing date: 2012-03-08
Publication date: 2012-09-13
Also published as: WO2012121550A3; KR20120102511A

Abstract

The present invention relates to an automatic feeder. The automatic feeder includes: a feedbox; a feeder case detachably coupled to a side of the feedbox; a rotor coupled to a side of the feeder case, the rotor including first gear teeth on an outer surface thereof; a spring coupled to the other side of the rotor, the other side of the spring having a triangular pyramid shape; a driver including second gear teeth engaged with the first gear teeth of the rotor; and a fixed bracket for coupling the rotor to the feeder case.

Description

[Revision according to Rule 26.01.06.2012] Automatic feeder

The present invention relates to an automatic feeder, and more particularly, to an automatic feeder that can supply feeds of various sizes and shapes while finely controlling feed, and finely controlling the feeding amount.

Feeding for pets and livestock must be provided daily. Generally, human feeding is provided directly at designated times, but in large livestock facilities or domestic pets, automatic feeding may take the place of humans.

In particular, the recent increase in the number of households with pets is increasing the popularity of the feeding device that can supply a predetermined amount of feed at a specified time. This will be more active in the future because pet owners are most useful and effective when they are away from home, and it has the advantage of providing a more accurate amount of feed on a regular basis than hand feeding.

Korean invention or design of the conventional feeder has been devised a number of cases and the method using a double rotary cup is Republic of Korea Patent 10-0310743, Republic of Korea Patent 10-0310744, Republic of Korea Patent 10-0423928, Republic of Korea Utility Model 20-0251241, Republic of Korea Utility Model 20-0336970, the method using the transfer screw is Republic of Korea Patent 10-0901129, Republic of Korea Patent 10-0941746, Republic of Korea Utility Model 20-0241309, Republic of Korea Utility Model 20-0291044, Republic of Korea Utility Model 20-0292263, Republic of Korea Utility Model 20-0311173 , Republic of Korea Utility Model 20-0362951 can be found.

In the patent 10-0310743, which is a representative design of the cup method, both side guide plates (2a, 2b) is configured on the lower side of the feed, the lower side has a rotating cylinder (3), and the lower side has a discharge guide (6) again, the rotating cylinder When the motor is rotated after the drive means 4 with the motor is interlocked, the feed on the upper side is introduced into the rotating cylinder, and when the motor rotates, the feed in the rotating cylinder is discharged to the outlet 7 at the lower end. This can be said to be almost the same in the core method of operation in other timely designs, including the case of utility model 20-0336970. However, the prior art as described above, but is prevented by having a jam-proof loss prevention member 14, but physically dozens of feeds are poured out while pressing from above, the feed is stuck or bite in the adjacent adjacent rotation, completely spherical In the case of different types of feed, the jamming occurs more often structurally.

The jamming prevents further motor operation and once stopped, the motor cannot be judged by itself, making it difficult to restart. Therefore, serious problems arise that the feeding is stopped and the product must be disassembled.

In addition, since the rotary cup method has a fixed amount of feed per cup, it is not easy to control the feeding amount, and small pets (cubs and animals in need of feeding) need to be supplied several times a day. , Rabbits, ferrets, etc.)

In the case of the Korean Utility Model 20-0311173, which is a representative design of a different screw method, the feed drawn from the food storage container 3 is adjacent to the feed screw 6, the rotating shaft 7 is rotated, and the feed is discharged ( It is characterized in that the forced discharge through 4), the core driving method of the timely screw design is almost the same.

However, the screw jamming is more frequent and fatal than the cup method. After a single feed, the feed screw 6 is stopped, at which time the feeds are sandwiched in various spaces of the feed screw including the rotating shaft 7. In the case of the screw method, the food debris is accumulated inside the long-term use, which leads to contamination or odor.

The present invention is to solve the problems as described above, to prevent the jamming of the feed during the operation of the product is continued smoothly, can be used for feeds of various sizes or shapes, feed residues do not accumulate inside the contamination of The purpose is to eliminate the cause and provide precise granule feeding as many as desired by the user, as well as providing an automatic feeding device that can automatically feed at a designated time and use outdoors.

