CN215935899U - Automatic feeder of accurate throwing feeding - Google Patents

Abstract

The utility model relates to an automatic feeder capable of accurately feeding, which comprises a base and a shell, wherein the shell is fixedly connected to the base, the top of the shell is provided with an opening and is a feeding inlet, the side wall of the base is provided with a feeding outlet, and feeding falling channels connected with the feeding inlet and the feeding outlet are arranged in the shell and the base; the feeding device comprises a feeding device seat plate, a plurality of storage barrels and a feeding tray, wherein the feeding device seat plate is fixedly connected to the shell and covers the opening at the top of the shell, and N through holes are annularly distributed on the feeding device seat plate; the feeding device is characterized in that a discharging hole is formed in the upper end of the storage barrel, a barrel cover is arranged on the storage barrel, a through hole is formed in the lower end of the storage barrel, the storage barrel is located in the through hole of the seat plate of the feeding device, the feeding plate is rotatably arranged below the seat plate of the feeding device, and a feeding hole is formed in the feeding plate. Different kinds of feed are respectively arranged in each storage barrel, the feeding disc rotates, the outlets of the storage barrels are alternately opened, and accurate feeding of various feeds is realized.

Description

Automatic feeder of accurate throwing feeding

Technical Field

The utility model relates to the technical field of pet supplies, in particular to an automatic feeder capable of accurately feeding.

Background

The quality of life of modern people is improved, and many families begin to feed pets such as cats, dogs and the like as family partners. However, problems with different types of pets (e.g., cats and dogs) feeding, and how the pet feeds when the owner is not at home, can be troubling. Pet food products are now on the market, as in the patents: a feeder disclosed in CN 201610782372.3; when the feed is used, only one feed is fed, the nutrient components are single, and the multi-nutrient requirements of pets cannot be met; or a plurality of feeds are added into the pet food, so that the multi-nutrition requirement of the pet is met, but the amount of the various feeds cannot be accurately controlled, and single over-nutrition or poor nutrition of the pet is easily caused.

Disclosure of Invention

In order to solve the problems, the utility model provides an automatic feeder capable of feeding accurately.

The technical scheme of the utility model is as follows:

an automatic feeder capable of accurately feeding comprises a base and a shell, wherein the shell is located on the base and fixedly connected with the base, an opening is formed in the upper portion of the shell and is a feeding opening, a feeding outlet is formed in the side wall of the base, and feeding channels connected with a feeding inlet and a feeding outlet are formed in the shell and the base; the feeder also comprises a feeding device, wherein the feeding device is arranged at the top of the shell and is communicated with the feeding port.

The feeding device comprises a feeding device seat plate, a plurality of storage barrels and a feeding tray, wherein the feeding device seat plate is fixedly connected to the shell and covers the opening at the top of the shell, and N through holes are annularly distributed on the feeding device seat plate; the feeding device is characterized in that a discharging hole is formed in the upper end of the storage barrel, a barrel cover is arranged on the storage barrel, a through hole is formed in the lower end of the storage barrel and is located in the through hole of the feeding device seat plate, and the feeding device is rotatably arranged below the feeding device seat plate and provided with a feeding hole; the feeding dropping plate rotates, and the feeding dropping plate blocks the outlets of all the feeding dropping cylinders or the feeding dropping holes of the feeding dropping plates are communicated with the outlet of the last feeding dropping cylinder.

The feeding plate of the feeding device also comprises a feeding plate gear, the feeding plate is fixedly connected with the gear and movably connected with the feeding device seat plate through a connecting shaft, and the feeding plate gear is driven by a driving mechanism 1 arranged on the feeding device seat plate to drive the feeding plate to rotate; the driving mechanism 1 is formed by connecting a motor A and a transmission gear.

The improved structure is characterized in that a funnel is arranged in the shell, a blanking hopper is arranged in the base, the blanking hopper is a three-surface inclined baffle, and the lower end of the blanking hopper is an outlet.

The funnel upper port is located the export below of all feed barrels, lower port is located hopper top down, the export of hopper is connected out and is raised the mouth down, constitutes jointly the passageway is raised to falling.

The feeder also comprises a feeding door device, wherein the feeding door device comprises a driving mechanism 2 and a feeding door mechanism.

