KR102644771B1 - Blade Structure for automatic feed quantitative supply - Google Patents

Abstract

The blade structure for an automatic feed metering supply device according to the present invention accurately supplies a set amount of feed to a feed tray installed on the floor, and includes a feed storage bin installed on the upper part of the feed tray and a lower end of the feed storage bin. It consists of an upper cap and a lower cap; It is assembled inside the lower cap and further includes a blade that discharges the feed supplied from the feed storage bin to the feed tray; The blade consists of a body injected from a synthetic resin material, and the blade is formed by molding an elastic material to surround the entire surface of the body.

Description

Blade structure for automatic feed quantitative supply}

The present invention relates to a blade structure used in an automatic feed quantitative feeding device that accurately supplies feed in a set amount. More specifically, it relates to a blade structure made of elastic material such as rubber or silicone to cover the entire surface of a body injection-molded from synthetic resin. This relates to a blade structure for an automatic feed metering feeder that minimizes the load on the drive motor by forming it so that fresh feed can always be supplied to livestock in the right amount at the right time.

As is well known, the amount of feed consumed by livestock such as pigs, cows, dogs, etc. is different for each individual, and the amount of feed fed varies depending on the growth period such as physique condition and weight, and an appropriate amount of feed must be fed to the livestock accordingly. do.

In particular, the amount of feed provided to pigs varies significantly depending on the early, middle, and final stages of pregnancy, before/after parturition, lactation, end of lactation, and pregnancy waiting period. Accordingly, it is possible to produce a large number of healthy piglets by controlling body weight according to age, parturition, and pregnancy period, and for this purpose, the appropriate amount of feed and drinking water is artificially adjusted.

Meanwhile, common feed supply devices include a method of scraping the feed accumulated on a plate with a scraper and dropping it onto a feed tray, or a method of transporting and supplying it along a screw. However, these feed supply devices have the problem of being inefficient due to the uneven feed and supply amount. There is.

As a prior art to solve this problem, there is 'Patent Document 0001' below. It is clear that the above prior art is a useful invention that allows the feed stored in the feed storage container to be lowered smoothly so that the correct amount of feed is discharged when the motor is driven, thereby supplying feed to livestock at the required time.

However, in the prior art, as shown in FIG. 1, the outer diameter of the blade 40 is manufactured larger than the inner wall of the lower cap 20 and is molded from an elastic material such as rubber or silicon, so the end of the blade 40 is It rotates while contacting the inner wall of the lower cap 20 in a non-slip, sticky state.

At this time, when grains are caught between the end of the blade 40 and the inner wall of the lower cap 20, the end of the blade 40 is bent due to elasticity, but the grains remain on the blade 40. It gets stuck at the end of the and rotates together. Accordingly, wear occurs on the inner wall of the lower gap 20 and the end of the blade 40, which is made of plastic, due to grains, and eventually the wear worsens over time due to repeated operation, causing the blade 40 to wear out. The end portion and the inner wall of the lower cap 20 are damaged. Due to these problems, the automatic feed quantitative feeding device of the prior art not only has poor durability, but also requires replacement labor costs and parts replacement costs.

In addition, in the prior art, the inner wall of the lower cap 20 is molded from a synthetic resin material such as hard plastic, and the blade 40 is molded from an elastic material such as rubber or silicone, so that the end of the blade 40 is always connected to the lower cap. There is a disadvantage in that the end of the blade 40 is worn as it rotates while being in close contact with the inner wall of the blade 40, which shortens its lifespan and reduces durability. Although the blade 40 has elasticity, because it is in close contact with the inner wall of the lower cap 20 or rotates with the end of the blade 40 folded, it places a large load on the drive motor, which not only reduces durability. In addition, a problem arises that increases the replacement cost of the drive motor.

Registered Patent Publication No. 10-1735009 (Automatic feed feeding device capable of providing smooth feed. Publication date: January 25, 2017) Registered Patent Publication No. 10-1923115 (Automatic feeding device for fixed quantity of feed. Publication date: October 18, 2018) Registered Patent Publication No. 10-1829263 (quantitative feed supply device with touch sensor. Publication date: December 29, 2017) Registered Patent Publication No. 10-1739584 (Automatic Feed Quantity Supply Device. Publication Date: March 6, 2017)

The present invention is intended to solve the problems of the prior art as described above, and is a blade structure for an automatic feed metering feeder in which the body is injected from synthetic resin material and then the blade is molded from an elastic material such as rubber or silicone to cover the entire surface of the body. The purpose is to provide.

