KR100775874B1 - Apparatus of conserving and transforming a power of rotation using an elastic energy of high powerful spring - Google Patents

Abstract

The present invention relates to a rotational force preservation and conversion device using the elastic energy of the high-strength spring, more specifically, the excavation depth measurement by ground excavation equipment for ground works for civil engineering-related construction, building construction, such as roads, bridges, ports and dams And to obtain a device for measuring the depth of cut during rock measurement, the device comprising a measuring line tension unit which is interlocked with the motor unit, encoder and connecting roller unit, connecting the rotational force of the motor unit with a belt measuring line The measuring line tension unit for winding: the belt is connected to the pulley and the power shaft is wound to the power rotary plate is integrally linked to the left / right support is configured as a bearing, so as to correspond to the position facing the power rotary plate A transmission plate is provided, and a high strength spring is provided between the power rotating plate and the transmission plate to transmit the power rotating plate and the transmission plate. The power is transmitted between the plate through the high-strength spring, and the shaft fixed to the transmission plate is connected to the measuring line winding unit located in the inner through hole of the power shaft, between the power rotating plate and the transmission plate Characterized in that the case is provided with a control bolt for adjusting the spacing between the power rotating plate and the transmission plate to adjust the close contact of the high-strength spring configured in.

High strength springs, power shafts, pulleys, encoders

Description

Apparatus of conserving and transforming a power of rotation using an elastic energy of high powerful spring}

1 is an exemplary view of a depth measuring device installed on the ground excavation equipment.

Figure 2 is a perspective view showing a depth measuring device installed in the ground excavation equipment of the present invention the applicant is filed.

3 is a cross-sectional view of the tension adjusting unit of FIG.

Figure 4 is a cross-sectional view attached to the apparatus for estimating the compressive strength for structural members for compression applications pending applicants filed.

Figure 5 is a block diagram showing a rotational force conservation and conversion device using a high-strength spring of a preferred embodiment of the present invention.

6 is a cross-sectional view showing a measurement line tension portion of 5.

Figure 7 is an exploded perspective view showing a measuring line tension portion of the present invention.

* Description of the major symbols in the drawings *

10: adjustment bolt 20: stop bolt

30: case 40: power rotating plate

50: high strength spring 60,130: bearing

70: shaft 80: bolt

90,100: left / right support 110: belt

120: pulley 140: retaining ring

150: winding barge 160: measuring line

170: fixing nut 180: power shaft

200: motor 300: encoder

The present invention relates to a rotational force preservation and conversion device using the elastic energy of the high-strength spring, more specifically, the excavation depth measurement by ground excavation equipment for ground works for civil engineering-related construction, building construction, such as roads, bridges, ports and dams And it relates to a device for measuring the depth of cut during rock measurement.

1 to 3 of the depth measurement device for the ground drilling equipment filed by the applicant of the present application is configured in the ground drilling equipment is configured in the organ machine 260 to move by excavating vertically, to constitute a ring portion 260-1 It is configured to hang the hook of the measuring line 220. The end is fixed to the ring portion 260-1 of the organ machine and the measuring line 220 is arranged by configuring the connecting roller portion 260-2 at the lower end of the reader portion to measure the moving distance vertically.

Measurement line tension unit 250 shown in Figures 2 and 3 is built to reduce the speed 30 to deliver a constant rotational force of the drive motor 40 is configured to wind the measurement line 220 at a constant speed, drive motor The second pulley 60 is configured to interlock with the first pulley 10 and the ring belt 50, and the second pulley 60 is provided for the protection of the driving motor 40 and the tension adjustment of the measuring line. Two friction plates 110 and 120 are configured to rotate flatly.

The first pulley 10 of the drive motor and the second pulley 60 of the measurement string tension unit are configured to rotate by the ring belt 50, and the shafts of the hollow shaft 280 and the rope 90 of the second pulley 270 is arranged in a straight line to configure the friction plate 110, 120 at the end of the shaft, respectively, to adjust the torque value of winding the measuring line 220 by adjusting the adhesion of the two friction plates.