The driving mechanism 2 comprises a motor B, a speed change gear and a seat plate, wherein the speed change gear comprises a worm wheel and a worm; the feeding door mechanism comprises a transmission mechanism, a connecting device, a feeding door and a seat plate, the transmission mechanism comprises a transmission pin shaft, and the connecting device comprises an upper connecting rod and a lower connecting rod; the seat plate is fixedly arranged on the base, the motor B is arranged on the seat plate, the transmission pin shaft is arranged on the seat plate, the worm is arranged on the motor B, the worm wheel is arranged on the transmission pin shaft and meshed with the worm, the feed outlet door is arranged on the feed outlet, one ends of the upper connecting rod and the lower connecting rod are fixedly arranged on the transmission pin shaft, and the other ends of the upper connecting rod and the lower connecting rod are respectively connected with the feed outlet door; the transmission pin shaft is driven by the motor B to rotate forwards or backwards, the transmission pin shaft rotates backwards to drive the feeding door to upwarp and open the feeding door, and the transmission pin shaft rotates forwards to drive the feeding door to pull downwards and close the feeding door.

The connecting device also comprises a stop block and two microswitches.

Control dog fixed mounting is epaxial at the transmission pin, rotates along with the transmission pin, and two micro-gap switches are all installed on the bedplate, and are located the touch-control point position of dog, and control circuit starter motor 2, micro-gap switch 1 and control dog touch close, constitute the reversal (opening the door) of transmission pin spacing, otherwise: the microswitch 2 is contacted with the control stop block to form positive rotation (closing) limit of the transmission pin shaft.

The feeder also comprises a controller, a switch, a USB socket and a power supply; the controller and the power supply are both arranged in the base, the switch and the USB socket are embedded in the side wall of the base, the controller, the switch, the USB socket and the power supply are connected to form the control circuit, and the control circuit is connected with the driving mechanisms 1 and 2; the controller has a time control function and can set feeding periods of a certain time, a day, a month and a year.

The feeding door is fixedly connected with the feeding opening through a pair of upper connecting rods and a pair of lower connecting rods; the door connecting plate is hinged with the upper connecting rod, the upper end and the lower end of the door connecting plate are provided with long holes, and the lower connecting rod extends into the long holes and slides relatively; the transmission pin shaft rotates downwards to close the feeding door, the control circuit gives a delay blocking time to the motor B, the lower pull rod is pulled downwards along with the delay blocking time and slides in the long hole to pull the feeding door tightly, and therefore the feeding door is closed.

The feeder has all made and has sealed dampproofing the processing, go out and feed the door and include the door plant and install the dampproofing sealing washer on the door plant.

The feeder also comprises an upper cover which is buckled at the top of the shell and covers the feeding device.

A feeding disc is arranged below the feeding outlet; the feeding tray is integral with the base.

The feeding device has the advantages that the design is reasonable, the structure is simple, when the feeding device is used, different kinds of feed are respectively placed in the storage barrels, the feeding plate rotates, the outlets of the storage barrels are opened one by one according to the setting, and accurate feeding of the various kinds of feed is realized.

Drawings

Fig. 1 is a perspective view of an automatic feeder for feeding precisely.

Fig. 2 is a top view of an automatic feeder with precise feeding (no lid).

Fig. 3 is a schematic sectional view of an automatic feeder for feeding precisely.

Fig. 4 is an enlarged view of a portion a of fig. 3 (the drop feed device).

Fig. 5 is a schematic view of the switching device (on).

Fig. 6 is a schematic diagram of the switching device (off).

In the figure, a base 1, a shell 2, a feeding device 3, an upper cover 4, a feeding door device 5, a feeding disc 6, a funnel 7, a blanking hopper 8, a controller 9, a power supply 10, a switch and USB socket 11, a feeding device seat plate 3-1, a storage barrel 3-2, a charging basket cover 3-3, a motor A3-4, a feeding disc 3-5, a feeding hole 3-5-1, a connecting shaft 3-6, a transmission gear 3-7, a feeding disc gear 3-8, a driving mechanism 25-1, a seat plate 5-1-1, a motor B5-1-2, a speed change device 5-1-3, a transmission mechanism 5-2, a connecting pin shaft 5-2-1, a control cam 5-2-2, a microswitch 15-2-3, a microswitch 25-2-4, a micro switch, 5-3 parts of connecting device, 5-3-1 parts of upper pull rod, 5-3-2 parts of lower pull rod, 5-3-5 parts of door connecting plate, 5-3-4 parts of long hole, 5-4 parts of feeding door, 5-4-1 parts of door plate, 5-4-2 parts of sealing strip and 1-1 part of feeding outlet.