The present invention as a technical idea for achieving the above object, the feed container, the feeder case is coupled to be detachable to one side of the feed box, coupled to one side of the feeder case, the first gear is provided on the outer surface Coupling the rotor and the other side of the rotating body and the other side is a triangular pyramid-shaped spring, the driving device is provided with a second gear teeth coupled to engage the first gear of the rotating body and the rotating body coupled to the supply device case It may be configured to include a fixing bracket to make.

The automatic feeding device according to the present invention has an advantage that the operation is smooth and the feed of various sizes and shapes can be used because the jam is minimized or hardly occurs.

In addition, it can be used effectively for pets and babies who are fighting disease because it can precisely supply a large amount of feed from a few granule units and has the advantage that it can be used for various animals or pets of various sizes as one product. .

In addition, there is almost no need for cleaning because the feed residue is not caught between the devices, and there is an advantage in that after-care is easy because disassembly and assembly are simple.

1 is an exploded perspective view of an automatic feeding device according to the present invention.

2 is a view showing the configuration of the feed container and feeder case shown in FIG.

Figure 3 is an exploded perspective view of the rotating body and the spring and the fixing bracket of the automatic feeder according to the present invention.

Figure 4 is a side cross-sectional view of the rotating body and the spring and the fixing bracket of the automatic feeder according to the present invention.

5 is a view showing a state in which the driving device 500 is coupled to the rotating body.

6 is a view showing an example of the adjustment groove provided on one end of the rotating body.

7 is a view showing the configuration of the spring and the spring adjustment unit.

8 is a view showing a configuration of an outlet of a fixing bracket.

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

1 is an exploded perspective view of the automatic feeder according to the present invention, Figure 2 is a view showing the configuration of the feed container and feeder case shown in FIG.

The automatic feeder according to the present invention feeder 100, the feeder case 200, the rotating body 400, the spring 430, the spring adjustment unit 440, the driving device 500, the fixed bracket ( 490) and the feed bowl 300 is configured.

1 and 2, the feed container 100 is to store the feed to be automatically supplied to pets or livestock, one end may be configured as a hopper shape (Y-shaped), the other end the feed container 100 ) Is provided with a feed container cover 130 that can be sealed. The feed container cover 130 may further include a handle 150, and the handle 150 may be rotatably coupled to the feed container cover 130. For example, as shown in the drawing (see FIG. 2), a handle coupling hole 140 is provided at the edge of the other surface of the feed container cover 130, and both ends of the handle 150 are rotated in the handle coupling hole 140. Possibly combined. However, this shape represents an example of the handle 150, and is not necessarily limited to the shape shown in the drawings, the user can be held by the hand and the feed container cover 130 is a form that is rotatably coupled to a variety of known A structure can be used. One side of the feed container 100 configured in the hopper shape is provided with a feeder case 200.

The feeder case 200 is coupled to be detachable to one side of the feed container 100 described above, the other side is the hopper-shaped feed container coupling surface 210 corresponding to one side of the feed container 100 has an inner central portion. It is provided in a shape that is recessed toward the outer side, the case outer wall 230 is provided in the vertical direction to protect the rotating body 400 and the like to be described later. Thus, the shape of the cross section can be configured in a shape similar to M letter. Feeding device case 200 is coupled to be detachable to one side of the feed container 100 described above, as shown in the drawing (see Figure 2) is provided with a coupling convex portion 170 on one side of the feed container 100 On the other side of the supply device case 200, a coupling recess 250 is provided at a position corresponding to the coupling convex portion 170, and the coupling convex portion 170 and the coupling recess 250 may be coupled to each other. . However, this coupling structure represents an example of the present invention, and is not necessarily limited to the above configuration, and various coupling structures known in the art may be applied.

Automatic feeding device according to the present invention, as described below, may adjust the operating time or interval. Therefore, since the controller 260 to be described later may be provided to the outside, the controller case 270 may be further provided on the outer wall of the supply device case 200. The controller case 270 may be formed with a cutout 275 through which the controller of the controller 260 may be exposed.

