KR20030073714A - The ununiform rotary transmission and control method which is using the pump and compressor - Google Patents

Abstract

The present invention relates to an inconstant speed rotation transmission device and a control method thereof in which the speed of suction and compression processes is improved in pumps and compressors, thereby improving suction efficiency and compression efficiency. A reciprocating compressor that compresses gas by a reciprocating pump or a reciprocating movement of a piston is generally connected to a cylinder head, an inlet port, an outlet port, a suction valve, a discharge valve, a piston which is in close contact with the inner wall of the cylinder and reciprocates linearly. The connecting rod is made of a crank shaft which is fastened to the rod, and the linear movement of the piston is changed to the rotational movement. In the cylinder of the compressor or pump as described above, the drive shaft of the driving device for driving the compressor or the pump is the crank shaft. With a drive rod connecting them in the Rotation angle in which the drive rod rotates in comparison with the crankshaft which has a constant rotational angle during compression and suction of the cylinder in rotating and receiving the power transmitted from the drive by providing the drive rod in the form of variable length or double link. The larger the rotational angle during compression and the smaller the rotational angle during suction reduces the maximum torque during compression and consequently achieves the desired result even with a small capacity drive mechanism, improving the overall efficiency of pumps and compressors. The present invention relates to an inconstant speed rotation transmission device and a control method thereof.

Description

The ununiform rotary transmission and control method which is using the pump and compressor}

The present invention relates to a device for improving the efficiency of a compressor or a pump composed of a drive device connected to a cylinder, and generally, a cylinder operated by a drive motor or a turbine has a suction-> compression due to the characteristics of a reciprocating engine. -> Explosion-> Exhaust, the crankshaft angle is constant at 180 degrees during suction and compression, but the load on the drive meets this maximum torque as the maximum torque is higher than suction. In order to achieve this, there is a problem in that a high capacity power mechanism is required.

In addition, the conventional modified cylinder structure in the configuration of the connecting rod connected to the piston is divided into the upper rod and the lower rod by cutting one side of the rod and devised a device for fastening the steel wire flexible or universal joint between the upper and lower rods However, this may simply be effective to prevent problems such as preventing wear and tear or malfunction due to friction between the inner wall of the cylinder and the piston. However, in the case of a high torque value, the operation may not be performed properly. An apparatus for reducing the maximum torque has an inappropriate problem.

The present invention has been made to solve the above problems,

The drive shaft of the drive device for driving the compressor or pump is connected to the drive rod connecting therebetween when the drive shaft is displaced from the crankshaft, and the drive rod is provided in the form of variable length or double link and the power transmitted by the drive device. Is rotated by the drive rod in comparison with the crankshaft which has a constant rotation angle at the time of compression and suction of the cylinder. The purpose of the present invention is to reduce the maximum torque at the time and, as a result, to obtain a predetermined result even with a small-capacity driving mechanism, thereby improving the overall efficiency.

1 is an exemplary view showing a structure of an inconstant speed rotation transmission device according to the present invention.

Figure 2a is a side cross-sectional view showing an embodiment of the present invention using a variable rod.

Figure 2b is a front cross-sectional view showing an embodiment of the present invention using a variable rod.

Figure 2c is a schematic cross-sectional view showing an embodiment of the present invention using a variable rod.

3 is an exemplary diagram showing a change in a driving rod composed of dual links in one cycle.

Figure 4a is a cross-sectional view of the application of the four-stroke cycle engine composed of a variable rod.

Figure 4b is a plan sectional view of an application of a four-stroke cycle engine composed of a variable rod.

Figure 5a is a reference diagram showing the rotation angle during the compression process of the cylinder according to the present invention.

Figure 5b is a reference diagram showing the rotation angle during the suction process of the cylinder according to the present invention.

Figure 6a is a graph of the amount of change in the rotation angle and the maximum torque by a conventional constant velocity compressor.

Figure 6b is a graph of the amount of change in the rotation angle and the maximum torque of the inconstant speed compressor according to the present invention

※ Explanation of symbols about main part of drawing ※

1. Cylinder 2. Connecting Rod 3. Drive Shaft

4. dual link 5. crankshaft 6. piston

7. Variable link

In order to achieve the above object, the inconstant speed rotation transmission device used in the pump and the compressor according to the present invention is a pump that directly rotates the rotational motion of a power shaft that is constantly rotated in a compressor or a pump through a process of conventional suction and compression or exhaust. And a variable rod for reducing the maximum torque required by the driving device in the method of operating the compressor, and an inconstant speed rotation ratio transmission device through a double rod.

This is to change the speed of the compression or discharge stroke process compared to the speed of the suction stroke process of the pump or compressor to improve the overall efficiency or to adjust the operating state.

Although the graph of the volume change over time is shown in [Table 1], the method of using the inconstant velocity rotational transmission mechanism according to the present invention shows that the passage of time, that is, the rotational movement, Are distorted together.

By using a rod having such an inconstant speed ratio, the compression time and the expansion time or the compression speed and the expansion speed according to the rotational force may be improved, thereby improving efficiency or changing operating characteristics.

