KR102131135B1 - Feed bin fixing devide eapable of weighing - Google Patents

Abstract

The present invention relates to a feed bin fixing device capable of weighing, comprising: a plurality of pillars (3) mounted around the outside of a feed bin (1) and vertically fixed to an installation place to install the feed bin (1); a base plate (40) positioned on one side of each of the pillars (3) and fixed to a base surface (E) of the installation place; a load cell (50) having a cantilever shape so that a measurement unit (52) extended from a fixing unit (51) can measure the weight of the feed bin (1) and to which the fixing unit (51) is fixed on a base plate (40) so that the measurement unit (52) is close to or in close contact with the pillar (3) of the feed bin (1); a bracket (60) fixed in a state mounted on the measurement unit (52) of each of the load cells (50) and fixing the pillar (3) supporting the feed bin (1) so that the weight of the feed bin (1) is applied to the load cell (50) while the pillar (3) is lifted from the base surface (E) of the installation place; a lifting bolt (70) mounted on the pillar (3) so that the pillars (3) of the feed bin (1) can be lifted from the base surface (E) of each installation place and fastened to each bracket (60) corresponding thereto; a lifting nut (80) for fastening and fixing the lifting bolt (70) to the bracket (60); and a binding member (90) integrally fixed to the bracket (60) and surrounding the load cell (50) when the bracket (60) is mounted on the load cell (50) so that the bracket (60) does not flow in the load cell (50).

Description

Feed bin fixing devide eapable of weighing

The present invention relates to a feed bin fixing device capable of measuring the weight of a feed bin and measuring the current weight of the feed stored therein, and more specifically, to the base surface of the installation place corresponding to each pillar. A bracket is mounted on the measurement part of the load cell to be installed, and the pillar of the feed bin is mounted on this bracket so that it can be adjusted up and down. When used, each pillar is slightly lifted from the base surface of the installation place so that all the weight of the pillar is applied to the load cell. By installing a conventional feed bin that is already in use without a bracket on the load cell, it is possible to install it as it is without cutting the pillars, and after installation, adjust the height of each pillar before use to uniformize the weight of the feed bin applied to the load cell. It is possible to simply perform the zero point adjustment work, and even if the load cell is damaged due to long-term use after zero point adjustment, the column mounted on this load cell is lowered vertically by being constrained by its lifting bolts to the bracket to the base surface of the installation site. It can be safely landed and secured by not dropping the huge weight chain feed bin, and furthermore, the bracket fixed to the load cell is wrapped around the load cell and fixed so that it does not flow laterally. It relates to a feed bin fixing device capable of measuring the weight so that the fixed feed bin is maintained in a stable and stable state during use.

1 to 2, the feed bin 1 is composed of a tank shape with a wide upper portion and a narrow lower portion to store powder-type feed therein, and a supply pipe 2 connected to the lower outlet 1a. ) Is a feeder that extends inside the barn and supplies it to livestock being raised there, such as chickens or pigs.

The feed bin (1) is a huge weight body, but also has a narrow bottom, and it is required to stably install the feed bin (1) as the supply pipe (2) is connected to the outlet (1a) located at the lower end. . The conventional installation form of the feed bin 1 is fixed to a plurality of pillars 3 in the vertical direction on the outside of the feed bin 1, and the lower end of the pillar 3 is fastened to the foundation surface using anchor bolts. Soured.

1 to 3 show that a conventional feed bin 1 is installed, and a load cell for measuring the weight of the feed bin 1 is not used. For reference, in this specification, for convenience of explanation, it will be described, for example, that the feed bin 1 supplies the feed for poultry.

As can be seen in FIG. 3, the feed bin 1 of the early days of the prior art is fixed to the bottom plate 3a by welding at the bottom of a plurality of pillars 3 mounted vertically on the outer periphery, and this bottom plate 3a These were inserted into anchor bolts (B) embedded in the base surface (E) of the installation place and fastened with nuts (N) to fix the columns (3).

In this way, the feed bin 1 installed by the pillar 3 feeds the feed stored therein to the feed bin disposed in the house using the feed pipe 2 connected to the lower outlet 1a to breed the poultry. The feed was fed in such a way that the container was continuously filled when it was empty or when the feed was almost exhausted.

However, since the feed bin 1 is not equipped with a measuring means for measuring the feed amount, it was not possible to measure the feed amount supplied to the poultry in one day or the feed amount supplied to the poultry during a specific period. Moreover, even in the early poultry farms, when the feed was exhausted, the feed was immediately filled, so there was no need to measure the amount of feed supplied to the poultry during a specific period.

