KR20180060040A - Load cell installation structure for weighing of feed storage tank - Google Patents

Abstract

The present invention relates to a load cell installation structure for measuring the weight of a feed container. According to the present invention, a rod-shaped crossbar is horizontally and separately connected to a multi-point lower side of a support leg for supporting a feed container, and a support member for supporting the crossbar to support the support leg of the feed container while floating the same on the ground, is fixed and installed on the ground. Also, one load cell connected to each end part of the crossbar, and fixed to the ground to allow the crossbar to receive load applied to the support leg for sensing the weight of the feed container, is installed at a lower center of the feed container where the support leg is positioned. Furthermore, the crossbar extends from the support leg of the feed container, and one load cell of a lower capacity compared to a ton level capacity of the feed container is connected to a load cell in the center or both sides where the feed container is positioned in a two-point lever manner. Accordingly, the weight applied by the amount of feed supply filled in the feed container is distributed and transferred to one load cell through the support leg floating on the ground and the crossbar for supporting the support leg, and thus, tensile load relatively applied to the load cell is sensed to be measured through a weight display. Accordingly, parts are reduced compared to a load cell installed in each support leg of an existing feed container, and the installation and maintenance of the load cell are more economically performed.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a load cell installation structure for weighing a feed bean,

The present invention relates to a load cell installation structure for weighing a feed bin, and more particularly, to a feed bin arranged to feed and store livestock feed, A load cell installation structure for measuring the weight of a feed bean so that it can be measured easily as a lever principle by a single low capacity load cell, .

In general, the system for supplying feeds to livestock such as poultry pigs is a feed system that feeds the livestock with the amount of feed discharged by a predetermined amount of time and is not supplied or supplied by the amount set by the self-diagnosis function It is notified to the user through self diagnosis of various sensors and connected to server that can be managed remotely, so that a feeding system that can be controlled from a remote place is managed and operated.

Feeds are fed and stored in a feed bin equipped with a feeder carrying feedstuffs on the farm side of the farmhouse, and the amount of feed stored in the feed bin is checked to systematically manage the feed rate.

That is, the initial feeding of the feed, the amount remaining after feeding the feed, the additional feed amount, and the like are checked through the weight display device provided on the feed empty side, and the ordering time of the feed and the amount of the feed order can be confirmed through these.

In order to detect and manage the total weight of the feed, a load cell is installed at the lower end of the leg supporting the feed bin so that the feed weights excluding the feed bin and the leg weight are stored in the load cell The junction box that collects the detected electrical signals into one place and the indicator that can display the electrical signal value from the junction box are calculated and displayed, Amount of use, etc. can be checked.

Conventionally, in the feed bin 1 shown in FIG. 1, the load cells 3 are respectively installed at the bottom of the foot leg 2 supporting the feed bin.

Since a load cell is installed at the lower part of the lower side fixing flange and the support leg of the feed bean is connected to the upper part of each load cell, the feed bean is put in the case of the already installed feed bean Heavy equipment such as a crane for lifting should be mobilized.

For reference, feed beans are simply heavy weights because they are produced in sizes ranging from 5 to 15 tons.

Therefore, in the installation portion of the load cells as described above, a lot of equipment must be mobilized when installed in the pre-installed feed bin. For example, when applied to a 15-ton feed bin, each load cell receives a load from each of the support legs Therefore, it is necessary to use a product that can detect the heavy weight of 5 tons or more, so installation of each load cell at the time of installation will be followed by economical burden as well as installation work.

On the other hand, when any one of the load cells installed at each of the multipoints is broken as described above, it is difficult to accurately measure the weight, and a lot of equipment must be mobilized again when the load cell is replaced.

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and an object of the present invention is to provide a feed bin for feeding and storing livestock feed, The present invention provides a load cell installation structure for measuring the weight of a feed bean so that it can be measured easily as a lever principle by a low capacity load cell, There is a purpose.

In order to accomplish the above object, according to the present invention, there is provided a rod-

A bar-type cross bar is connected to the lower side of the multi-point support leg supporting the feed bin, and a support member supporting the cross bar in the longitudinal direction lower side of the cross bar and lifting the support leg of the feed bin from the ground is fixed to the ground And a load cell connected to the respective longitudinal ends of the cross bar at the lower center of the feed bin in which the foot bridges are located and sensing the weight of the feed bin by receiving the loads applied to the foot bridges .

The load cell according to the present invention is provided with a receiving and fixing plate fixed to the ground, a fixed upper plate provided on the upper part, and a fastening groove for fixing the end portion of the cross bar and a fastening screw for fastening the fastening groove to the fixed upper plate, And a fixing bracket for supporting the end portion of the cross bar is fixed by a fastening screw.

