KR0167028B1 - Weight frame loading apparatus of real weight force standard - Google Patents

Abstract

The present invention relates to a self-weight frame load device of a real-load force standard that generates the initial load of the force standard with a center of gravity, and is located on the lower side of the own weight frame and is supported by mounting its own weight frame support. A plate; A support plate positioned below and supported by the movable plate; Mounted upward on the support plate is a self-weight frame load device of the actual load force standard, characterized in that composed of a power source for moving the moving plate.

Description

Self-weight frame load device of actual load force standard

1 is an exploded perspective view of the self-weight frame load device of the actual load force standard of the present invention.

Figure 2 is a side cross-sectional view of the self weight frame load device of the actual load force standard of the present invention.

Figure 3 is a view for explaining a real load force standard equipped with a self-weight frame load device of a conventional real load force standard.

* Explanation of symbols for main parts of the drawings

1: Self-weight frame load device of actual load force standard 10: Load device

12: moving plate 14: support plate

18: power source 19: electric hole

20: guide hole 22: operator

23: guide shaft hole 24: nut

25: guide shaft 27: linear bearing

The present invention relates to a self-weight frame load device of a real load force standard, and more particularly, to a self-weight frame load device of a real load force standard that generates the initial load of the force standard with a center of gravity.

In general, the weight varies by region, which is caused by the acceleration of gravity depending on latitude and altitude. As a result, the unit of measurement for weighing in each region is different, which causes considerable confusion when the weight measured in one region is transferred to another region. In order to prevent this, there is a need for a unified standard.

The actual load force standard is a device for measuring the weight, and compensates for the above-mentioned gravity acceleration to measure an accurate mass value.

That is, it is possible to apply the weight of the weight (hereinafter referred to as weight) having the correct mass value to the force measuring device to know the exact gravity acceleration of the mass value and the place where the weight is installed, and the buoyancy value of the air that the weight receives Consider. If this is expressed as an expression, it is as follows.

F = m * g _loc (1-ρ _air / ρ _m )

Where g _loc is the local gravitational acceleration of the site where the weight is installed

ρ _air : density of air

ρ _m : density value of the weight

Based on the above equation, it is possible to generate the desired weight by obtaining the correct mass and density values of the weight.

3 is a reference table transfer means and a mounting state diagram of a conventional real load force standard, which will be described with reference to the real load force standard 30 having the above-described principle and obtaining a standard by measuring the actual load.

The actual load force standard 30 is to generate a force by using a weight as described above, for high precision force measurement generates only a vertical load by gravity to transfer to the force measuring device, horizontal load, bending and torsion It should be a structure that does not generate loads. It is not only used as a national standard of force, but also used for the test and calibration of high precision force measuring instruments such as load cells.

The conventional general load force standard 30 has a reference table 31, a self-weight frame 32 and a transfer frame 33 and weight 34 and a hydraulic cylinder 35 as a power source to the load device, and also fixed The support base 36 etc. are comprised.

In the case of the force standard machine not being tested, the weight of the self-weight frame 32 is supported by the column support seat 38 mechanically connected to the fixed support 36, and the weight of the transfer frame 33 and the reference table 31 ) Is supported by the hydraulic cylinder 35 and the weight 34 is placed on the ground. When testing or calibrating the force measuring device 100 using the force standard, the force measuring device 100 is installed on the reference table 31 and the position of the reference table 31 is adjusted to adjust the force measuring device 100 and its own weight frame. Adjust the interval between 1 and 2 mm. Here, since the reference table 31 is assembled with the transfer frame 17 made of a square screw, it is possible to adjust the upper and lower positions of the reference table.

In order to apply a load to the force measuring device 100, the hydraulic cylinder 35 is operated to lift the feed frame 33, and the upper surface of the force meter 100 installed on the reference table 31 and the reference table mechanically connected to the feed frame and When the self-weight frame 32 is in contact with the lower surface of the self-weight frame 32 and the hydraulic cylinder 35 is continuously operated to raise the transfer frame 33, the self-weight frame 32 is separated from the column support seat 38 and the own weight frame The weight of 32 is applied to the force meter 100.

If the hydraulic cylinder 35 is continuously operated, the weight 34 is lifted and the weight of the weight is applied to the force measuring device 100. If the hydraulic cylinder 35 is continuously operated, the transfer frame 33 is further raised. The weight of the weight 34 can be added to the force meter 100 continuously one by one.

In the case of the conventional load device as described above, since the hydraulic cylinder for applying the weight of the weight frame to the force measuring device is installed at the upper end and the conveying frame is moved upward, the actual weight is measured by lifting the weight. The overall height of the standard is very large and the structural safety of the force standard is poor. Due to this, there is a problem of installation space, a lot of difficulties in the processing and assembly of each component, and the use of hydraulic pressure, there is a problem that it is difficult to provide a load having a center of gravity to the force measuring device.

The present invention has been invented to solve the above problems, the object of the present invention is to reduce the height of the actual load force standard and to install a load device at the bottom to increase the economics of the installation space and the efficiency of processing and assembly of each part In addition, the present invention provides a frame weight load device of a real load force standard capable of providing a load with a center of gravity of a force gauge.