On the other hand, one side (lower in the drawing) of the automatic feeder according to the present invention may be further provided with a feed bowl (300). Feed fed from the feed container 100 is put away to feed bowl 300. The original feed falls into the feed bowl 300 will be described later. Feed bowl 300 is to protrude forward than the feed container 100 or feeder case 200, it is preferable to facilitate the accessibility of pets. Therefore, some sections (right side in the drawing) of the supply device case 200 may be provided with a separate case cover 350. Inside the case cover 350 may include a battery for supplying power to the drive device 500 to be described later. Reference numeral 370 not illustrated in the drawing denotes a cover 370 of the battery compartment.

3 is an exploded perspective view of the rotating body and the spring and the fixing bracket of the automatic feeder according to the present invention, Figure 4 is a side sectional view of the rotating body and the spring and the fixing bracket of the automatic feeder according to the present invention.

Rotating member 400 is a rotational movement by the drive device 500 to be described later, the inclined portion 410 of the shape away from the body toward one side in the other direction on the outside of the cylindrical body of the hollow inside Is provided, the first gear 415 is formed on the inclined portion 410. Since the rotating body 400 is rotated between the supply device case 200 described above and the fixing bracket 490 to be described later, the bearing 450 is preferably provided on one side or both sides of the body. In the drawing, the protrusion provided in the vertical direction of the body between the inclined portion 410 and the bearing 450 provided on the other side (upper part in the drawing) is for preventing the bearing 450 from being pushed or lowered in one direction. Rotating body 400 is coupled to one side of the supply device case 200, the coupling of the rotating body 400 and the supply device case 200 will be described in detail later.

Spring 430 is provided on the other side of the rotating body 400, one side is configured in a cylindrical shape, the other portion of the other side may be configured in a shape that narrows toward the other end. One end of the spring 430 in the configuration as described above is coupled to the other side of the rotating body 400, the specific coupling structure may be various. That is, the spring 430 and the rotating body 400 may be integrally fixed, or may be coupled to the outside or the inside of the other hollow part of the rotating body 400. However, the automatic feeding device according to the present invention may be adjusted by the spring 430, the spring adjusting unit 440, as described below may be used while replacing the spring 430 of various specifications. Therefore, in a preferred embodiment of the present invention, the spring 430 is one end is bent in the outer direction, the outer circumferential surface of the rotating body 400 is composed of a spring coupling hole 413 through which the spring 430 can pass One side of the spring 430 is inserted into the other side of the rotating body 400 and the bent portion 435 provided at one end of the spring 430 is inserted into the spring coupling hole 413. Can be combined. Thus, while the spring 430 is firmly fixed to the other side of the rotating body 400, the spring 430 can be easily attached and detached if necessary. The spring adjustment unit 440 will be described later.

On the other hand, the spring 430, as will be described later, the feed is introduced into the gap formed on the side of the spring 430 while the spring 430 is rotated. Therefore, the shape of the other side is not necessarily limited to the shape of the triangle only, and the structure in which the other end of the cylindrical spring is blocked is also possible.

One end of the cylindrical rotating body 400 is provided with a control groove 417 is coupled to the control bar 443 to be described later. The adjustment bar 443 and the adjustment groove 417 and their functions will be described later.

The fixing bracket 490 is to allow the rotating body 400 to be coupled to the supply device case 200, and is provided at one end of the rotating body 400. The fixing bracket 490 is provided at a hollow discharge port 493 having a size corresponding to the hollow portion of the rotating body 400 described above, and the other end of the discharge port 493 to accommodate one end of the rotating body 400. Rotating body accommodating portion 495 and a fixed portion (497) provided in the vertical direction to the rotating body accommodating portion 495 is configured to include. The fixing portion 497 has an end bent inward, and a bracket coupling protrusion 498 may be formed on the inner side (lower surface) of the bent portion. On the other hand, the lower end of the hopper shape provided in the inside of the supply device case 200 described above is provided with a coupling piece 215 protruding outward, the other side (top surface in the drawing) of the coupling piece 215 is a bracket Coupling groove 217 is provided. Thus, when the rotating body accommodating portion 495 of the fixing bracket 490 is in contact with one end of the rotating body 400 and the bracket coupling protrusion 498 is fastened to the bracket coupling groove 217, the rotating body 400 and the fixing bracket ( 490 is coupled to the supply device case 200 is fixed.

