KR20190011978A - Suspension type automated weighing feed bin - Google Patents

Abstract

According to the present invention, provided is a suspension type automatic weighing feed bin including: a body including a feed storage space and an outlet formed in the bottom; a plurality of supports erected on the ground, and separated and arranged radially along the outer surface of the body to support the body so that the body is able to be slid; a sensor part separated and placed in the center of the upper part of the body, and including a weight sensor sensing the weight of the body; a plurality of connectors having an end fixed to the top of each of the supports, and having the other end fixed to the sensor part; a suspension unit interposed between the body and the sensor part to make the body connected directly with the weight sensor so that the body is connected and fixed with the sensor part; and a weighing part electrically connected with the weight sensor to receive information about the weight of the body from the weight sensor and measure a residual amount of feed. According to the present invention, since the weight of the body is directly connected to be freely hung on the single weight sensor, the suspension type automatic weighing feed bin is capable of accurately measuring the actual weight of the body as well as minimizing malfunction. Moreover, the body is firmly supported by the supports, and a step between the center and the upper part of the body diffuses a load affecting the suspension unit, and thus, the present invention is capable of improving the structural stability of a feed bin.

Description

Suspension type automated weighing feed bin

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an automatic weighing feed bin for a suspension type automatic weighing feed bin, and more particularly, to an automatic weighing feed bin which can automatically receive the information on the remaining amount by automatically weighing the feed stored in the feed bin will be.

Generally, farmhouses that house livestock store feed in a feed bin to feed livestock. These feed beans are used to store and supply large amounts of feed to properly control the storage temperature and humidity of feed provided to livestock. In addition, feed beans need to check the amount of feed stored in real time in order to feed the livestock continuously.

However, because the feed bean has a large size, it is difficult to check the remaining amount in real time through the inlet, which may lead to missed feed supplement timing. In order to prevent this, a weight sensor is attached to the feed bin to measure the weight of the feed bin in real time, thereby measuring and checking the weight of the stored feed bin.

As a conventional feed bin for measuring the weight of feed, Korean Utility Model Registration No. 20-0472177 is disclosed.

However, the conventional feed bin is configured to receive weight information by providing weight sensors at the lower ends of the pillars supporting the body. At this time, the feed bean is fixed to the feed pipeline and the degree of freedom is low, so that the actual weight can not be accurately reflected.

In addition, since the conventional feed bin is attached to the weight sensor by cutting the lower end of the column, it is difficult to firmly support it and its structural stability deteriorates.

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made to solve the above problems, and it is an object of the present invention to provide a suspension type automatic weighing bin capable of accurately measuring the amount of feed stored in a feed bin, .

The present invention relates to a metering feed bin for a hanging type automatic weighing animal, comprising: a body having a feed storage space formed therein and a discharge port formed at a lower end thereof; A plurality of supports installed vertically to the ground and radially spaced along the outer surface of the body to slidably support the body; A sensor unit disposed at a center of an upper portion of the body and having a weight sensor for sensing the weight of the body; A plurality of connecting rods, one end of which is fixedly connected to the upper end of the plurality of supports, and the other end is fixedly coupled to the sensor portion; A suspension unit interposed between the body and the sensor unit to connect and fix the body to the sensor unit so that the body is directly connected to the weight sensor; And a measuring unit electrically connected to the weight sensor to receive information on the weight of the body from the weight sensor and measure the amount of feed remaining.

Wherein the suspension includes a support portion provided in a strip shape along an outer periphery of the body, a plurality of engagement portions annularly spaced apart along the support portion so that one end thereof is engaged with the support portion, And a plurality of connection portions that are coupled to the sensor portion such that the other end is directly connected to the weight sensor.

The body has an inverted conical lower end portion, a central portion disposed on the upper side of the lower end portion, and an upper end portion disposed on the upper side of the central portion and having an outer circumference larger than the outer circumference of the center portion, And the upper end of the support portion is fixed to the step.

The suspension type automatic weighing bin may further include a plurality of rail portions formed on an outer surface of the body corresponding to the plurality of supports, and having rail grooves slidably engaged with the plurality of supports.