Detailed Description

As shown in fig. 1, the automatic feeder for accurately feeding comprises a base 1 and a housing 2, wherein the housing 2 is fixedly connected to the base 1, the top of the housing 2 is open and is a feeding inlet, a feeding outlet 1-1 is arranged on the side wall of the base 1, and a feeding falling channel connected with the feeding inlet and the feeding outlet 1-1 is arranged in the housing 2 and the base 1; the feeder also comprises an upper cover 4; the feeder also comprises feeding gate means 5.

As shown in fig. 2, the feeder further comprises a feeding device 3, wherein the feeding device 3 is mounted on the top of the housing 2 and is connected with the feeding port; the upper cover 4 is buckled at the top of the shell 2 and covers the feeding device 3; a feeding disc 6 is arranged below the feed outlet; the feeding tray 6 is integral with the base 1.

As shown in fig. 3, the feeder further comprises a controller 9, a switch and USB socket 11, and a power supply 10, wherein the controller 9 and the power supply 10 are both installed in the base, the switch and USB socket 11 is embedded in the side wall of the base 1, and the controller 9, the switch and USB socket 11, and the power supply 10 are connected to form the control circuit; a funnel 7 is arranged in the shell 2, a blanking hopper 8 is arranged in the base 1, the blanking hopper 9 is a three-surface inclined baffle, and the lower end of the blanking hopper is an outlet.

As shown in fig. 4, the feeding device 3 comprises a feeding device seat plate 3-1, a plurality of storage barrels 3-2, and a feeding tray 3-5, wherein the feeding device seat plate 3-1 is fixedly connected to the housing 2 and covers the top opening of the housing 2, and N through holes are annularly distributed on the feeding device seat plate 3-1; the upper end of the material storage barrel 3-2 is provided with a discharge hole, a material barrel cover 3-3 is arranged on the material storage barrel, the lower end of the storage barrel 4-2 is provided with a through hole which is positioned in the through hole of the seat plate 3-1 of the feeding device, the feeding tray 3-5 is rotatably arranged below the seat plate 3-1 of the feeding device, a feeding hole 3-5-1 is arranged on the feeding tray, the feeding tray 3-3 also comprises a feeding tray gear 3-8, the feeding tray 3-3 is fixedly connected with the feeding tray gear 3-8, the falling feed tray is movably connected with a base plate 3-1 of the falling feed device through a connecting shaft 3-6, a driving mechanism 1 arranged on the base plate 3-1 of the falling feed device drives a gear 3-8 of the falling feed tray to drive the falling feed tray 3-5 to rotate, the driving mechanism 1 is formed by connecting a motor A3-4 and a transmission gear 3-7.

As shown in FIG. 3, the upper port of the hopper 7 is located below the outlets of all the dropping barrels 3-2, the lower port is located above the lower hopper 8, and the outlet of the lower hopper 9 is connected with the feed outlet 1-1 to form the feeding passage together.

As shown in fig. 5 and 6, the feeding door device 5 comprises a driving mechanism 25-1 and a feeding door mechanism; the driving mechanism 25-1 comprises a motor 5-1-2, a speed change gear 5-1-3 and a seat plate 5-1-1, and the speed change gear 5-1-3 comprises a worm wheel and a worm; the feeding door mechanism comprises a transmission mechanism 5-2, a connecting device 5-3 and a feeding door 5-4-1, wherein the transmission mechanism 5-2 comprises a transmission pin shaft 5-2-1, and the connecting device 5-3 comprises an upper connecting rod 5-3-1 and a lower connecting rod 5-3-2; the seat plate 5-1-1 is fixedly connected to the base 1, the motor 5-1-2 is installed on the installation seat plate 5-1-1, the transmission pin shaft 5-2-1 is rotatably installed on the seat plate 5-1-1, the worm is installed on the motor 5-1-2, the worm wheel is installed on the transmission pin shaft 5-2-1 and meshed with the worm, the feeding door 5-4 is installed on the feeding outlet 1-1, and the upper connecting rod 5-3-1 and the lower connecting rod 5-3-2 are both fixedly connected to the transmission pin shaft 5-2-1 and respectively connected with the feeding outlet 5-4; the transmission pin shaft 5-2-1 is driven by the motor B5-1-2 to rotate forwards or backwards, the transmission pin shaft 5-2-1 rotates backwards to drive the feeding door 5-4 to upwarp and open the feeding door 5-4, the transmission pin shaft 5-2-1 rotates forwards to drive the feeding door 5-4 to pull downwards and close the feeding door 5-4.