The reality of poultry farms is that chickens are kept densely in a narrow barn space, so chickens have weakened immunity and are exposed to diseases. It has become a social problem, such as being collectively killed.

When poultry suffers from disease, the appetite decreases and feed intake decreases.If the feed reduction can be accurately quantified in the early stage of the onset, if the disease is known immediately and treatment is performed with appropriate treatment means such as drugs, the whole poultry raised in the same house Prevents infection and can reduce the damage to be killed. However, since the conventional feed bin 1 is not equipped with a measuring means capable of weighing feed, such as a load cell, it is impossible to identify how much the feed consumption has been reduced or reduced if it has been reduced in the early stages of poultry farming. Therefore, most people do not even know the fact of the outbreak, and after a long time after the onset, they suffered damage and were unable to prevent the damage by confirming the outbreak.

Since poultry farms who have experienced such damage do not have a separate means for weighing feed, to reduce the damage caused by the disease, they put the selected weight when filling the feed bin (1) and measure the period of consumption of the feed. Although consumption was measured during the period, this measurement method took a lot of time to measure, so it was not possible to know exactly the initial stage of the onset, but even if the early stage of the onset was known, it was not possible to prevent the damage, ie, a post-mortem visit.

Due to these problems, recently, a technology has been developed to install a load cell under the feed bin (1) to check feed consumption in real time. More specifically, as shown in FIG. 4, the base plate 4 is fixed to the upper portion of the base surface E with anchor bolts B, and the load cell 5 is fixed to the upper portion of the base plate 4 with bolts B1. The bottom of each pillar (3) of the feed bin (1) is positioned above the measuring part (52) of the load cell (5) corresponding to it, and then fastened with bolts (B2) to raise each pillar (3) vertically. (1) was installed.

Since the feed bin 1 is installed in a state where the feed is not filled, the corresponding column 3 is mounted on the measuring unit 52 of each load cell 5, and thus, after installing the column 3, the feed bin 1 By checking the measured value of each load cell 5 to which the weight of is applied, it is necessary to essentially perform the zero point adjustment operation to match the average value. The reason is that even when the feed bin 1 is vertically installed, the weight of each load cell 5 equipped with these pillars 3 is also not measured evenly because the weights are not uniformly applied to the plurality of pillars 3. Will be different. Therefore, it is necessary to proceed with the zero point adjustment operation in which the measured values of all the load cells 5 are matched to the average value. The zero point adjustment operation uses a standard weight. The lexical meaning of the standard weight is the standard weight of the balance that has been tested by the country and is within the set tolerances. For example, if a standard weight of 20 kg is mounted on each pillar 3, the measured value of each load cell 5 becomes 20 kg + the weight value X of the feed bin 1, so the weight value of the feed bin 1 ( X). That is, if the value measured by any one load cell 5 is 320 kg, it can be easily seen that the weight value of the feed bin 1 is 300 kg. Therefore, by operating the separate controller C as shown in FIG. 5 connected to the load cell 5, artificially matching the weight value X of the feed bin 1, the current measured values of all the load cells 5 are equal to the average value. By adjusting the zero point, the installation of the feed bin 1 is finally completed. If the standard weight is not used, the reference value cannot be specified, so zero adjustment is not possible.

The conventional method for installing a feed bin using the load cell 5 has a problem in that it is impossible to use the pillar 3 of the conventional feed bin 1, which was installed longer in the manner of FIGS. 1 to 3, as it is. As already described, the supply pipe 2 for supplying food to the poultry is mounted at the lower part of the feed bin 1, so that the height of the pillar 3 is initially installed to prevent damage to the supply pipe 2 Should be. In the conventional feed bin 1 installation method of FIG. 4, since the base plate 4 is installed on the top of the base surface E, and the load cell 5 is installed on the base plate 4 in a stacked manner, the load cell from the base surface E is installed. 5) The height to the upper part is approximately 20 cm, and in order to mount the conventional pillar 3 on the load cell 5, the pillar 3 must be lifted at least 20 cm or more. In this process, the supply pipe (2) connected to the outlet (1a) may be damaged or damaged by receiving a shear load, and also requires heavy equipment to lift the huge weight chain feed bin (1). There is a dangerous problem that a large accident occurs when the feed bin 1 falls over the process of lifting the heavy feed bin 1 above all.

