KR20170011371A - Automatic feeder of pet feed - Google Patents

Abstract

The present invention relates to an automatic feeding apparatus for feeding a pet, which is capable of automatically feeding a predetermined amount of food at a predetermined time in feeding a pet,
A food supply part 100 provided with two food containers 110 having an upper open end and a lower end with a food discharge port 120 for discharging food; A rotating body 210 having a cup 220 for discharging the food of the food can is provided at an entrance of each food discharge port. A rotating shaft coupling hole 230 through which a rotating shaft 240 is inserted is formed at the center of the rotating body. A food discharge means 200 formed therein; A drive means 310 is installed on one side of the rotary shaft and only one of the two rotors provided on the rotary shaft is selectively rotated according to the operation of the drive means to rotate the rotary body, (300) for allowing the food to be discharged only to the outside; A food tray (400) installed at a lower portion of the rotating body and supplied with food of a food to be discharged through the rotating body, so that the food can be eaten by a pet; A control unit 500 installed on one side of the food supply unit to control the food discharge induction means; .

Description

Automatic feeder of pet feed

The present invention relates to an automatic feeding device for feeding a pet, which can automatically supply a predetermined amount of food to a pet during a predetermined period of time.

In general, pets (pet animals) are animals that live with people indoors, and today they are also called companion animals in the sense that they are treated not as animals but as companions.

In order to keep such pets healthy, special affection and management are essential. In particular, if you do not provide timely feeds or snacks in a timely manner, nutritional deficiency, obesity, or overeating problems may occur. .

However, it is very difficult for busy modern people to provide a constant amount of food and snacks to their pets every day at a fixed time, as well as being left alone if their family goes out without accompanying their pets The problem of feeding the pets was serious.

As a result, when a large amount of feed is provided to a pet at a time and then the animal goes out or goes to work, if a large amount of feed is supplied at once, the pet will eat a lot of feeds at once, Especially in the rainy season, due to moisture, the food becomes damp or easily burned, so that the health of the pet may be abnormally increased, and the unpleasant odor is accumulated in the house due to the large amount of feed exposed in the air.

In order to solve such a problem, conventionally, there have been various kinds of feed automatic feeders for pets, which can automatically feed a fixed amount of feed at a predetermined time after storing the feed in the feeder.

However, in the conventional feed automatic feeder for pets as described above, most of the feeds stored in the feeders are supplied by moving the feeders in a screwed manner, so that the feeds are easily broken due to the friction with the screw, .

Korean Patent Publication No. 10-2009-80836 (published on July 27, 2009) Korean Patent Registration No. 10-1321953 (Registration date: October 17, 2013) Korean Patent Publication No. 10-2013-0000643 (Publication date: 2013.01.03)

The automatic pet feeding device of the present invention comprises:

First, only one of the prey contained in each of two food tanks is discharged to the food tray, so that it can be eaten by the pet,

Second, it is possible to discharge only a selected one of the prey contained in each of the two prey bins,

Third, the present invention provides an automatic feeding apparatus for feeding a pet when the food contained in the food can be exhausted.

According to an aspect of the present invention, there is provided a food supply system comprising: a food supply unit (100) provided with two food containers (110) having an upper end opened and a lower end formed with a food discharge port (120);

A rotating body 210 having a cup 220 for discharging the food of the food can is provided at an entrance of each food discharge port. A rotating shaft coupling hole 230 through which a rotating shaft 240 is inserted is formed at the center of the rotating body. A food discharge means 200 formed therein;

A drive means 410 is installed on one side of the rotary shaft and only one of the two rotors installed on the rotary shaft is selectively rotated according to the operation of the drive means, (300) for allowing the food to be discharged only to the outside;

A food tray (400) installed at a lower portion of the rotating body and supplied with food of a food to be discharged through a rotating body to provide food for a pet to eat;

A control unit 500 installed on one side of the food supply unit to control the food discharge induction means; .