The transmission mechanism 5-2 comprises a control cam 5-2-2 and two microswitches; the control cam 5-2-2 is fixedly connected to the transmission pin shaft 5-2-1 and rotates along with the transmission pin shaft 5-2-1, the two microswitches are both arranged on a seat frame fixedly connected with the seat plate 5-1-1 and located on the motion track of the control cam, the control cam is connected with a control circuit, the control circuit is connected with the motor B5-1-2, the first microswitch 5-2-3 is in contact with the control cam 5-2-2 to form reverse rotation limiting of the transmission pin shaft 5-2-1, and the second microswitch 5-2-4 is in contact with the control cam 5-2-2 to form forward rotation limiting of the transmission pin shaft 5-2-1.

The upper connecting rod 5-3-1 and the lower connecting rod 5-3-2 are in a pair, two door connecting plates 5-3-5 are fixedly connected to the opposite sides of the feeding outlet 5-4 and the feeding outlet 1-1, and the two door connecting plates 5-3-5 are opposite and are respectively connected with the upper connecting rod 5-3-1 and the lower connecting rod 5-3-2; the door connecting plate 5-3-5 is hinged with the upper connecting rod 5-3-1, a long hole 5-3-4 is formed in the door connecting plate 5-3-5, and the lower connecting rod 5-3-2 extends into the long hole 5-3-4 and slides relatively; the transmission pin shaft 5-2-1 rotates downwards to close the feeding door 5-4, the lower connecting rod 5-3-2 is pulled downwards along with the lower connecting rod and slides in the long hole 5-3-4 to press the feeding door 5-4 tightly.

The feeder is subjected to closed moisture-proof treatment, and the feeding outlet door 5-4 comprises a door plate 5-4-1 and a moisture-proof sealing ring 5-4-2 arranged on the door plate 5-4-1.

As shown in figure 5, when the door is opened, the connecting shaft pin 5-2-1 rotates forward to drive the upper connecting rod 5-3-1 and the lower connecting rod 5-3-2 to lift out of the feeding door 5-4, at this time, the control cam 5-2-2 conducts the first switch 5-2-3, the door is opened and stopped, and at this time, the control circuit enables the electrode of the motor 5-1-2 to rotate reversely.

As shown in FIG. 6, during the door closing action, the connecting shaft pin 5-2-1 rotates reversely to drive the upper connecting rod 5-3-1 and the lower connecting rod 5-3-2 to retract downwards out of the feeding door 5-4, until the control cam 5-2-2 is communicated with the second switch 5-2-4; at the moment, the control circuit gives a delay plugging time to the motor 5-1-2, so that the lower connecting rod 5-3-2 slides in the long hole 7-3-4, the moisture-proof sealing ring 5-4-2 is pulled more tightly, and then the control circuit enables the electrode of the motor B5-1-2 to be in the forward direction.

The control circuit is also connected with the motors A3-4.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered in the protection scope of the present invention.

Claims (10)

1. An automatic feeder capable of accurately feeding comprises a base and a shell, wherein the shell is located on the base and fixedly connected with the base, an opening is formed in the upper portion of the shell and is a feeding opening, a feeding outlet is formed in the side wall of the base, and feeding channels connected with a feeding inlet and a feeding outlet are formed in the shell and the base; the feeder is characterized by also comprising a feeding device, wherein the feeding device is arranged at the top of the shell and is communicated with the feeding port;

the feeding device comprises a feeding device seat plate, a plurality of storage barrels and a feeding tray, wherein the feeding device seat plate is fixedly connected to the shell and covers the opening at the top of the shell, and N through holes are annularly distributed on the feeding device seat plate; the feeding device is characterized in that a discharging hole is formed in the upper end of the storage barrel, a barrel cover is arranged on the storage barrel, a through hole is formed in the lower end of the storage barrel and is located in the through hole of the feeding device seat plate, and the feeding device is rotatably arranged below the feeding device seat plate and provided with a feeding hole; the feeding dropping plate rotates, and the feeding dropping plate blocks the outlets of all the feeding dropping cylinders or the feeding dropping holes of the feeding dropping plates are communicated with the outlet of the last feeding dropping cylinder.