Therefore, in order to use the conventional pillar 3 mounted on the load cell 5, the lower end of the pillar 3 is cut by 20 cm, and then the lower portion is cut to fasten and fix the pillar 3 to the load cell 5. The bottom plate 3b was fixed by welding. Therefore, there was a cumbersome problem that requires cutting the pillar 3 and fixing the bottom plate 3b.

In addition, in the conventional feed bin installation, since the pillar 3 is fastened and fixed to the measuring unit 52 of the load cell 5 with a bolt B2, the load cell 5 composed of a cantilever beam due to long support of the feed bin 1 When the measurement unit 52 of the column is broken, the column 3 is released from the fixed state and descends downward. In this state, when the ground subsidence occurs, the deflection is not only deepened, but also shakes whenever the wind blows. When this phenomenon is repeated, the feed bin 1 is inclined in the direction in which the sagging phenomenon occurs, affecting other load cells 5, and the neighboring load cells 5 are also continuously broken in a chain reaction, resulting in the feed bin 1 There was a serious problem that caused a secondary safety accident because the heavy wind, such as a typhoon, falls and breaks when it is blown.

Republic of Korea Patent Publication No. 10-2014-0022793 (released on February 25, 2014)

Accordingly, the present invention is to solve all the problems of the conventional feed bin installation device as described above, the purpose of which is to mount and fix the bracket on the measuring part of the load cell installed on the base surface of the installation place corresponding to each pillar, and this bracket The column of feed bins can be mounted on the load cell to adjust the height, so when used, each column is slightly lifted from the base surface of the installation place so that all the weight of the column is applied to the load cell. It is to provide a feed bin fixing device capable of weight measurement that can be installed as it is without cutting the pillar when mounted and installed.

Another object of the present invention is to adjust the height of each post before use after installing the feed bin, and a feed bin fixing device capable of weight measurement that can easily perform a zero point adjustment operation to uniformly weight the feed bin applied to the load cell. In the offer.

Another object of the present invention is that the load cell is damaged due to long-time use after adjusting the zero point of the installed feed bin, and the column mounted on this load cell is secured to the base surface of the installation site by descending vertically with its lifting bolts constrained to the bracket. It is to provide a feed bin fixing device capable of measuring the weight to ensure safety by not falling over the huge weight chain feed bin.

Still another object of the present invention is to fix the bracket fixed to the load cell so that it does not flow in the lateral direction by mounting the load cell, so that the pillar accommodated therein and the feed bin fixed to the pillar maintain a safe and stable state during use. It is to provide a feed bin fixing device capable of weighing.

One embodiment of the feed bin fixing device capable of measuring the weight according to the present invention for achieving the above object is mounted around the outside of the feed bin (1) and vertically fixed to the installation place to install the feed bin (1) Become a plurality of pillars (3);

A base plate 40 located on one side of each pillar 3 and fixed to the foundation surface E of the installation place;

The measurement part 52 extending from the fixing part 51 has a cantilever shape so as to measure the weight of the feed bin 1, and the measuring part 52 is close to the pillar 3 of the feed bin 1 A load cell 50 in which the fixing part 51 is fixed on the base plate 40 so as to be in close contact with each other;

Places are installed in a state mounted on the measuring unit 52 of each load cell 50, and a pillar 3 supporting the feed bin 1 is installed so that the weight of the feed bin 1 is applied to the load cell 50. A bracket 60 fixed in a lifted state from the foundation surface E;

The lifting bolts 70 mounted on the pillars 3 so that the pillars 3 of the feed bin 1 can be lifted from the base surface E of each installation place and fastened to each bracket 60 corresponding thereto. ); And

It includes; a lifting nut 80 for fastening and fixing the lifting bolt 70 to the bracket 60.