The supporting member according to the present invention is characterized in that a fixing flange having a fixing hole is integrally formed as a fixing bolt on a lower circumferential portion of a body formed in a U shape and fixed to a ground surface, And a fixing bracket is fixed to the upper portion of the seating groove by a fastening screw for preventing the cross bar from coming off.

In the body having the seating groove according to the present invention, a slot having a predetermined distance is vertically formed, and a height adjustment plate is provided on a side of the body where the seating groove is formed to adjust the vertical height with respect to the seating groove, The fastening bolt is fastened to the height regulating plate by fastening the fastening bolt through the long hole.

The crossbars are attached to the lower side of the facing legs, respectively, and the load cells are connected to the ends of the crossbars to measure the weights of the feedbeds supported by the legs of the crossbars according to the present invention .

A load cell installation structure for weighing a feed bin according to the present invention is characterized in that a cross bar is extended from a feed bridge of a feed bin, and a load cell having a small capacity compared to a ton bar of a feed bin is disposed at a central point, So that the weight, which is weighted by the feeding amount of the feed stuffed in the feed bin, is transmitted to the load cell through one side of the support leg floated from the ground and the support leg to support the load cell, By sensing the receiving tensile load and measuring it through the weight display, it is possible to provide a more economical installation and maintenance of the load cell as well as a part saving effect as compared with the load cell provided for each supporting leg of the existing feed bin.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a front view schematically showing a state in which a load cell is installed on a support leg of a conventional feed bin;
FIG. 2 is a perspective view showing a state in which the load cell of the present invention is applied to a feed leg of a feed bin;
FIG. 3 is an exploded perspective view showing a state in which the load cell according to the present invention is installed,
FIG. 4 is a cross-sectional view showing a state in which the crossbars and the load cells of the feed legs of the feed bin according to the present invention are installed,
FIG. 5 is a side cross-sectional view showing a state where a support leg of a feed bin is lifted from the ground via a cross bar and a support member to a load cell according to the present invention,
FIG. 6 is a sectional view taken along the line II-II of FIG. 5 illustrating a state in which the supporting leg of the feed bin according to the present invention is prevented from upward departure;
FIG. 7 is a perspective view showing an embodiment in which a support member according to the present invention is applied;
FIG. 8 is a side sectional view showing the seating state of the cross bar on the receiving member in FIG. 7,
9 is a cross-sectional view illustrating a state where the load cell according to the present invention is installed at two points.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, 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 It should be interpreted in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It should be understood that various equivalents and modifications may be present.

The load cell installation structure for weighing feed bin according to the present invention is as shown in FIG.

A cross bar 10 of a rod shape is connected diagonally to the lower side of the multi-point support leg 2 supporting the feed bin 1, respectively.

The insertion of the cross bar 10 is carried out by forming an insertion hole 2b in the support leg 2 and connecting the cross bar 10 with the end of the cross bar 10 inserted into the insertion hole, It is preferable that the diameter is formed with a margin of 5 to 10 mm.

A support member 20 is mounted on the ground in a longitudinally lower portion of the cross bar 10 to support the support bar 2 of the feed bin from the ground while supporting the cross bar. The feed bin 1 has a load cell 30 connected to each end of the cross bar 10 and fixed to the ground so that the load applied to the feed bar is received and sensed through the cross bar .

The height at which the cross bar (10) is attached to the foot leg (2) is made higher than the height at which the load cell (30) is located. The difference in height between the upper portion of the load cell and the cross bar is preferably 10 to 20 mm.

The load cell 30 uses a load cell having a capacity of 5 tons or more and less than 10 tons or less when it is assumed that the feed bin is 15 tons, and the type that can detect both tension and compression is installed. In the present invention, the load is applied to the load cell (30) through the cross bar in a tension type through the cross bar (10).

The load cell 30 for sensing the weight of the feed bin 1 is provided with a support fixture plate 31 fixed to the ground and a fixed upper plate 32 provided thereon, A fixing bracket 33 for supporting the end portion of the cross bar 10 is fixed by a fastening screw S.

The fixing bracket 33 is formed in a semicircular shape in consideration of the cross sectional shape of the cross bar 10 and is fastened to both sides of the cross bracket 33 with a fastening groove 32a provided on the fixed upper plate 32 by a fastening screw S, Thereby supporting the cross bar 10 respectively.

The receiving member 20 is integrally formed with a fixing flange 20a having a fixing hole 20b for fixation with the ground as a fixing bolt B on the lower circumferential portion of the C-shaped body 21 A semicircular seating groove 21a for supporting the cross bar 10 is formed at the middle of the lengthwise side of the body and a fixing bracket 21a for preventing the upward movement of the bar 20 is provided at the upper portion of the seating groove 21a 25 are fixedly installed with a fastening screw S.