The automatic feeding device for pet food of the present invention having the above-described configuration, as described above,

First, only a selected one of the prey contained in each of the two food tanks is discharged to the food tray so that it can be eaten by the pet, so that it is possible to stably discharge the food of the pet even in the absence of the guardian,

Secondly, since only one selected food of the food contained in each of the two food tanks can be discharged in a predetermined amount when the food is discharged into the food tray, it is possible to supply the food of the pet in a uniform amount in a uniform time,

Thirdly, when the food contained in the food can be exhausted, a signal informing the user of the food supplement is transmitted to the user, thereby preventing the problem that the food is completely exhausted from the food cask and the food can not be supplied to the pet.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view of an automatic pet feeding device of the present invention,
FIG. 2 is a cross-sectional structural view of an automatic pet feeding device of the present invention,
3 is an exploded perspective view of a throat passing food discharge means and a food discharge inducing means in the automatic pet feeding apparatus of the present invention,
4A to 5C are excerpts for explaining the configuration of the first embodiment of the food discharge means and the food discharge inducing means in the automatic pet feeding apparatus of the present invention,
5A to 5C are excerpts for explaining the configuration of the second embodiment of the food discharging means and the food discharging inducing means in the automatic pet feeding apparatus of the present invention,
6A to 6C are excerpts for explaining the configuration of the third embodiment of the food discharging means and the food discharging inducing means in the automatic pet feeding apparatus of the present invention,
7A to 7C are excerpts for explaining the configuration of the fourth embodiment of the food discharge means and the food discharge inducing means in the automatic pet feed automatic feeding apparatus of the present invention,
8A to 8C are explanatory diagrams illustrating the configuration of a tooth and a tooth engagement groove in the automatic pet feeding device of the present invention.

The automatic feeding device for pet food according to the present invention is characterized in that only a selected one of the food pieces contained in the two food containers is discharged to the food tray so that the pet can be eaten and at the same time the food is discharged to the food tray .

The basic configuration of the automatic pet feeding device of the present invention as described above includes a feeding part 100 having two feeding ports 110 with an upper end opened and a lower end with a food discharge port 120 formed therein;

A rotating body 210 having a cup 220 for discharging the food of the food can is provided at an entrance of each food discharge port. A rotating shaft coupling hole 230 through which a rotating shaft 240 is inserted is formed at the center of the rotating body. A food discharge means 200 formed therein;

A drive means 410 is installed on one side of the rotary shaft and only one of the two rotors installed on the rotary shaft is selectively rotated according to the operation of the drive means, (300) for allowing the food to be discharged only to the outside;

A food tray (400) installed at a lower portion of the rotating body and supplied with food of a food to be discharged through a rotating body to provide food for a pet to eat;

A control unit 500 installed on one side of the food supply unit to control the food discharge induction means; .

The reason why the upper part of the food container 110 forming the food supply part 100 is opened in the above configuration is to replenish the food with the food container 110 when the food of the food container 110 is exhausted, The reason why the food discharge port 120 is formed at the lower end of the food discharging means 200 is that the rotating body 210 of the food discharging means 200 to be described below is closely rotatably installed to discharge the food.

The reason why the rotating body 210 is rotatably installed on the food discharge port 120 is that the food of the food can 110 is not caught or escaped between the rotating body 210 and the food discharge port 120 to be.

The lid 130 is preferably provided at the opened upper end of the food can 110 so as to selectively open and close the open part as necessary. This is because the lid 130 is normally closed, Protect the food, and open the lid 130 to supplement the food when supplementing is necessary.

In addition, the food can 110 is formed by providing a partition wall at the center of the food box to divide the food can to form two food canisters or two food canisters in close contact with each other. And is protected by the case 140. As shown in FIG.

The lower portion of the food container 110 in which the food discharge port 120 is formed is preferably formed such that the lower portion thereof is narrower and the upper portion thereof is wider so as to gather food.