2. The automatic feeder of claim 1, wherein the feeding tray of the feeding device further comprises a feeding tray gear, the feeding tray gear is fixedly connected to the gear and movably connected to the feeding device base plate through a connecting shaft, and the feeding tray gear is driven by a driving mechanism 1 mounted on the feeding device base plate to rotate the feeding tray; the driving mechanism 1 is formed by connecting a motor A and a transmission gear.

3. The automatic feeder according to claim 1, wherein a hopper is provided in the housing, a hopper is provided in the base, the hopper is a three-sided inclined baffle, and an outlet is provided at a lower end of the hopper;

the funnel upper port is located the export below of all feed barrels, lower port is located hopper top down, the export of hopper is connected out and is raised the mouth down, constitutes jointly the passageway is raised to falling.

4. The automatic feeder of claim 1, further comprising a feeding door device, wherein the feeding door device comprises a driving mechanism 2 and an outlet door mechanism;

the driving mechanism 2 comprises a motor B, a speed change gear and a seat plate, wherein the speed change gear comprises a worm wheel and a worm; the feeding door mechanism comprises a transmission mechanism, a connecting device and a feeding door, the transmission mechanism comprises a transmission pin shaft, and the connecting device comprises an upper connecting rod and a lower connecting rod; the seat plate is arranged on the base, the motor B is arranged on the seat plate, the transmission pin shaft is movably arranged on the seat plate, the worm is arranged on the motor B, the worm wheel is arranged on the transmission pin shaft and meshed with the worm, the feed outlet door is arranged on the feed outlet, one ends of the upper connecting rod and the lower connecting rod are fixedly arranged on the transmission pin shaft, and the other ends of the upper connecting rod and the lower connecting rod are respectively connected with the feed outlet door; the transmission pin shaft is driven by the motor B to rotate forwards or backwards, the transmission pin shaft rotates backwards to drive the feeding door to upwarp and open the feeding door, and the transmission pin shaft rotates forwards to drive the feeding door to pull downwards and close the feeding door.

5. The automatic feeder according to claim 4, wherein the transmission mechanism further comprises a stopper and two micro switches;

dog fixed mounting is on transmission round pin axle, rotates along with transmission round pin axle, and two micro-gap switches are all installed on the seat frame, and are located the touch-control point position of dog, and control circuit starter motor B, micro-gap switch 1 and dog contact constitute transmission round pin axle's reversal spacing, otherwise: the microswitch 2 is contacted with the stop block to form positive rotation limit of the transmission pin shaft.

6. The automatic feeder of claim 5, further comprising a controller, a switch, a USB socket, and a power source; the controller and the power supply are installed in the base, the switch and the USB socket are embedded in the side wall of the base, the controller, the switch, the USB socket and the power supply are connected to form the control circuit, and the control circuit is connected with the driving mechanisms 1 and 2.

7. The automatic feeder of claim 4, wherein the upper and lower connecting rods are paired, and two door connecting plates are fixedly connected to the opposite sides of the feeding door from the feeding outlet, and the two door connecting plates are opposite and connected to one upper connecting rod and one lower connecting rod respectively; the door connecting plate is hinged with the upper connecting rod, a long hole is formed in the door connecting plate, and the lower connecting rod extends into the long hole and slides relatively; the transmission pin shaft rotates downwards to close the feeding door, the lower connecting rod is pulled downwards along with the lower connecting rod and slides in the long hole, and the feeding door is tensioned.

8. The automatic feeder of claim 4, wherein the feeders are sealed and protected from moisture, and the feeding door comprises a door plate and a moisture-proof sealing ring mounted on the door plate.

9. The automatic feeder of claim 1, further comprising a cover covering the feeder unit, wherein the cover is fastened to the top of the housing.

10. The automatic feeder for precise feeding of claim 1, wherein a feeding tray is disposed below the feeding outlet; the feeding tray is integral with the base.

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