Another embodiment of the feed bin fixing device capable of weighing according to the present invention is mounted on the outer periphery of the feed bin (1), and a plurality of pillars (3) vertically fixed to the installation place to install the feed bin (1) );

A base plate 40 located on one side of each pillar 3 and fixed to the foundation surface E of the installation place;

The measurement part 52 extending from the fixing part 51 has a cantilever shape so as to measure the weight of the feed bin 1, and the measuring part 52 is close to the pillar 3 of the feed bin 1 A load cell 50 in which the fixing part 51 is fixed on the base plate 40 so as to be in close contact with each other;

Places are installed in a state mounted on the measuring unit 52 of each load cell 50, and a pillar 3 supporting the feed bin 1 is installed so that the weight of the feed bin 1 is applied to the load cell 50. A bracket 60 fixed in a lifted state from the foundation surface E;

The lifting bolts 70 mounted on the pillars 3 so that the pillars 3 of the feed bin 1 can be lifted from the base surface E of each installation place and fastened to each bracket 60 corresponding thereto. );

A lifting nut 80 for fastening and fixing the lifting bolt 70 to the bracket 60; And

A binding member 90 that is integrally fixed to the bracket 60 and wraps the load cell 50 when the bracket 60 is mounted on the load cell 50 to constrain the bracket 60 from flowing in the load cell 50; It includes.

The bracket 60 of the present invention is a side member 62 is bent from the both ends of the front member 61 to the rear to accommodate the pillar 3, the lower portion of the front member 61 to the top of the load cell 50 The front arm 61a is bent so that it can be mounted and fastened and fixed with a bolt B2, and the side of the side member 62 passes through the lifting bolt 70 to fasten and fix it with the lifting nut 80. The arm 62a is bent.

The lifting bolt 70 mounted on the pillar 3 of the present invention is fixed to the lower pedestal 3a of the pillar 3 and penetrates the side arm 62a of the bracket 60 to penetrate the upper side arm 62a. The column 3 is raised or lowered according to the forward and reverse rotation of the lifting nut 80 fastened in.

The binding member 90 of the present invention is fixed integrally so as to protrude on both sides of the bottom surface of the front arm (61a) to be able to constrain the side of the load cell 50.

The weight measuring feed bin fixing device according to the present invention configured as described above is equipped with a bracket mounted on a load cell installed on one side of a pillar, and after fastening and fixing the pillar on the bracket, rotate the lifting nut to tow the pillar to the top to feed the bin. Since the weight of is applied to the load cell as it is, there is an advantage that it is possible to install the load cell without cutting the conventionally used pillar.

In addition, according to the present invention, when the lifting nuts are fastened to the lifting bolts mounted on the pillars, and the positive and negative rotation of the lifting nuts causes the pillars to move up or down, the zero point that matches the weight of the feed bin applied to each load cell as an average value before use When adjusting, the height of each column can be adjusted by rotating the elevating nut, so that the measured values of all the load cells can be easily matched. When adjusting the zero point, there is no need to use a controller that has been used in the prior art, reducing the installation effort and reducing It has the advantage of expecting cost savings.

In addition, in the present invention, even if the load cell is damaged during use, the pillar supported by the load cell is secured because its lifting bolt is restrained to the bracket and descends vertically to safely land on the foundation surface of the installation site, so that the feed bin does not fall. It has the advantage of securing.

In addition, the present invention is mounted on the load cell and the bracket for fixing the pillar and the feed bin fixed to the pillar is fixed while wrapped around the load cell and does not flow, so that the feed bin is not shaken in the lateral direction during use, thereby maintaining a safe fixed state. Has an advantage

1 is a photograph showing a conventional feed bin installation state
Figure 2 is a conceptual view showing the feed bin installation state of Figure 1 from the front
Figure 3 is a detailed view showing the assembled state of the column by expanding the inside of the lower right circle of Figure 2
Figure 4 is a front sectional view showing a state in which the pillar of the feed bin according to another conventional embodiment is installed
Figure 5 is a picture of the controller used to adjust the zero point in the process of installing the feed bin of Figure 4
Figure 6 shows the feed bin installation process according to the present invention, a front sectional view showing a state in which the base plate located on one side of the pillar is fastened and fixed to the anchor bolt protruding from the base surface
7 is a front sectional view showing a state in which a load cell is fixed on the base plate of FIG. 6, and a bracket is mounted and fixed to the load cell to receive a column therein.
8 is a front sectional view showing a state in which the lifting nut is fastened to the upper end of the lifting bolt installed on the bottom plate of the pillar of FIG. 7 to constrain the lifting bolt
Figure 9 is a front sectional view showing a state in which the assembly is completed by rotating the lifting nut of 8 to pull the pillar upwards so that the weight of the feed bin is applied to the load cell.
10 is a plan view of FIG. 9
11 is a plan view showing that the binding member formed on both sides of the front arm of the bracket according to the present invention is fixed in a state surrounding both sides of the load cell
Figure 12 is a right side view showing that the binding member formed on both sides of the front arm of the bracket according to the present invention is fixed in a state surrounding both sides of the load cell
13 is a picture of the actual product in which the feed bin fixing device according to the present invention fixes the pillar.