The food discharging means 200 of the present invention is installed in the lower food discharge port 120 of the food can 110 to discharge the food of the food can 110 to the food tray 400 A rotating body 210 having a cup 220 for discharging the food of the food can 110 is formed at an entrance of a food discharge port 120. A rotating shaft 240 is installed in a central portion of the rotating body 210 And a rotation shaft coupling hole 230 is formed.

The cup 220 is formed in the rotating body 210 because the food of the food can 110 is contained in the cup 220 and the food of the cup 220 is fed by the rotation of the rotating body 210 So that the food is discharged through the cup 220 of the food can 110, so that a predetermined amount of the food is discharged.

Also, only one cup 220 formed in the rotating body 210 may be formed, but a plurality of cups 220 are preferably formed for quick and smooth feeding.

A rotating shaft coupling hole 230 through which a rotating shaft 240 is inserted is formed at the center of the rotating body 210. The reason for this is to connect the rotating shaft 240 rotated together with the operation of the driving means 310, which is the food discharging induction means 300 described below, to rotate the rotating body 210.

The food discharge inducing means 300 of the present invention rotates the rotator 210 formed with the cup 220 to discharge the food of the food container 110 to the food tray 400, The driving unit 310 is installed on one side of the rotating shaft 240 and only one of the two rotors 210 installed on the rotating shaft 240 is selectively rotated So that only the food of the food container 110 in which the rotating body 210 is rotated is discharged to the outside.

In the above-described food discharge inducing means 300, the driving means 310 is a deceleration motor, and the rotating shaft 240 passes through the rotating shaft coupling hole 230 of each rotating body 210 And a power transmitting rotary shaft 243 connected to the decelerating motor. The rotary shaft 241 and the power transmitting rotary shaft 243 are connected to each other by a connecting member And the rotating shaft 241 is connected to the connecting member 242 via the connecting member 242. The rotating shaft 241 is slidably mounted to the left and right sides of the connecting member 242 along the longitudinal direction of the connecting member 242.

Teeth 244 are formed at regular intervals along the circumferential direction of the rotary shaft 241 at the center of the rotary shaft 241 and the rotary shaft coupling holes 230 on the side where the teeth 244 are formed, A plurality of electromagnets 245 are provided on both sides of each of the rotors 210 and a plurality of electromagnets 245 are disposed on the opposite sides of the rotator rotation axis 245. In addition, And the respective magnetic bodies 246 are provided in the magnet 241.

When the electric power is supplied to one electromagnet 245 through the control unit 500, a magnetic field is generated to attract the magnetic body 246 formed on one side of the rotating shaft 241, 241 are moved toward the decelerating motor along the connecting member 242 and at the same time the teeth 244 formed on one side of the rotating shaft 241 are engaged with the rotating shaft engaging holes 230 formed on the rotating body 210, The rotation of the rotatable rotary shaft 241 with the operation of the decelerating motor as the driving means 310 causes the rotary body 210 of one side to rotate and feed the food of the one side of the food container 110 And is discharged to the feeding tray 400. [

At this time, the other rotating body 210 is not rotated but is positioned at the outlet of the other feeding cylinder 110 because the tooth 244 in the other direction formed on the rotating body rotating shaft 241 is rotated The rotor rotation shaft 241 can not transmit the rotational power to the other rotor 210 because the rotor rotation shaft 241 is out of the toothed engagement groove 231 of the rotor shaft coupling hole 230 formed in the rotor 210.

When the electric power supplied to the one electromagnet 245 is cut off and the electric power is supplied to the electromagnet 245 on the other side in the control unit 500, the rotating shaft 241 rotates to the electromagnet 245 The tooth 244 in the other direction formed on the rotating shaft 241 is rotated in the opposite direction to the tooth engaging groove 231 of the rotating shaft coupling hole 230 formed in the other rotating body 210 The rotational power of the deceleration motor as the driving means 310 is transmitted to the rotating body 210 of the other side so that the rotating body 210 of one side is kept stationary while the rotating body 210 of the other side is rotated, So that the food in the feeding tray 110 is discharged to the feeding tray 400.