On the other hand, a long hole 21b having a predetermined distance is vertically formed in the body 21 on which the seating groove 21a according to the present invention is formed. On one side of the body 21 where the seating groove 21a is formed, And a height adjusting plate 22 which is vertically adjustable with respect to the mounting groove 21a to assist the support of the mounting bracket 10. The fixing bolt 23 is inserted into the height adjusting plate 22, And the height of the nut (N) is adjustable.

One surface of the height regulating plate 22 closely attached to one surface of the body 21 of the receiving member 20 is formed with a rough surface having a high frictional force with the body 21, It is preferable that the height regulating plate 22 is adjusted to a stable height from the body 21.

The height regulating plate 22 is formed on the upper surface with the same receiving groove 22a as the receiving groove 21a to support one side of the bottom of the cross bar 10.

6, the support leg 2 of the feed bin 1 according to the present invention has a fixing flange 2a provided at the lower end of the support leg before the connection between the cross bar and the load cell is provided from the ground So that the fixing flange 2a penetrating through the anchor bolt A and fastened and fixed by the nut N is prevented from upward displacement.

That is, the nut (N) is released only at a height of 20 to 30 mm with respect to the fixing flange so that the fixing flange (2a) can be moved with respect to the anchor bolt by 20 to 30 mm, .

As shown in FIG. 9, the mounting structure of the load cell 30 according to the present invention is a multi-point supporting leg 2, and the cross member 10 is provided with a supporting leg 2 And the load cell 30 is connected to the end of the opposing crossbar at two points so as to support the support leg 2 of the feed bin 1 so that the weighing can be performed.

As described above, since the fixing of the cross bar 10 with the fixing bracket 33 on the side of the load cell 30 is the same, the detailed description of the connection installation will be omitted herein.

The operation of the load cell according to the present invention constructed as described above will be described below.

First, a load cell 30 according to the present invention is fixedly installed on a ground surface of a ground located at the center lower center of the feed bin 1 on a ground surface.

The crossbars 10 are attached diagonally to four supporting legs 2 connected to the outer periphery of the feed bin 1 on the basis of the drawing and supporting the ground.

At the lower side of the cross bar 10 attached as described above, the support member 20 is positioned so that the lower side of the bar 10 can be supported in the seating groove 21a formed in the body 21 of the support member.

The support position of the support member 20 with respect to the cross bar 10 is supported so as to be close to the support leg 2 side as far as possible so that the support members are positioned at the same positions in all three remaining positions And the crossbars 10 at the four points are equally supported.

In the state where the cross bar 10 is mounted so as to cross the seating groove 21a of the support member as described above, the fixing bracket 25 is positioned from the upper portion of the seating groove 21a and fixed by the fastening screw S, 10 to the upper portion of the seating groove 21a.

As described above, the support member 20 is brought close to the support leg 2 to support the cross member 10 because the support leg 2 of the feed bin, which is heavy in weight, It is for easy lifting from the ground.

The above operation is carried out in such a manner that the inside of the feed bin is empty. When the support member 20 is supported so as to cross the cross bar 10, The nut N is released from the anchor bolt A fastened to the lower end fixing flange 2a for fixing the ground to the state where the support leg 2 is fixed.

The nut (N) is only loosened to a length of 20 to 30 mm with respect to the anchor bolt to prevent the upward displacement of the fixing flange (2a).

The other end of the cross bar 10 is positioned on the fixed upper plate 32 of the load cell 30 and the fixing bracket 33 is fastened and fixed in a state in which the end of the cross bar is pressurized in a leverage method.

The fixed upper plate 32 of the load cell 30 is positioned at a lower level than the end of the cross bar 10 so that when the end side of the cross bar is pressed downward, With respect to the seating groove 21a, the supporting leg 2 is pulled upward by the fixing flange 2a of the supporting leg 2 on the ground as a principle of the lever.

The fixing flange 2a of the foot leg 2 is lifted upward while passing through the anchor bolts A at the four points which are penetrated and the nut N filled in the anchor bolt is not lifted upward. That is, the fixing flange 2a is lifted from the ground.

The other end side of the cross bar 10 is clamped on the upper surface of the fixed upper plate 32 of the load cell 30 by using the fixing bracket 33 so that the end side of the cross bar 10 does not move, S, respectively, in the fastening groove 32a.

When the cross bar 10 is installed as described above, the fixing flange 2a of the support leg 2 is floated by about 20 to 30 mm from the ground. The weight of the feed bin 1 at this time, And the load is distributed to the load cell 30 through the cross bar 10 in a leaning manner in the leg 2.

When the cross bar 10 is fixed to the fixed upper plate 32 on the side of one load cell 30 in the above-described leverage mode, the fixed upper plate 32 of the load cell 30 is transmitted from the support leg 2 The load is pulled upward by the crosspiece (10) in a levered manner to the fixed top plate of the load cell (30), whereby the load cell produces a sense signal for the tensile force.