In order to achieve the above object, the present invention is located on the lower side of the self-weight frame is equipped with a self-supporting weight frame support and moving the movable plate; A support plate positioned below and supported by the movable plate; Mounted upward on the support plate is a self-weight frame load device of the actual load force standard, characterized in that composed of a power source for moving the moving plate.

Accordingly, when the moving plate supported on the support plate moves upward by the operation of the power source, the moving plate moves upward, leaving the support plate to move its own weight frame supported by the support to force the actual load as much as the weight of the weight. After delivery to the meter, reverse operation of the power source causes the moving plate to move downward while lowering its weight to rest on the support plate.

Hereinafter, the most preferred embodiment of the present invention will be described in more detail with reference to the accompanying drawings.

1 is an exploded perspective view of the self-weight frame load device of the actual load force standard of the present invention, the reference numeral 1 refers to the real load force standard, the load device 10 on the lower side of the self-weight frame 2 and the support 4 ) Is shown.

The load device 10 is composed of a moving plate 12, a support plate 14 and a power source 18.

The movable plate 12 is equipped with a support 4 for supporting the self-weight frame 2, and supports the self-weight frame 2 with the support 4, the power source 18 Powered by the support (4) Oh, to move together.

To this end, the movable plate 12 is formed in the portion where the transmission hole (19) is mounted so that the power source 18 to apply a force to the support (4) stably. In addition, since the movable plate 12 moves up and down, the moving plate 12 does not smoothly perform its function when the moving direction is out of the axial direction. It is formed in a position offset and balanced at a predetermined interval, and is intended to achieve an equilibrium with the upward movement force of the power source 918 applied to the moving plate 12. In addition, the movable plate 12 includes a circular hole to include the electric hole 19 and the guide hole 20 and to have a minimum area, because the movable plate 12 is shanghaidong, and also on the self-weight frame 2. A circular hole is formed in the center for connecting weights.

Since the movable plate 12 is moved up and down structurally unstable and needs to be stably supported, the support plate 14 plays its role.

The support plate 14 has a working hole 22 for power source 18 to transfer the force to the movable plate 12 is formed in the same direction as the electric hole 19 of the movable plate 12, A guide shaft hole 23 for guiding the moving plate 12 is formed in a direction perpendicular to the guide hole 20 of the moving plate 12. And, since the support plate 14 serves to support the movable plate 12, the shape can be free, but the inner hole for connecting the weight to the self-weight frame 12 is formed.

The power source 18 is mounted upward on the bottom surface of the support plate 14, and the power source 18 moves the movable plate 12 by means of converting rotational movement into linear movement using a motor. Although the movable plate 12 can be moved upward by using a hydraulic cylinder, in this embodiment, a load device is economically advantageous and a pneumatic cylinder having good workability is used.

Therefore, the piston (18a) of the pneumatic cylinder (18) forms a threaded portion at the end to be mounted from the bottom up to the operating hole 22 formed in the support plate 14 and to fasten the nut 24 to the threaded portion, The end of the piston (18a) and the thickness of the support plate to have a constant interval.

The piston 18a to which the nut 24 of the pneumatic cylinder 18 is fastened is fastened at the bottom to the electric hole 19 of the movable plate 12 supported by the support plate 14 and at the same time the electric hole 19 It is fastened with the support member 13 supporting the support 4 located on the upper surface of the).

The support member 13 has a wide circular surface on the upper side, and a pillar having a diameter smaller than the upper side is formed on the lower side, and there is a hollow in which an inner diameter spiral is formed.

Therefore, the upper portion of the movable plate 12 including the support member 13 is formed to match the shape of the movable plate. For this reason, when the support member 13 is mounted, the mounting portion of the movable plate 12 forms the same surface.

And the support (4) supported by the support member 13 has a groove (5) is formed at the bottom of the outer surface, the bracket 6 is on the groove (5) on both sides of the support (4), respectively The engagement bracket 4 was fixed to the movable plate 12.

Referring to one of the two grooves (5) mounted on both sides of the bracket (6) as follows.

The bracket 6 is composed of two pieces, and the first piece 6a has an inner shape of the groove 5 formed in the support at a portion to be mounted to the groove 5 of the support 4. It will have the same shape as, and the opposite side is formed with a long screw hole 7 from side to side. The second piece 6b is screwed together with the screw hole 7 of the first piece 6a, and a screw hole is formed in a straight portion with the screw hole 7 and the movable plate 12 is opposite to the screw piece 7a. The screw hole 8 for fastening and fastening is formed long in the longitudinal direction.

The screw hole 7 formed in the first piece is for varying the mounting angle of the bracket in the lateral direction by changing the mounting direction of the support, and the screw hole 8 formed in the second piece has the size of the support. It is to adjust accordingly.

As described above, the piston 18a of the pneumatic cylinder 18 is mounted in the order of the support plate 14, the movable plate 12 and the support member 13, the support plate 14 and the movable plate The nut 24 is fastened between the 12 to support the movable plate 12 from the bottom.