Hereinafter, with reference to the accompanying drawings, a configuration of a feed bin fixing device capable of weighing according to the present invention and its use state will be described in detail.

Feed bin fixing device 100 capable of weighing according to the present invention is a base plate fixed to a pillar (3) fixed to the feed bin (1), a base surface (E) of the installation location, as can be seen in the above drawings. (40), a load cell 50 for measuring the weight of the feed bin 1, a bracket 60 for fixing the pillar 3 in a state mounted on the load cell 50, towing the pillar 3 to the top It includes a lifting bolt 70 and the lifting nut 80 to lift.

In addition, the feed bin fixing device 100 capable of weighing according to the present invention is mounted on a load cell 50 to further form a binding member 90 on a bracket 60 for fixing the pillar 3, and this binding member (90) wrapped around the side of the load cell (50) so that the bracket (60) does not flow in the lateral direction, so that the pillar (3) accommodated inside the bracket (60) and the feed bin (1) fixed to the pillar (3) This includes preventing swaying laterally during use.

A plurality of the pillars 3 are mounted around the outer circumference of the feed bin 1 and are vertically fixed to each installation place in order to install the feed bin 1. The pillar 3 can use the pillar 3 of the conventionally installed feed bin 1, and the newly installed feed bin pillar can be used as a matter of course. As described in the solving means and effects portion of the subject matter of the specification, the present invention has an advantage of simplifying the installation when the pillar 3 installed in the existing feed bin 1 does not need to be cut. . As for the pillar 3 used, the bottom plate 3a having a larger area than the diameter of the pillar 3 is fixed to the lower end by welding or the like. This bottom plate (3a) is previously embedded in the base surface is fastened to be able to move up and down in a state in which the anchor bolt (B-1) used in the prior art is fitted. The bottom plate (3a) is fixed to the bracket 60 in a state to be pulled upward so that all the weight of the pillar (3) is carried on the load cell 50, as shown in Figures 9 to 12, the bottom surface of the base (E) It is completely separated from, and in this state, it is inserted into a conventional anchor bolt (B-1) embedded in the base surface (E) so that the pillar (3) does not move laterally, and is fastened and fixed with a nut (N-1). The nut (N-1) is fastened so as not to contact the bottom plate (3a) so that this fastening force does not affect the load cell (50). Then, only the weight of the pillar 3 and the feed bin 1 is applied to the load cell 50 and the fastening force of the nut N-1 is not transmitted to the load cell 50, so that the subject of the present invention can be achieved, and used Even during a typhoon, the pillar 3 does not move in the lateral direction, thereby maintaining a stable state.

In addition, the through hole 3c is formed at a position corresponding to the fastening hole 60a of the bracket 60 so that the bolt B3 is penetrated and fixed to the bracket 60 in the assembly process. do.

The base plate 40 is located on one side of each pillar 3 as shown in the drawing, and is fixed with an anchor bolt (B) and a nut (N) on the base surface (E) of the installation place. The base plate 40 is formed with a screw hole 41 to fix the load cell 50 with a bolt (B1).

The load cell 50 is to measure the weight of the feed bin (1), a known one is used. The load cell 50 is provided with a fixing part 51 on one side, and a measuring part 52 extending from the fixing part 51 is extended in a cantilevered form so as to measure the weight of the feed bin 1, the above The measuring unit 52 is fixed on the base plate 40 so as to be close or close to the pillar 3 of the feed bin 1. In the load cell 50, the fixing part 51 is fastened and fixed to the base plate 40 by bolts B1. Therefore, a plurality of load cells 50 are used because they correspond to each pillar 3 supporting the feed bin 1. A fastening hole 53 is penetrated to the fixing part 51 so that a bolt B1 can be inserted at a position corresponding to a screw hole 41 of the base plate 40, and a bracket 60 is provided to the measuring part 52. ), the screw hole 54 is formed to be fixed with a bolt (B2).

Each load cell 50 used measures the weight value exerted by the column 3 on which it is mounted and sends it to an indicator (not shown) connected to them, and the indicator displays the average value of the received value to display the current feed bin ( The weight of 1) is displayed in real time. Therefore, each time the feed is discharged from the feed bin 1, it is possible to check the current weight of the feed bin 1, so it is possible to check in real time the amount of feed the chickens eat every day or the amount of feed they eat at a specific time.