That is, the plurality of supporting legs 2 supporting the feed bin 1 are heard by the leverage principle of the cross bar 10, and the load applied thereto is connected to one load cell 30, and based on the tensile force sensed by the load cell The weight of the current feed bin is detected, and the detected signal is usually displayed on the weight display provided on the feed bin side.

The weight of the feed fed to the feed bin after the weight of the feed bin before the feed is filled is adjusted to zero by the weight of the signal sensed by the one load cell 30 through the indicator The amount of feed, the amount of the feed, and the like can be checked.

7 and 8, a height adjustment plate 22 is installed on one side of the support member 20 to support the cross member 20a crossing the seating groove 21a, (10) in the support groove (22a) of the height regulating plate (22).

The height adjustment plate 22 is adjusted to the body side elongated hole 21b of the fastening bolt 23 in a state in which the height adjusting plate 22 closely contacts the body 21 of the receiving member 20 with respect to the height of the mounting groove 21a, The distance between the end portions of the cross bar 10 is adjusted with respect to the fixed upper plate 32 of the load cell 30 so that the cross bar 10 is pressed against the support bar 2, It reminds me in a way. This is achieved by adjusting the extent to which the feed leg 1 presses the supporting leg 2 against the weight difference between the lever 10 and the load cell 30 by connecting and fixing the cross bar to the load cell 30, You can adjust the amount of tensile load you receive.

FIG. 9 is a structure for sensing the weight of the feed bean according to the present invention by using two load cells 30 instead of one, When a load cell is not desirably installed, the cross bar 10 is installed on the support leg 2 of the feed bin in a mutually opposed form not diagonally as described above, Can be connected to the load cell 30 and fixedly supported by the fixing bracket 33, so that the weight of the feed bin can be measured even with a relatively small number of load cell installation structures.

As a result, in the installation structure of the load cell according to the present invention, the crossbars and the support members are installed on the support legs supported by the feed beans so that the feed beans can be easily lifted, and the crossbars are connected to the load cells , The relative force for pulling the load cell as a crosspiece relative to the support member based on the weight of the feed fed to the feed bin or the feed bin is measured by setting the weight of the feed as one or two load cells, This makes it possible to construct a feed bean. Furthermore, it provides an advantage that the load cell can be installed and operated in a new or existing feed bin without using heavy equipment such as a crane at maintenance.

As described above, the present invention has been described with reference to particular embodiments, such as specific elements, and specific embodiments and drawings. However, it should be understood that the present invention is not limited to the above- And various modifications and changes may be made thereto by those skilled in the art to which the present invention pertains.

Accordingly, the spirit of the present invention should not be construed as being limited to the embodiments described, and all of the equivalents or equivalents of the claims, as well as the following claims, belong to the scope of the present invention .

1: feed bin 2:
10: cross bar 20:
20a: Fixing flange 21: Body
21a: seat groove 21b: slot
22: height adjustment plate 22a:
23: fastening bolt 25: fastening bracket
30: load cell 31:
32: fixed upper plate 32a: fastening groove
33: Fixed bracket A: Anchor bolt
S: Tightening screw N: Nut

Claims (5)

A bar-type cross bar is connected to the lower side of the multi-point support leg supporting the feed bin, and a support member supporting the cross bar in the longitudinal direction lower side of the cross bar and lifting the support leg of the feed bin from the ground is fixed to the ground And a load cell connected to the respective longitudinal ends of the cross bar at the lower center of the feed bin in which the foot bridges are located and sensing the weight of the feed bin by receiving the loads applied to the foot bridges Load cell installation structure for weighing of feed bean characterized.
The method according to claim 1,
The load cell is fixed to the ground by a support fixture plate provided at the lower part thereof, and a fixed upper plate is provided at the upper part thereof. The fixed top plate is screwed into the fastening groove for fastening the end portion of the cross member and the fastening screw, Wherein a fixing bracket for supporting the load cell is fixed by a fastening screw.
The method according to claim 1,
The support member
A fixing flange having a fixing hole is integrally formed as a fixing bolt on a lower circumferential portion of a U-shaped body, and a semicircular seating groove for supporting the cross bar is formed at the middle of the upper side of the longitudinal side, And a fixing bracket fixed to the upper portion of the seating groove by a fastening screw to prevent a deviation of the cross bar.
The method of claim 3,
Wherein a slit having a predetermined distance is vertically formed in a body formed with the seating groove and a height adjusting plate is provided on a side of the body where the seating groove is formed to adjust the height of the body with respect to the seating groove, Wherein the height adjustment plate is fixedly installed as a fastening of a nut through a long hole through a fastening bolt.
The method according to claim 1,
Wherein the crossbars are attached to the lower side of the opposing support legs on the multi-point support legs, and the load cells are connected to the ends of the crossbars to support the support legs of the feed beans, Load cell mounting structure for weighing.

Images