Another object of the present invention is to provide a blade structure for an automatic feed quantitative feed device that allows fresh feed to be supplied to livestock at the correct time and in the correct amount.

Another purpose of the present invention is to provide a fixed-quantity automatic feed supply device that can prevent damage to the drive motor and supply more accurate feed at the required amount and at the required time, thereby maximizing the reproductive ability of sows and minimizing production costs for farms. It provides a blade structure.

The blade structure for an automatic feed metering supply device according to the present invention accurately supplies a set amount of feed to a feed tray installed on the floor, and includes a feed storage bin installed on the upper part of the feed tray and a lower end of the feed storage bin. It consists of an upper cap and a lower cap; It is assembled inside the lower cap and further includes a blade that discharges the feed supplied from the feed storage bin to the feed tray; The blade consists of a body injected from a synthetic resin material, and the blade is formed by molding an elastic material to surround the entire surface of the body.

In addition, it is preferable that the outer diameter of the tip of the blade is molded to be smaller than the inner wall of the lower cap.

In addition, the blade is preferably molded to be thinner from the center to the end, and in particular, the blade has a thickness of 0.8 to 2.5 mm at the end.

In the present invention, the body is injected from a synthetic resin material and then the blade is molded from an elastic material such as rubber or silicone to cover the entire surface of the body, so that even if grains are caught or hit between the inner wall of the lower cap and the tip of the blade, the blade remains. The end is bent and rotated, so it has the advantage of always being able to supply fresh feed to livestock at the right time and in the right amount.

The present invention provides a condition in which a constant load is applied to the drive motor that rotates the blade, so that the exact amount of feed set in the control unit can be supplied, and wear of the inner wall of the lower cap can be reduced and wear of the blade can be minimized. There are benefits to this.

Since the present invention can eliminate the load on the drive motor, which is the most important in the automatic feed quantitative feed system, it eliminates the phenomenon of livestock starving due to the failure of the drive motor and prevents unnecessary expenses such as purchase costs and replacement labor costs due to replacement of the drive motor. There are advantages to this.

The present invention is manufactured by injection molding the body with synthetic resin material and then coating the outside with elastic material (rubber, silicone, etc.) once more to create a structure in which there are no gaps and no foreign substances are caught, so that fresh feed is always delivered at the right time and accurately. Sheep can be supplied to livestock. In addition, it has the advantage of being able to produce healthy piglets, eliminate reproductive disorders, eliminate unnecessary waste of manpower, and improve national competitiveness by improving farm productivity.

Figure 1 is a view showing the blade 40 installed on the inner wall of the lower cap 20 according to the prior art.
Figure 2 is a three-dimensional view showing the structure of a blade for an automatic feed quantitative feed supply device according to a preferred embodiment of the present invention.
FIG. 3 is a cutaway view showing the blade structure for the automatic feed quantitative feeding device shown in FIG. 2.
Figure 4 is a view showing the blade for the automatic feed metering feed system shown in Figure 2 installed on the lower cap.
Figure 5 is a view showing a state in which grain grains are sandwiched between the end of the blade and the inner wall of the lower cap in Figure 4.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the attached drawings. In the detailed description to be described later, representative embodiments of the present invention will be presented to achieve the above-described technical problem. And other embodiments that can be presented with the present invention are replaced with descriptions in the configuration of the present invention.

The term 'automatic feed feed supply device' used in the present invention generally refers to a unit installed between a feed storage bin and a feed stand to accurately supply feed in a set amount. In addition, the term 'blade' refers to a feed supply means for supplying the feed supplied from the feed storage container to the feed tray in the amount set, for example, the blade 40 of the feed supply means 30 presented in 'Patent Document 0001'. ) is used as the same term.

Below, the blade structure for the automatic feed quantitative feeding device according to the present invention will be described in detail with reference to FIGS. 2 to 5. In addition, it should be noted in advance that among the terms used in the present invention, the lower cap 20 has the same configuration as the lower cap 20 presented in 'Patent Document 0001'. In addition, the blade structure to be implemented in the present invention is most preferably installed and used in the automatic feed quantitative feed device presented in 'Patent Document 0001', and if necessary, feed as much as the set amount in addition to the above 'Patent Document 0001'. It can be applied to all units that supply accurately.

The blade structure for an automatic feed quantitative feed supply device according to a preferred embodiment of the present invention is shown in detail in FIGS. 2 to 4. The automatic feed quantitative feeding device of the present invention is a device that accurately supplies feed in a set amount to a feed tray generally installed on the floor, and usually includes a feed storage bin containing feed, upper and lower caps connected to the feed storage bin, and It consists of a blade, which is a feed supply means, installed on the lower cap.