It is configured to measure the moving distance of the transfer frame portion 260 to measure the cutting depth of the sample to measure the cutting depth used in the compressive strength estimation device for the structural member of the present application for compression use shown in FIG. Comprising the motor unit 60 is equipped with a reducer to rotate the rotational speed (RPM) constantly, and the winding device unit 100 is connected to the pulley shaft 50 and the belt 70 of the motor unit to transmit the rotational force of the motor 100 It is configured in connection with the pulley shaft (80) of. The winding device 100 is set by setting a constant load value in the measurement line bundle unit 90, when the load occurs in the measurement line bundle unit 90 and the pulley shaft 80 is a slide on the motor shaft The connected pulley shaft 80 is rotated and the measurement string bundle 90 is configured to the friction clutch so that the rotational force does not reach.

As described above, the measuring line tension part used when measuring the cutting depth of ground excavation and rock, etc. is rotated according to the rotational force of the motor, so that the measuring line is wound as the movement moves with a constant tension. When the load is generated, it is formed in a structure that can rotate without the rotational force of the motor. When the motor rotational force and the load of the measuring line is generated, the rotating by the friction force is rotated while sliding each other. At this time, there is a problem that the two friction plates are easily worn and replaced when used for a long time.

In addition, since the lubricating oil layer is formed between the two friction plates, there is a problem that the power transmission is not accurate and the tension adjustment of the measurement line is difficult to slip easily with each other.

Accordingly, withdrawal in order to solve the conventional problems, the object of the present invention is to provide a high strength spring between the power rotating plate connected to the motor unit and the transmission plate connected to the measuring line, the two plates to which power is transmitted maintain a strong adhesion And to be compressed, to provide a rotational force preserving and converting apparatus using a high-strength spring that minimizes the transmission loss of the force generated during the transmission of power.

Another object of the present invention is to provide a rotational force preservation and conversion device using a high-strength spring with a small friction surface during power transmission to minimize the wear rate.

Still another object of the present invention is to provide a rotational force preservation and conversion device using a high-strength spring that can easily adjust the tension of the measurement line.

The rotational force preservation and conversion device using the elastic energy of the high-strength spring of the present invention for achieving this object, in the device comprising a measuring line tension unit interlocked with the motor unit, the encoder and the connecting roller, the rotational force of the motor unit to the belt The measuring line tension portion for connecting the winding line is connected to: the belt is connected to the pulley and the power shaft wound around the power rotating plate is integrally linked to the left / right support is configured as a bearing, facing the power rotating plate Transmission plate is provided to correspond to the viewing position, and provided with a high-strength spring between the power rotating plate and the transmission plate is configured to transfer power between the power rotating plate and the transmission plate through the high-strength spring, connected to the transmission plate The fixed shaft is located in the inner through hole of the power shaft is connected to the measuring line winding bundle, To adjust the adhesion of the high strength spring configured between the power group and the spindle transfer plate is characterized in that it comprises a control for adjusting the interval between the bolt and the power spindle the transfer plate to the case.

Hereinafter, with reference to the accompanying drawings will be described in detail the rotational force preserving and converting apparatus using a high-strength spring of the present invention.

The present invention shown in Figs. 5 to 7 is to constitute a device capable of measuring the ground depth and the cutting depth of the rock in real time, the damage of the motor generated when measuring the depth by using the encoder And measuring line tension section for minimizing the load of the mechanical device is to constitute a high-strength spring between the clutch for transmitting power.

Measuring line tension unit 290 of the present invention is configured between the motor unit 200 and the encoder 300 is configured to act as a clutch to block power transmission in a specific situation.

The measurement line tension unit 290 is connected to the pulley 120 and the power shaft 70 is integrally connected to the power rotating plate 40 is configured by connecting the bearings (60, 130) to the left and right support (90,100).

The rotational power of the motor unit is configured to be transmitted through the belt 110 wound on the pulley 120, and the pulley 120 is fixed to be rotated together through the power rotating plate 40 and the power shaft 70 which are clutches. .

The high-strength spring 50 is provided between the power rotating plate 40 and the transmission plate 190 to be in contact with each other to transfer the power of the two plates to the high-strength spring.