Referring to FIG. 5, the driving device 500 is provided with a second gear 510 engaged with and engaged with the first gear 415 described above. Thus, when the driving device 500 rotates while the first gear 415 and the second gear 510 are engaged to engage, the driving force of the driving device 500 is transmitted through the second gear 415. As it is transmitted to the 415, the rotating body 400 and the spring 430 coupled to the rotating body 400 is interlocked to rotate. The driving device 500 may be fixed to any one of the inner walls of the supply device case 200.

6 is a view showing an example of the adjustment groove provided on one end of the rotating body, Figure 7 is a view showing the configuration of the spring and the spring adjustment unit.

The adjusting groove 417 provided at one end of the rotating body 400 is formed along one end of the rotating body 400 having a cylindrical shape, and a plurality of grooves having different depths are provided in pairs. For example, one end of the rotating body 400 is provided with a relatively deep first adjusting groove 417a, the first adjusting groove 417a face each other along the rim surface of the rotating body 400 A pair is provided for viewing. A pair of second adjusting grooves 417b having a relatively lower depth than the first adjusting grooves 417a may also be provided to face each other. Although two adjusting grooves 417 are shown in the drawing, a plurality of adjusting grooves 417 having different depths may be provided as necessary.

The spring adjustment unit 440 is provided with a control bar 443 in a direction perpendicular to one end of the rod-shaped body. Therefore, the shape of one side is comprised in an inverted T shape. The thickness of the adjustment bar 443 corresponds to the width of the adjustment groove 417 described above, it can be coupled while the adjustment bar 443 is inserted into the adjustment groove 417. The other end of the spring adjustment unit 440 is provided with a spring pressing portion 445 having a larger area than the other end of the spring 430 described above.

In the above configuration, as described above, the spring 430 is coupled while being inserted into the other side of the rotating body 400, the spring control unit 440 is the spring 430 and the rotating body 400 It is coupled while penetrating the center of the vertical direction. At this time, the adjustment bar 443 provided at one end of the spring adjustment unit 440 is coupled to the adjustment groove 417 provided at one end of the rotating body 400, and is provided at the other end of the spring adjustment unit 440. The spring compression part 445 comes into close contact with the other end of the spring 430. Thus, when the adjustment bar 443 is inserted into the deep adjustment groove 417 while being coupled, the spring 430 is contracted to widen the spacing between the springs 430, and the adjustment bar 443 is adjusted to have a low depth. When the coupling is inserted into the groove 417, the spring 430 is relaxed and the gap between the springs 430 is narrowed. Therefore, when a plurality of adjustment grooves 417 having various depths are provided, it is possible to implement a wider range of springs 430.

8 is a view showing the configuration of the outlet of the fixing bracket.

A blocking film 494 may be rotatably coupled to the inside of the outlet 493 of the fixing bracket 490 according to the present invention. The blocking film 494 has a shape corresponding to the cross section of the inner space of the discharge port 493. As shown in the figure, when the internal space of the discharge port 493 is cylindrical, the blocking film 494 is also configured in a disk shape. In addition, the blocking film 494 is rotatably coupled to both sides of the outlet 493, and the coupling portion of the outlet 493 and the blocking film 494 may be configured to have some elastic force. Thus, when the feed is supplied from the top of the barrier 494, the barrier 494 is rotated in the vertical direction and the feed easily descends, and when the feed is not supplied, the barrier 494 is returned to its original position. Returning to the inner space of the fixing bracket 490 is blocked. Thus, the moisture flows back through the fixing bracket 490 and the rotating body 400, etc., and thus, harmful insects such as cockroaches or the like may be prevented from entering the feed container 100.

In the configuration as described above, the pet can store the feed that can be eaten for several days at a time inside the feed container 100 and operate the feeder. The feeding device may be controlled by the controller 260. The controller 260 adjusts the operation of the driving device 500 and may operate for a predetermined time at regular time intervals. For example, when pets need to be fed once every 12 hours, the controller 260 may be used to operate the device once every 12 hours. And the operating time is to determine the amount of food supplied to the feed bowl (300). That is, when the time for which the driving device 500 rotates is increased, the amount of food to be supplied increases, and when the time is short, the amount of food to be supplied is reduced.