The suspension type automatic weighing bin may further include a conveyance pipe connected to the discharge port of the body to transfer and receive the feed, and a conveyance unit connecting the discharge port and the conveyance pipe and including a telescoping connection pipe. The conveyance unit may further include at least one fixing block installed on the floor to fix and support the lower portion of the conveyance pipe.

According to the suspension type automatic weighing bin according to the present invention, since the weight of the body is directly coupled to the single weight sensor, the actual weight of the body can be accurately measured, and malfunction or failure can be minimized.

Also, the structural stability of the feed bean can be improved by firmly supporting the body by the plurality of supports and dispersing the load received by the suspension using the step formed between the upper and middle portions of the body.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view showing a hanging automatic weighing feed bin according to an embodiment of the present invention;
FIG. 2 shows the body and suspension of the feed bin shown in FIG. 1,
3 is a sectional view taken along the III-III direction in Fig.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately The present invention should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, at the time of the present application, It should be understood that variations can be made.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. FIG. 1 is a perspective view showing a hanging automatic weighing feed bin according to an embodiment of the present invention, FIG. 2 is a view showing a body and suspension of the feed bin shown in FIG. 1, FIG. 3 is a cross- Sectional view taken along line III in Fig.

Referring to FIG. 1, a suspension type automatic weighing bin 10 according to an embodiment of the present invention includes a body 100, a plurality of supports 200, a sensor unit 300, a plurality of connecting rods 400, (500) and a measurement unit (600).

The body 100 is for storing diets, and a receiving space for food is formed therein, and an outlet 101 is formed at the lower end. The stored feed through the outlet (101) can be discharged.

The body 100 may include a lower end 110, a central portion 120, and an upper end 130. The lower end 110, the central part 120, and the upper end 130 may be integrally formed, but the present invention is not limited thereto.

The lower end portion 110 may have an inverted conical shape at a lower portion of the body 100, but the shape is not limited thereto. The lower end 110 has a discharge port 101 formed at the lower end thereof. Therefore, the feed stored in the accommodation space can be discharged through the outlet 101.

The center portion 120 is disposed above the center portion of the body 100 and above the lower end portion 110. The central portion 120 is preferably formed in a cylindrical shape, but the shape is not limited thereto.

The upper part 130 is disposed on the upper side of the body part 100 and the upper side part of the body part 100. The upper end portion 130 is provided with a feeding port 102 for feeding the feed to feed the feed into the receiving space of the body 100 through the feeding port 102. It is preferable that the outer circumference of the upper end portion 130 is formed to be larger than the outer circumference of the central portion 120. Accordingly, the lower end of the upper end 130 protrudes to the outside of the central portion 120. Therefore, a step 131 may be formed between the upper end 130 and the central part 120.

The plurality of supports 200 support the body 100 away from the ground, and are installed perpendicular to the ground. The support base 200 is radially spaced along the outer surface of the body 100 and slidably supports the body 100.

In FIG. 1, four support rods 200 are shown radially spaced apart from the outer surface of the body 100. However, the support rods 200 may be installed on the body 100 In consideration of the size, height, etc. At this time, it is preferable that the support rods 200 to be installed are radially arranged at equal intervals so that a uniform load is distributed.

The sensor unit 300 senses the weight of the body 100 and is spaced apart from the upper center of the body 100. The sensor unit 300 includes a suspension unit 500 to be described later, Lt; / RTI >

More specifically, the sensor unit 300 may be supported by the plurality of supports 200 and disposed at the center of the upper portion of the body 100. A weight sensor (not shown) such as a load cell is installed in the sensor unit 300 to sense the weight of the body 100. In this case, the load cell deforms compression or elongation in response to a change in the load of the body 100, calculates the load value of the load cell by receiving an electrical signal, and measures the weight of the feed contained in the body 100 have.

In addition, the weight sensor is directly connected to the body 100, and can detect a change in weight of the body 100 due to feed and discharge of the feed. That is, since the weight of the body 100 is directly coupled to the single weight sensor, the actual weight of the body 100 can be accurately measured, and malfunctions and failures can be minimized.