Therefore, if poultry are infected with the disease and do not eat feed at the beginning of the outbreak, the consumption of feed is significantly reduced from the day before. It can be prevented from spreading.

The bracket 60 is fixed in a state mounted on the measuring unit 52 of each load cell 50, and the pillars 3 supporting the feed bin 1 so that the weight of the feed bin 1 is applied to the load cell 50 ) Is fixed in the lifted state from the base surface (E) of the installation site.

In the bracket 60, the side member 62 is bent from the both ends of the front member 61 to the rear to accommodate the pillar 3, and the measuring unit of the load cell 50 is located below the front member 61 ( The front arm 61a is bent so as to be mounted on the bolt 52 and fastened with a bolt B2, and the lifting bolt 70 is penetrated under the side member 62 to be fastened with the lifting nut 80. The side arm 62a is bent so that it can.

The bracket 60 is a fastening hole to fix the pillar 3 to the front member 61, or the side member 62, or both the front member 61 and the side member 62 with bolts (B3) ( 60a) is penetrated. The front arm (61a) is a front through-hole (61a-1) is formed so that the bolt (B2) can be penetrated, the side arm (62a) is a side through-hole (62a-) through which the lifting bolt (70) can be penetrated 1) is formed.

The bracket 60 is composed of a thick metal material capable of maintaining sufficient strength since the front member 61, the side member 62, the front arm 61a, and the side arm 62a support the pillar 3 It is good, and it is installed outdoors, so it is good to use stainless steel resistant to oxidation. In particular, the front member 61 is mounted on the load cell 50 and serves to substantially support the weight of the feed bin 1, so it is preferable to have a large area.

The elevating bolt 70 and the elevating nut 80 fastened to the elevating bolt 70 are lifted from the base surface E by lifting the pillar 3 from the base surface E before fixing the pillar 3 to the bracket 60 with a bolt B3. An important element constituting the present invention together with the bracket 60 by guiding the position where the weight of 1) can be carried on each load cell 50 corresponding thereto and then fastened and fixed to each bracket 60 to be.

The lifting bolt 70 is vertically fixed to the bottom plate 3a assembled to the bottom of the pillar 3 and installed in parallel with the pillar 3, the side through hole of the side arm 62a of the bracket 60 ( It is installed on both sides around the pillar 3 so as to penetrate 62a-1). The lifting bolt 70 is to be fixed by welding because it must be securely fixed to the bottom plate (3a) of the pillar (3) because the pillar (3) must be towed to the top.

Since the elevating bolt 70 and the elevating nut 80 serve as traction means for towing the pillar upward, technologies corresponding to this or replaceable will be included in the technical scope of the present invention.

The binding member 90 is integrally protruding on both sides of the bottom surface of the front arm 61a of the bracket 60, as shown in FIGS. 11 to 12, when the bracket 60 is mounted on the load cell 50 and fixed, the load cell 50 Wrap the side so that the bracket 60 does not flow in the lateral direction so that the pillar 3 accommodated inside the bracket 60 and the feed bin 1 fixed to the pillar 3 are not shaken laterally during use will be. The binding member 90 can be formed integrally with the bracket 60 by welding after being inserted into the assembly holes 61a-2 penetrated on both sides of the front arm 61a. In addition, there may be a variety of means for fixing the binding member 90 to the bracket 60, and the means are to fix the binding member 90 to the front arm 61a after all, thus fixing the binding member 90 of the present invention. Since it is replaceable with a means, it will be included in the technical scope of the present invention.

The binding member 90 configured as described above is in close contact with both sides of the load cell 50 so that the bracket 60 does not move in the lateral direction, and thus the bracket 60 is securely fixed. Therefore, the pillar 3 fixed to the bracket 60 and the feed bin 1 fixed to the pillar 3 do not move laterally even when a typhoon blows.

The following is a detailed description of the assembly process of the feed bin fixing device 100 capable of weighing according to the present invention with reference to FIGS. 6 to 9.

The present invention can be applied to a conventional feed bin (1), and of course, to a new feed bin. In the case of the conventional case, when installing the feed bin (1), the foundation surface (E) is poured with concrete on the bottom of the installation site, so the anchor bolt (B) is installed on the foundation surface (E) on one side of the pillar (3) and then the base plate After the (40) is seated on the base surface (E) so that it fits into the anchor bolt (B), the protruding part of the anchor bolt (B) is fastened with a nut (N) to attach the base plate (40) to the base surface (E). To fix. The anchor bolt (B) is preferably installed at least four or more to fit on the edge of the base plate 40.