When the operating time of the feeder, the driving device 500 is rotated. When the driving device 500 rotates, the driving force of the driving device 500 is transmitted to the rotating body 400 through the second gear 510 and the first gear 415. When the rotating body 400 rotates, the feed is introduced into the gap between the springs 430 while the spring 430 provided in the rotating body 400 rotates. Since the feed introduced between the spring 430 is supplied to the feed bowl 300 through the hollow portion of the rotating body 400 and the hollow portion of the fixing bracket 490, when there is no person pets a certain amount of food at regular time intervals Feed the animal.

On the other hand, the size of the feed is also varied depending on the type of pet. In the case of large animals, the grains of the feed are large, and in the case of small animals, the grains of the food are also small. Therefore, it is necessary to adjust the spacing of the spring 430 according to the size of the feed is supplied. As described above, the spring 430 is provided to be easily detachable to the rotating body 400. Therefore, it can be used while replacing the spring 430 of various specifications.

In addition, the spacing between the spring 430 may be adjusted while using one spring 430. When adjusting the spacing between the spring 430, the spring adjustment unit 440 described above is used. Since the spring adjusting unit 440 is provided through the spring 430 and the rotating body 400, when the spring adjusting unit 440 is pulled in one direction of the rotating body 400, the interval between the springs 430 is increased. When the spring control unit 440 is narrowed and moved in the other direction of the rotating body 400, the spacing between the springs 430 is widened. Therefore, when the adjustment bar 443 provided at one end of the spring adjustment unit 440 is coupled to the deep adjustment groove 417 of the adjustment groove 417 to be provided at one end of the rotating body 400 between the spring 430 When the spacing of the wider, when coupled to the lower adjustment groove 417, the spacing between the spring 430 is narrowed, it is possible to adjust the spacing of the spring 430.

The present invention relates to an automatic feeder, a feeder, a feeder case coupled to be detachable to one side of the feeder, coupled to one side of the feeder case, a rotating body having a first gear teeth on the outer surface, A driving device having a spring coupled to the other side of the rotating body, the other side having a triangular pyramid shape, a second gear tooth coupled to engage with the first gear of the rotating body, and fixed to couple the rotating body to the supply device case. It may be configured to include a bracket.

When the present invention is applied to large-scale breeding facilities and the like, it can be expected to have an improved effect on the protection or breeding of pets, and less manpower can be expected.

Claims

Feed container;

A feeder case coupled to one side of the feed container to be detachable;

A rotating body coupled to one side of the supply device case and having a first gear tooth on an outer surface thereof;

A spring provided on the other side of the rotating body;

A driving device having a second gear tooth coupled to engage with a first gear tooth of the rotating body; And

A fixing bracket to couple the rotating body to the supply device case;

Automatic feeder configured to include.
The method according to claim 1,

At the other end of the feed container,

The feed container cover for sealing the feed container is provided, the feed container cover is automatic feeder, characterized in that the handle is rotatably coupled.
The method according to claim 1,

The rotating body,

One or both sides of the body is provided with a bearing, the center of the spring is an automatic feed device, characterized in that the spring adjustment unit is provided in the vertical direction.
The method according to claim 3,

The spring control unit,

An adjustment bar is provided at one end of the rod-shaped body, and the other end is provided with a spring pressing portion larger than the other end of the spring.

One end of the rotating body is provided with a plurality of pairs of adjustment grooves of various depths to which the control bar is coupled.
The method according to claim 1,

Automatic feeding device, characterized in that the blocking membrane is rotatably coupled to the inside of the fixing bracket.
The method according to claim 1,

One side of the fixed bracket is an automatic feed device, characterized in that the feed bowl is further provided.
The method according to claim 1,

The spring is,

It is coupled to the other side of the rotating body so as to be detachable, the other side of the spring automatic feeder, characterized in that the configuration is configured in a narrower width toward the other end.