Referring to FIGS. 2 to 4, the blade structure of the present invention constitutes a body 104 having a connection groove 108 into which the shaft of a drive motor (not shown) is assembled, and the entire surface of this body 104 is It further includes a surrounding blade 102. Protrusions 106 are formed on the circumferential surface of the body 104 while maintaining regular intervals.

In the present invention, the body 104 is first injection-molded and the blade 102 is molded on it. Specifically, the body 104 is injection-molded with a synthetic resin material, and then the entire surface of the body 104 is wrapped with rubber. The blade 102 is manufactured by molding it from an elastic material such as silicon or silicon. In addition, in the present invention, the outer diameter (diameter) of the blade 102 is molded to be smaller than the inner wall surface 20a of the lower cap 20, and in particular, the end portion 102a of the blade 102 is molded to about 0.8 to 2.5 mm. It is desirable to do so.

In this way, the outer diameter of the blade 102 is molded to be smaller than the inner wall surface 20a of the lower cap 20 and molded with a material such as rubber or silicone having elastic force, so that the inner wall surface of the lower cap 20 is formed as shown in FIG. 5. Even if grains (a) are caught or hit between (20a) and the end portion (102a) of the blade (102), the blade (102) rotates without being affected by the grains (a) due to the elastic force of the blade (102). That is, because the end portion 102a of the blade 102 is thin (for example, preferably 0.8 to 2.5 mm) and has good elasticity, the inner wall 20a of the lower cap 20 and the blade 102 Even if grains (a) are caught or hit between the ends (102a) of the blade (102), the end (102a) of the blade (102) is naturally bent and rotated while leaving the grains (a) in that position, so that the remaining grains (a) a) hides in the next compartment of the blade 102, creating conditions in which the drive motor (not shown) can rotate without receiving any load.

On the other hand, a general fixed-quantity automatic feed feed device is a device that automatically supplies feed to the mother sow. Only by supplying the correct amount of feed on time can eliminate obesity in the sow and also secrete high-quality and abundant milk for the young piglets that are breastfeeding, making them healthy. Since it is possible to prevent breeding disorders as well as piglet production, if the blade structure of the present invention is applied to the automatic feed quantitative feed device, the condition in which the load is constant on the drive motor as described above is met, so that the exact amount of feed set in the control unit can be supplied. It becomes possible.

In addition, in the present invention, the end portion 102a of the blade 102 is formed as thin as 0.8 to 2.5 mm and has elasticity, so even if it is formed to a size that almost contacts the inner wall surface 20a of the lower cap 20, the load of the drive motor is reduced. There is no wear phenomenon on the inner wall surface (20a) of the lower cap (20), and the end part (102a) of the blade (102) is close to the inner wall surface (20a) of the lower cap (20) even in the event of external artificial shock. This can prevent the phenomenon of artificially supplying more feed than necessary.

102: Blade 102a: Blade tip
104: body 106: protrusion

Claims (4)

Feed is accurately supplied in a set amount to a feed tray installed on the floor, and includes a feed storage bin installed at the top of the feed tray, an upper cap and a lower cap assembled at the lower end of the feed storage bin, and the lower cap of the lower cap. In the blade structure for the automatic feed metering feeder that is assembled inside and discharges the feed supplied from the feed storage bin into the feed tray,
A body 104 having a connection groove 108 into which the shaft of the drive motor is assembled;
Protrusions 106 formed to protrude while being maintained at regular intervals along the circumferential surface of the body 104;
It includes a blade 102 that is inserted into the outer diameter of the body 104 and is caught on a protrusion of the body 104;
The body 104 is injection molded from a synthetic resin material, and the blade 102 is molded from either rubber or silicone, and the blade 102 is formed to surround the entire surface of the body 104. inserted so that the blade 102 is coupled to the outer diameter of the body 104;
The outer diameter of the end of the blade 102 is formed to be smaller than the inner wall surface 20a of the lower cap 20;
The blade 102 is molded to become thinner as it goes from the center to the end 102a, and the end 102a of the blade 102 is formed to have a thickness of 0.8 to 2.5 mm, so that the inner wall of the lower cap 20 is formed. When grains (a) are caught or hit between the tip (102a) of the blade (102), the end (102a) of the blade (102), which has elastic force, is elastically bent and catches the grains (a). A blade structure for an automatic feed metering feeder that rotates while remaining in the position and prevents the load on the drive motor. delete delete delete