It is preferable that both ends of the teeth 244 are formed in a pointed shape and the entrance of the tooth engaging groove 231 to which the teeth 244 are engaged is formed in a wide trumpet shape, So that it can be easily engaged when it is coupled to the toothed engaging groove 231.

Further, the connecting member 242 of the present invention is integrally formed with the power transmission rotary shaft 243 and can be separated from and coupled with the power transmission rotary shaft 243, and the shape of the connecting member 242 may be a one- And a connecting portion 244 having a shape matching with the connecting member 242 is formed at a central portion of the rotating shaft 241 facing the power transmission rotary shaft 243, Is formed in the longitudinal direction of the rotary shaft 241 so that the rotary shaft 241 is moved horizontally safely to the left and right in response to the guide of the connecting member 242.

In the left / right movable structure of the rotating shaft 241 of the other embodiment of the present invention, the respective connecting member receiving grooves 248 The power transmission rotary shaft 243 to which the connecting member 242 is coupled and the outside of the rotary rotary shaft 241 are coupled to each other by a coupling member 242. The coupling member 242 is coupled to the coupling member 248, The ring 249 is fitted and engaged.

The reason for coupling the connection member 242 to each of the connection member seating grooves 248 is to securely move the left / right movement of the rotary shaft 241 horizontally, and the reason why the coupling 249 is installed In order to prevent the detachment of the connecting member 242.

In another embodiment of the present invention, the driving unit 310 is a forward / reverse deceleration motor. In the rotating shaft coupling hole 230 formed in each of the rotors 210, the rotating body 210 is rotated in only one direction And a stopper 233 coupled to the ratchet 232 is rotatably mounted on the rotation shaft 240. The stopper 233 is rotatably coupled to the stopper groove 234. [

When the forward and reverse decelerating motors are rotated in the forward direction, the rotary shaft 24 is rotated in the forward direction, and the ratchet 232 and the rotary shaft (not shown) formed in the rotary body 210, The rotator 210 rotates and the cup 220 discharges the food from one side of the food container 110 to the feeding tray 400. The stopper 233,

At this time, the rotating body 210 on the other side is positioned on the other side of the food bag 110 at the lower food discharge port 120 without being rotated.

The ratchet 232 formed on the other rotating body 210 and the stopper 233 formed on the other side of the rotating shaft 240 are engaged with each other while the rotating shaft 24 is rotated in the reverse direction, The rotating body 210 rotates and discharges only the food of the other side of the food container 110 to the feeding tray 400 by the cup 220.

At this time, the ratchet 232 and the stopper 233 of one side are separated from each other and are not rotated by the rotation shaft 240, and are not rotated to the food outlet 120 of the lower side of the food container 110 It is.

The stopper 233 that is not engaged with the ratchet 232 is waiting for engagement with the ratchet 232 in a state where the stopper 233 is positioned in the stopper groove 234. [

In addition, a warning means 600 for notifying the user when the food contained in the food can 110 is left under one fifth or less is installed in the case 140 of the food can 110, Recognize this and add food to the food trough (110).

The feeding unit 100 is detachably coupled to the food discharging unit 200 because the feeding unit 100 is damaged or when the feeding unit 100 needs to be cleaned. 110 can be separated from the food discharging means 200 and can be moved and combined.

The automatic feeding device for pet food according to the present invention as described above is characterized in that only a selected one of the food items contained in the two food containers is discharged to the food tray so that the pet can be eaten, And it is also possible to discharge the food of the selected one of the prey contained in each of the two food tanks to the food tray at a time when the food is discharged to the tray, It is possible to supply a uniform amount of food. When the food contained in the food trough is exhausted, a signal informing the user of the food supplement is transmitted to the user, thereby preventing the problem that the food is completely exhausted from the food trough, There are advantages.