However, since the support plate 14 supports the movable plate 12, the size of the nut 24 may include the nut 24 on the upper surface of the operating hole 22 of the support plate 14. And the equivalent form.

The guide shaft 25 for guiding the movable plate 12 supported by the support plate 14 has a brushing surface on the upper side, and has a diameter smaller than the upper side on the lower side to form a helix. It is mounted in each guide hole 20 formed in). The guide shaft 25 moves the guide shaft 25 by mounting a linear bearing 27 in the guide hole 20 of the movable plate 12 so as to smoothly move the movable plate 12. To allow greater surface area to be guided.

As described above, the guide shaft 25 passing through the linear bearing 27 and the movable plate 12 is mounted in the guide shaft hole 23 of the support plate 14, and the guide shaft hole 23 is the guide shaft. Since the lower portion of the 25 is mounted, it has a diameter smaller than that of the guide hole 20 of the movable plate 12 and forms an inner diameter spiral.

The nut 15 is mounted on the spiral portion of the guide shaft 25 extending on the bottom surface of the guide shaft hole 23 of the support plate 14 on which the guide shaft 25 is mounted, thereby mounting with the steel support plate 14. The state was further strengthened.

2 is a side cross-sectional view of the load device 10 with the weight of the actual load force standard 2 according to the present invention, and the weight frame 2 is supported on the support 4 and is supported by the support 4. ) Is mounted on the upper surface of the movable plate 12 and is supported by the support member 13 coupled with the piston 18a of the pneumatic cylinder 18 and the electric hole 19 of the movable plate 12. . The piston 18a of the pneumatic cylinder 18 is fitted with a nut 24 in contact with the bottom surface of the movable plate 12.

Then, the support shaft 25 is fastened to the support plate 14 through the linear bearing 27 and the movable plate 12, extends to the bottom surface, and is fastened again to the nut 15.

In the present invention as described above, when the piston is expanded by operating the pneumatic cylinder, the movable plate is moved upward along the guide shaft to apply the actual load force to the force measuring instrument. When the pneumatic cylinder is operated in the opposite direction, the piston contracts and moves the movable plate to the guide shaft. Move down accordingly.

As described above, the present invention reduces the height of the actual load force standard and installs a load device at the bottom to increase the economics of the installation space and the efficiency of processing and assembling each part, and provides a load center of gravity to the force measuring device. It is effective.

Claims (11)

A moving plate 12 mounted on the lower side of the own weighing frame 2 and supporting the own weighing frame 2 by mounting a support 4; A support plate 14 positioned below the movable plate 12 and supporting the movable plate 12; Self-weighted load device of the actual load force standard, characterized in that consisting of a power source (18) mounted to the support plate (14) to move the moving plate (12). 2. The movable plate (12) according to claim 1, further comprising: an electric hole (19) formed at a portion on which the support (4) is mounted; Self-loading weight load device of the actual load force standard, characterized in that the guide hole 20 formed with a predetermined interval with the electric hole (19). The apparatus of claim 1 or 2, wherein the movable plate (12) forms a circular shape. According to claim 1, The movable plate 12 has a groove (5) is formed on the side surface of the support (4), it is to be mounted to the groove (5) with a bracket 6 formed in two pieces Self-loading frame load device of real load force standard. 5. The bracket 6 according to claim 4, wherein the bracket 6 has the same shape as the inside of the groove 5 at a portion to be mounted to the groove 5, and is formed of a screw hole 7 formed on the opposite side to be long. 1 piece 6a; The self-weight load device of the actual load force standard, characterized in that the second piece (6b) consisting of a screw hole (8) formed in the longitudinal direction on the opposite side of the fastening portion and fastened to the first piece (6a). According to claim 1, wherein the support plate 14 has a working hole 22 is formed in a direction perpendicular to the electric hole 19 of the movable plate 12, the guide shaft hole 23 is the movable plate 12 Self-weight load device of the actual load force standard machine, characterized in that it is formed with an inner diameter spiral in a direction perpendicular to the guide hole (20) of. The method of claim 2 or 6, wherein the guide shaft 25 is mounted in the guide hole 20 of the movable plate 12 and the guide shaft hole 23 of the support plate itself of the actual load force standard Heavy Duty Load Device. The guide shaft 25 has a brushing surface on the upper side, and has a diameter smaller than the upper side on the guide shaft 25 to form a helix, and is fastened to the guide shaft hole 20 of the support plate. And self-weight frame load device of the actual load force standard, characterized in that mounted on the bottom of the support plate with a nut (15). The apparatus of claim 1, wherein the power source (18) uses a pneumatic cylinder. 10. The piston (18a) of the pneumatic cylinder (18) according to claim 9 forms a spiral at an end thereof, and makes a predetermined distance to the end of the nut (24) through an operating hole (22) formed in the support plate (14). It is fastened, and the self-weight load device of the actual load force standard, characterized in that is fastened to the electric hole 20 and the support member 13 of the movable plate (12). 11. The bearing member according to claim 10, wherein the support member 13 has a wide circular surface upward and a pillar having a diameter smaller than the upper side thereof, and a hollow having an inner diameter spiral formed therein. Self-weight frame load device of force standard.