The shaft 180 fixed to the transfer plate 190 is independently positioned in the inner through hole of the power shaft 70, and is connected to the measuring line winding bundle 150, and the fixing ring 140 and the fixing nut are fixed. Tighten with (170) to secure.

The rear of the transmission plate 190 constitutes a case 30 to adjust the compression and adhesion strength of the high-strength spring 50 configured between the power rotating plate 40 and the case 30, the adjustment bolt 10 and The lock nut 20 is provided and fixed to the left support 90 with a bolt 80.

The high-strength spring is provided between the transmission plate 190 and the power rotating plate 40, so as to transmit the rotational force between the two plates, this rotational force is transmitted by the elastic force and the pressing force of the spring.

The operation of the rotational force preserving and converting apparatus using the high strength spring of the present invention configured as described above will be described in detail.

The rotational force supplied from the motor unit 200 of the present invention is transmitted to the pulley 120 of the measurement line tension unit 290 by the belt 110.

The measurement line tension unit 290 is provided with a winding bundle unit 150 is wound around the measurement line 160, the measurement line 160 may use a wire, a cable, a piano string without tension and not easily slip. .

The measuring line 160 is connected to the guide rollers 210 and 220 on both sides so that the area wound around the encoder 300 is widely arranged, and the end of the measuring line 160 is connected to a position to be measured.

When the measurement line 160 is wound with a constant torque, the wound position, that is, the moved distance is measured by the encoder 300. When a load is generated in the measuring line 160, the measuring line 160 is maintained while maintaining the rotational force of the motor unit 200 by the high-strength spring 50 interposed between the power rotating plate 40 and the transmission plate 190. This winding operates so that the winding unit 150 is idle.

Tightening the adjustment bolt 10 located on the rear of the transmission plate 190, while reducing the distance between the power rotating plate 40 and the transmission plate 190, the pressing force of the high-strength spring 50, the adhesive force increases, measuring line 160 The torque value of) increases and the torque value decreases when the adjustment bolt 10 is released.

By arranging the high-strength spring 50 as described above, the range of the torque value can be widened so that it can be adjusted to the minute part.

The rotational force preservation and conversion device using the elastic energy of the high-strength spring of the present invention is possible to change the shape, shape, size, in particular, is not limited to the above-described embodiment of the present invention, it is applicable to ground excavator perforator, etc. Without departing from the gist of the present invention claimed in the technical field to which the present invention belongs, various modifications are possible, of course, such changes are within the scope of the claims of the present invention.

Rotation force preservation and conversion device using the high-strength spring of the present invention is a road slope surface, the measurement device for measuring the depth of rock when securing the rock layer for fixing the support cable during the construction work of the building and the measurement of the excavation depth and various rock strength This is a very useful effect to increase the precision and to extend the service life.

Rotation force preservation and conversion device using the high-strength spring of the present invention is a road slope, a rock bed layer for securing the support cable during the construction of the building breakdown of the measurement device for accurate excavation depth measurement and various rock strength measurement of the measuring device for measuring the depth of cut This is a very useful effect to increase the precision and to extend the service life.

Claims (2)

In the device comprising a measuring line tension unit interlocked with the motor unit, encoder and the connecting roller, The measurement line tension unit for connecting the rotational force of the motor unit with a belt to wind the measurement line: The belt is wound by the pulley and the power shaft is connected to the power rotating plate is integrally linked to the left / right support is configured as a bearing, The transmission plate is provided to correspond to the position facing the power rotating plate, A high strength spring is provided between the power rotating plate and the transfer plate, and configured to transmit power through the high strength spring between the power rotating plate and the transfer plate. The shaft fixed to the transfer plate is connected to the measuring line wound bundle is located in the inner through hole of the power shaft, Preservation of rotational force using the elastic energy of the high-strength spring, characterized in that the case is provided with a control bolt for adjusting the distance between the power rotary plate and the transfer plate to adjust the close contact between the high-strength spring configured between the power rotating plate and the transfer plate. And inverter. The method of claim 1, The measuring line wound around the measuring line wound bundle is: Rotation force preservation and conversion device using the elastic energy of the high-strength spring characterized by using any one of the tension, non-slip wire, cable, piano string.

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