After fixing the base plate 40 to the base surface E, the fastening hole 53 penetrated through the fixing portion 51 of the load cell 50 and the screw hole 41 of the base plate 40 are fixed. After matching, fasten with a bolt B1 to fix the load cell 50 on the base plate 40. In this case, the end of the measuring unit 52 of the load cell 50 is brought into close contact with or close to the pillar 3.

After fixing the load cell 50 as described above, the front arm 61a of the bracket 60 is mounted on the load cell 50 measuring unit 52, and the screw hole 54 and the front arm 61a of the load cell 50 are mounted. The front penetration hole 61a-1 is matched, and the bracket 60 is arranged such that the lifting bolt 70 penetrates the side penetration hole 62a-1 of the side arm 62a. Then, the bolt B2 is fastened to the screw hole 54 of the load cell 50 to fix the bracket 60 on the top of the load cell 50. Then, the pillar 3 is accommodated between the front member 61 and both side members 62 of the bracket 60, and preparations for fixing the pillar 3 are completed. In this state, since the pillar 3 has not been towed upward, the bottom plate 3a of the pillar 3 is brought into contact with the foundation surface E.

When the bracket 60 is mounted on the load cell 50 as described above, the binding member 90 fixed to protrude to the lower portion of the front arm 61a is wrapped in close contact with the side surface of the load cell 50 so that the bracket 60 is lateral It will not shake.

In this state, when the lifting nut 80 is fastened to the lifting bolt 70 exposed to the upper part through the side through-hole 62a-1 of both side arms 62a, and when the lifting nut 80 is continuously rotated, The pillar 3 is pulled upward by the support force of the bracket 60, and is lifted to a state as shown in FIGS. 9 and 12. At this time, the height drawn to the upper portion is about 1 to 2 cm from the base surface E so that the supply pipe 2 is not damaged.

When the installation height of each pillar 3 is determined as described above, the fastening hole 50a penetrated through the front member 61 and the side member 62 of the bracket 60 is formed with a screw hole 3c previously formed in the pillar 3. ), so as to fasten them and fix the pillar 3 to the bracket 60, the assembly of the present invention is completed.

After the assembly is completed, since all the pillars 3 are mounted on each load cell 50, the zero adjustment of the load cell 50 must be performed. When the standard weights are sequentially mounted on each pillar 3 that has been assembled, the load cell 50 sends the weight of the weight of the standard weight and the weight of the feed bin 1 actually applied to the indicator connected thereto, and the indicator The measured value is displayed. The worker sequentially calculates the average value by checking the weight value displayed on the indicator. That is, if four load cells 50 are used, the average value of the measured values measured by the four load cells 50 is calculated, and when the measured value measured by any load cell 50 is larger than the average value, the load cell 50 is mounted. Since the height of the pillar 3 is higher than that of the other pillars 3, the height of the pillar 3 is lowered by releasing the lifting nuts 80 fastened to the lifting bolts 70 located on both sides of the pillar 3 Since the value is lowered, the height of the pillar 3 is appropriately lowered to match the average value.

Conversely, if the measured value of a load cell 50 is smaller than the average value, it means that the height of the pillar 3 mounted on the load cell 50 is lower than that of the other pillars 3, so that both sides of the pillar 3 When the height of the column 3 is increased by winding the lifting nuts 80 fastened to the lifting bolts 70 located at the height of the column 3, the height of the column 3 is appropriately increased to match the average value.

As a further relief chuck, assuming that four pillars 3 supporting the feed bin 1 are used, the standard weight of 20 kg is sequentially mounted on each pillar 3 where the assembly is completed, and then loaded from each load cell 50. Suppose that the measured value was 323 kg/326 kg/321 kg/318 kg. Since the measurement reference value is the weight of the standard weight, the weight of the feed bin 1 actually applied to each load cell 50 is 303/306kg/301kg/298kg, so their average value is (303+306+301+ 298)/4=302 kg.