The plurality of connecting rods 400 are for supporting the sensor unit 300 in connection with the plurality of supporting rods 200. One end of the connecting rods 400 is fixedly coupled to the upper ends of the plurality of supporting rods 200, And is fixedly coupled to the sensor unit 300. That is, the plurality of connection blocks 400 are coupled with the plurality of supports 200 to support the sensor unit 300 and fix the sensor unit 300 to be disposed at the center of the upper portion of the body 100.

The suspension unit 500 is configured to connect the body 100 directly to the weight sensor and is interposed between the body 100 and the sensor unit 300. That is, one end of the suspension unit 500 is coupled to the body 100, and the other end thereof is coupled to the sensor unit 300 to fix the body 100 to the sensor unit 300. The suspension device 500 may include a support portion 510, a plurality of coupling portions 520, and a plurality of connection portions 530.

The support portion 510 is formed in a strip shape along the outer circumference of the body 100, and more specifically, can be coupled to the outer circumference of the center portion 120. 2, the supporting portion 510 is disposed at the upper end of the center portion 120, and the upper end of the supporting portion 510 is disposed to abut the lower end of the upper end portion 130. As shown in FIG. Accordingly, the support portion 510 can be fixed in position in the vertical direction by the step 131, and can be stably coupled to the body 100. In addition, by the step 131 between the upper part 130 and the central part 120, the load supporting the body 100 can be dispersed by the support part 510, thereby improving the structural stability.

One end of the plurality of engaging portions 520 is coupled to the supporting portion 510. Here, the plurality of engaging portions 520 are annularly disposed along the support portion 510.

In FIG. 1, the number of the coupling portions 520 is two. However, the coupling portions 520 may be three or more. At this time, it is preferable that the plurality of engaging portions 520 are radially disposed at equal intervals to balance force.

The plurality of connection portions 530 are for supporting the body 100 and are coupled between the sensor portion 300 and the plurality of coupling portions 520. [ The plurality of connection units 530 are coupled to the sensor unit 300 such that one end of the connection unit 530 is coupled to the plurality of coupling units 520 and the other end of the connection unit 530 is directly connected to the weight sensor. When the weight of the body 100 is changed according to feeding and discharging of the feed, the load applied to the weight sensor by the connection part 530 connected between the coupling part 520 and the sensor part 300 is changed , And the weight sensor senses the change in the load and transmits the measured load to the measuring unit 600 to be described later, thereby measuring the remaining amount of the feed.

The measuring unit 600 measures the amount of feed remaining in the body 300 and is electrically connected to the weight sensor of the sensor unit 300 to measure the weight of the body 300 sensed by the weight sensor. Information can be received as an electrical signal. In other words. The measuring unit 600 calculates an electrical signal corresponding to the weight of the body 100 received from the sensor unit 300 and measures the remaining amount of the food contained in the body 300. The measuring unit 600 may be provided on the inside or the outside of the body 300, and may be installed separately on the outside of the body, if necessary.

As shown in FIG. 1, the information on the remaining amount of feed measured by the measuring unit 600 can be displayed externally through the display unit 601. The display unit 601 may be provided on the outer surface of the body 300, but may be displayed through a computer terminal installed in a room, such as an office, by using a short-range wireless communication or the like. In addition, it can be implemented to check the remaining amount of feed through various mobile devices such as a smart phone or a smart pad.

Meanwhile, the suspension type automatic weighing bin 10 may further include a plurality of rail portions 700 and a transfer portion 800.

The plurality of rails 700 are spaced from each other to correspond to the plurality of supports 200 and are provided on an outer surface of the body 100. The body 100 includes the plurality of supports 200, So as to be slidable. To this end, the plurality of rails 700 are formed with rail grooves 710 such that the plurality of supports 200 are slidably engaged. The rail 700 may be integrally formed with the body 100. However, this is an example, and in some cases, the separately manufactured rails 700 may be coupled to the body 100 through welding or the like. Since the rail 700 is slidably engaged with the plurality of support rods 200 in a slidable manner, the support 100 can be firmly supported by the support rods 200.

The feeding unit 800 may include a feeding pipe 810 and a connecting pipe 820 for feeding the feed discharged from the discharge pipe 101.