100: feeder 110: feeder
120: Feed outlet 130: Lid
140: Case 200: Means for discharging food
210: rotating body 220: cup
230: rotating shaft engaging hole 231: tooth engaging groove
232: ratchet 233: stopper
234: Stopper groove 240:
241: rotating body rotating shaft 242: connecting member
243: Power transmission rotary shaft 244: Toothed
245: electromagnet 246: magnetic body
247: Reconnecting hole 248: Connecting member seating groove
249: Coupling 300: Feed discharge inducing means
310: driving means 400: feeding tray
500: control unit 600: notification means

Claims (12)

A food supply part 100 provided with two food containers 110 having an upper open end and a lower end with a food discharge port 120 for discharging food;
A rotating body 210 having a cup 220 for discharging the food of the food can is provided at an entrance of each food discharge port. A rotating shaft coupling hole 230 through which a rotating shaft 240 is inserted is formed at the center of the rotating body. A food discharge means 200 formed therein;
A drive means 310 is installed on one side of the rotary shaft and only one of the two rotors provided on the rotary shaft is selectively rotated according to the operation of the drive means to rotate the rotary body, (300) for allowing the food to be discharged only to the outside;
A food tray (400) installed at a lower portion of the rotating body and supplied with food of a food to be discharged through the rotating body, so that the food can be eaten by a pet;
A control unit 500 installed on one side of the food supply unit to control the food discharge induction means; Characterized in that the pet feeding device is provided with an automatic feeding device for feeding pet food. The method according to claim 1,
Characterized in that the food can (110) is provided with a partition wall at the center to divide the food can.
The method according to claim 1,
Characterized in that the two food tanks (110) are installed in close contact with each other. The method according to claim 1,
Characterized in that a lid (130) for selectively opening and closing an opening portion is provided at an opened upper end of the food can (110). 5. The method according to any one of claims 1 to 4,
Wherein the food container (110) is installed inside the case (140). The method according to claim 1,
The driving unit 310 is a deceleration motor. The rotating shaft 240 includes a rotating shaft 241 that is installed to penetrate through the rotating shaft coupling holes of the rotors, and a power transmitting rotary shaft 243 connected to the decelerating motor And the rotational shaft of the rotating body, which is connected via the connecting member 242, is connected to the rotational shaft of the rotating body through the connecting member 242, And teeth 244 are formed at regular intervals along the circumferential direction of the rotating shaft of the rotating body at a central portion of the rotating shaft of the rotating body, A plurality of toothed grooves 231 are formed in the holes to be coupled with teeth, and respective electromagnets 245 are provided on both sides of the respective rotors, Front barrel, the automatic pet food supply, characterized in that each of the magnetic body 246 is installed. The method according to claim 6,
Wherein both ends of the teeth (244) are formed to have a pointed tip, and an inlet of the toothed engaging groove (231) to which the teeth are engaged is formed in the shape of a trunk. The method according to claim 6,
The connecting member 242 is formed in the power transmitting rotary shaft and is formed in any one of a shaft having a portion of one side of the circular shaft chamfered or a triangular prism having a triangular shape or more, Wherein a connection re-connection hole (247) having a shape matching the connection member is formed in the longitudinal direction of the rotation shaft. The method according to claim 6,
A connecting member seating groove 248 is formed in a line on the mutually facing end portions of the power transmitting rotary shaft and the rotary rotating shaft 241. A connecting member 242 is coupled to the connecting member receiving groove, Wherein a coupling (249) is coupled to the outside of the power transmission rotary shaft and the rotary rotary shaft to which the member is coupled. The method according to claim 1,
The ratchet (232) for guiding rotation of the rotating body in only one direction is formed in the rotating shaft coupling hole formed in each of the rotating bodies, and the rotation shaft is connected to the ratchet Wherein the stopper (233) is rotatably provided in the stopper groove (234). The method according to claim 1,
Wherein the one case (140) of the food canister is provided with a notifying means (600) for informing the user when the food contained in the food can not be more than 1/5. The method according to claim 1,
Wherein the food supply unit (100) is installed to be detachable from the food discharging means (200).

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