Since the feed bin (1) is located on the top of the pillar (3) and presses the pillar (3), it means that one pillar is higher than the other pillars, so that the feed bin (1) is heavily loaded, and one pillar is lower than the other pillars. That means that the load of the feed bin 1 is small. This phenomenon is caused by a large number of tall and small people lined up, and when a large, straight log is placed on each shoulder, the log is severely touched by the shoulder of a tall person, causing a heavy load on that person's shoulder. It is the same as putting a light load on a person's shoulder because a log is weakly touching the person's shoulder. Therefore, if a tall person lowers his posture and aligns it horizontally with the shoulder of a lower person, the log loads evenly on every person's shoulder, so he can level it.

Accordingly, according to this principle, after removing the standard weight mounted on the pillar 3, the lifting nut fastened to the lifting bolt 70 on both sides of each pillar 3 so that the measured value of each load cell 50 is 302 kg. When the height of the pillar 3 is selectively adjusted by forward and reverse rotation of 80), the measurement value of all the load cells 50 becomes 302 kg, so that zero adjustment can be easily performed. Therefore, the present invention does not require a controller that is conventionally used when zeroing.

The present invention configured as described above is to fix the pillar (3) of the feed bin (1) to the bracket (60) mounted on the load cell (50), the pillar (3) with a lifting bolt (70) and lifting with it By pulling the nut 80 to the upper portion so that the weight of the pillar 3 is applied to each load cell 50, the point that the conventional pillar 3 can be used without cutting, the height of each pillar 3 It is possible to simply perform the zero point adjustment operation to uniformly adjust the weight of the feed bin (1), even if the load cell (50) is damaged during use, the lifting bolt (70) is constrained to the bracket (60) in a vertical state. The bracket 60 fixed to the load cell 50 is secured to the load cell 50 by securely landing on the base surface E of the installation site by descending to securely support the feed bin 1. ) Since it wraps around the side, even when a typhoon blows, the bracket 69 does not rotate in the lateral direction, so it has a point that can securely fix the pillar 3 and the feed bin 1, so it is an advanced technology than the related art. It is a beneficial invention that can be used to enhance the value of use.

3: Pillar 40: Base plate
50: load cell 60: bracket
61: front member 62: side member
61a: front arm 62a: side arm
70: lifting bolt 80: lifting nut
90: binding member

Claims (5)

delete A plurality of pillars (3) mounted on the outer periphery of the feed bin (1) and vertically fixed to the installation place to install the feed bin (1);
A base plate 40 located on one side of each pillar 3 and fixed to the foundation surface E of the installation place;
The measurement part 52 extending from the fixing part 51 has a cantilever shape so as to measure the weight of the feed bin 1, and the measuring part 52 is close to the pillar 3 of the feed bin 1 A load cell 50 in which the fixing part 51 is fixed on the base plate 40 so as to be in close contact with each other;
Places are installed in a state mounted on the measuring unit 52 of each load cell 50, and a pillar 3 supporting the feed bin 1 is installed so that the weight of the feed bin 1 is applied to the load cell 50. A bracket 60 fixed in a lifted state from the foundation surface E;
The lifting bolts 70 mounted on the pillars 3 so that the pillars 3 of the feed bin 1 can be lifted from the base surface E of each installation place and fastened to each bracket 60 corresponding thereto. );
A lifting nut 80 for fastening and fixing the lifting bolt 70 to the bracket 60; And
A binding member 90 that is integrally fixed to the bracket 60 and wraps the load cell 50 when the bracket 60 is mounted on the load cell 50 to constrain the bracket 60 from flowing in the load cell 50; Feed bin fixing device capable of weighing, characterized in that it comprises a.
The method according to claim 2, The bracket 60 is a side member (62) is bent rearward from both ends of the front member (61) to accommodate the pillar (3), the load cell (50) below the front member (61) ) Mounted on the top, the front arm 61a is bent so that it can be fastened and fixed with a bolt B2, and the lifting bolt 70 is penetrated under the side member 62 to be fixed with the lifting nut 80. Feed bin fixing device capable of weighing, characterized in that the side arm (62a) is bent to allow.
The method according to claim 2, The lifting bolt (70) mounted on the pillar (3) is fixed to the lower stand (3a) of the pillar (3), and through the side arm (62a) of the bracket (60) side arm ( 62a) A feed bin fixing device capable of weighing, characterized in that the pillar 3 is raised or lowered according to the forward and reverse rotation of the lifting nut 80 fastened from the upper portion.
The method according to claim 2, The binding member 90 is fixed to the feed bin capable of weighing, characterized in that it is integrally fixed to protrude on both sides of the bottom surface of the front arm (61a) so as to wrap around the side of the load cell 50 to restrain. Device.

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