The transfer pipe 810 is connected to the discharge port 101 of the body 100 to transfer and receive the feed. That is, the feed pipe 810 is a pipe for feeding the feed, and is preferably fixed on the ground via a fixing block 811. That is, the fixing block 811 is installed on the floor to fix and support the lower part of the conveyance pipe 810, thereby fixing the position of the conveyance pipe 810. Therefore, even if the body 100 moves up and down due to weight change, the vertical position of the transfer tube 810 can be fixed by the fixing block 811.

The connection pipe 820 is provided between the discharge port 101 and the transfer pipe 810 and connects the discharge port 101 to the transfer pipe 810. Further, the connection pipe 820 may be formed of a corrugated pipe or the like so as to be stretchable and contractible.

Here, the position of the transfer pipe 810 is fixed to the ground by the fixing block 811, and the connection pipe 820 can be expanded and contracted, so that the degree of freedom of the body 100 is increased compared to the conventional case. Accordingly, the measurement error can be minimized by accurately reflecting the actual weight of the body 100.

Meanwhile, a transfer device 830 for transferring the feed may be further included between the transfer pipe 810 and the connection pipe 820. The feed device 830 includes a motor (not shown) and a screw (not shown), though not shown, so that the feed can be smoothly transferred through the feed pipe 810. However, the transfer device 830 is a well-known technique, and a detailed description thereof will be omitted here.

As described above, according to the suspension type automatic weighing bin 10 of the present invention, since the weight of the body 100 is directly coupled to the single weight sensor so as to be freely suspended, the actual weight of the body 100 can be accurately It is possible to measure not only malfunctions and malfunctions.

The body 100 is firmly supported by a plurality of supports 200 and the suspension unit 500 is received by the stepped portion 131 formed between the upper end 130 and the central portion 120 of the body 100 By dispersing the load, the stability of the suspension type automatic weighing bin 10 can be improved.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

10: feed bin 100: body
101: outlet 102: inlet
110: lower end portion 120:
130: upper end 131:
200: support 300: weight sensor
400: connecting rod 500: suspension
510: Support part 520:
530: connection part 600: measuring part
601: Display section 700:
710: rail groove 800:
810: Feed pipe 811: Fixed block
820: Connector 830: Feeding device

Claims (6)

A body having a feed storage space formed therein and a discharge port formed at a lower end thereof;
A plurality of supports installed vertically to the ground and radially spaced along the outer surface of the body to slidably support the body;
A sensor unit disposed at a center of an upper portion of the body and having a weight sensor for sensing the weight of the body;
A plurality of connecting rods, one end of which is fixedly connected to the upper end of the plurality of supports, and the other end is fixedly coupled to the sensor portion;
A suspension unit interposed between the body and the sensor unit to connect and fix the body to the sensor unit so that the body is directly connected to the weight sensor; And
And a measuring unit electrically connected to the weight sensor to receive information on the weight of the body from the weight sensor and to measure the amount of feed remaining. The method according to claim 1,
The suspension device includes:
A support portion provided in a strip shape along the outer periphery of the body,
A plurality of engagement portions annularly spaced along the support portion so that one end thereof is engaged with the support portion,
And a plurality of connection portions, one end of which is coupled to the plurality of coupling portions and the other end is coupled to the sensor portion so that the other end is directly connected to the weight sensor. The method of claim 2,
The body has an inverted conical lower end portion, a central portion disposed on the upper side of the lower end portion, and an upper end portion disposed on the upper side of the central portion and having an outer circumference larger than the outer circumference of the center portion, Lt; / RTI >
Characterized in that the support is fixed at its upper end to the step. The method according to claim 1,
Further comprising a plurality of rail portions provided on an outer surface of the body corresponding to the plurality of support rods and having rail grooves slidably engaged with the plurality of support rods. The method according to claim 1,
A transfer pipe connected to the discharge port of the body for transferring and receiving the feed,
Further comprising a conveying section connecting the outlet port to the conveying pipe and including a telescoping connection pipe. The method of claim 5,
The transfer unit
Further comprising at least one fixing block installed on the floor for fixing and supporting the lower portion of the conveyance pipe.

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