Embodiments of the present invention as described above will be described in more detail with reference to the accompanying drawings.

In general, the piston (6) pump sucks the fluid, closes the suction valve, compresses the fluid again, and discharges it through the discharge valve. The administration time will be the same.

However, since the fluid pressure at the suction in the pump is much lower than the fluid pressure at the compression, the actual maximum torque value is generated at the compression stroke, thereby meeting the maximum torque (Tmax) required for this compressor to operate. There is a need for a power unit with a heavy load, and as a result, the size or capacity of the drive system used in the compressor is inevitably larger than necessary, which leads to a decrease in efficiency.

Figure 6a is a graph of the change of the rotation angle and the maximum torque by the conventional constant velocity compressor, as shown in the drawing, the maximum torque required when the actual compressor is operating is only a very short moment in one cycle, so it occurs instantaneously In order to lower the maximum torque, the power shaft rotates more than 180 degrees (π) in the compression stroke having a large resistance as shown in FIG. 6B showing a graph of the rotation angle and the maximum torque change of the inconstant speed compressor according to the present invention. In this small suction process, the power shaft rotates less than 180 degrees, so that the torque during suction increases slightly as shown by the arrow, while the maximum torque (Tmax) during compression decreases, driving smaller torque to carry the same fluid per cycle. As a result, a mechanism can be used, resulting in increased efficiency.

The above is summarized as follows.

Work (W), torque (T), and rotation angle (θ) of the shaft have the following relationship.

As shown in [Equation 1] above, the sixth and the sixth degrees do the same work (W), but when the rotation angle θ is increased, the torque T decreases and the rotation angle θ decreases the torque T It can be seen that increases.

Therefore, by rotating at an inconstant speed, using the transmitted rod, the rotation angle of the compression stroke engine of the pump or the compressor is increased and the rotation angle of the suction stroke engine is reduced, which is the same as that of FIG. 6A (the sum of one large and small semicircle is one cycle 6b, the maximum torque during compression decreases and the maximum torque during suction increases slightly, resulting in better rotational movement characteristics, resulting in a reduction in the capacity of the compressor or pump drive mechanism. This will result in room for efficiency improvement and price improvement.

Figure 5a is a reference diagram showing the rotation angle during the compression process of the cylinder 1 according to the present invention, as shown in the drawing connecting rod by the reciprocating motion of the piston 6 from the bottom dead center to the top dead center during the compression process As the crank moves, the crankshaft 5 rotates 180 degrees. At this time, the variable link 7 applied to the drive shaft 3 has an angle of rotation from the position of the bottom dead center to the position of the top dead center. end

" ", And on the contrary, referring to FIG. 5b, which is a reference diagram showing the rotation angle during the suction process of the cylinder 1 according to the present invention, the crank shaft (A) moves from the top dead center to the bottom dead center. 5) rotates 180 degrees, but at this time, the variable link 7 applied to the drive shaft 3 has a rotation angle from the position of the top dead center to the position of the bottom dead center.

" ", It is possible to lower the maximum torque applied to the drive device as shown in [Equation 1] above.

Figure 4a is a cross-sectional view of the application of the four-stroke cycle engine composed of a variable rod, Figure 4b is a plan cross-sectional view of the application of the four-stroke cycle engine composed of the variable rod, the inconstant speed used in the pump and compressor according to the present invention The rotation transmission method and the device can be applied to a four-stroke cycle engine, and the explosion sequence in this case is to explode in the order of ①-> ③-> ②-> ④ as shown in the drawing. You can save the characteristics.

In addition, the device for transmitting the rotational ratio at an inconstant speed, such as the variable link 7 described in the above embodiment, can be used in addition to the variable link 7, an eccentric gear, an elliptical gear, a pulley, and the like. It can be configured as shown in FIG. 3, which is an exemplary view showing the change of the driving rod composed of the double link (4) in one cycle, it is composed of a variable link (7) of the piston (6) The structure of the variable link 7 in which the length of the link connected between the drive shaft 3 and the crank shaft varies variably during the rotational movement of the crank shaft 5 according to the linear reciprocating motion is used by the variable rod. Figure 2a is a side cross-sectional view showing a second embodiment of the present invention using a variable rod and Figure 2b is a cross-sectional view showing an embodiment of the present invention using a variable rod 2c Same as in the figure.

The present invention is configured to variably rotate the drive shaft of the drive device differently from the position of the crankshaft, thereby improving the efficiency and operating characteristics of the pump or compressor, the maximum torque during compression decreases slightly and the maximum torque during suction slightly increases the The characteristics are improved, and the capacity of the drive mechanism of the compressor or pump is reduced to provide an optimization for improving the efficiency of the compressor or pump.

As described above, the present invention has been described in detail only with respect to the embodiments described, but it will be apparent to those skilled in the art that various modifications and applications are possible within the technical scope of the present invention, and such modifications and applications belong to the appended claims. will be.

Claims (3)

In a cylinder structure used in a pump and a compressor; In order to improve the efficiency by lowering the speed of compression stroke and suction stroke, and to reduce the maximum torque applied to the drive, the rotation of the link connected with the drive shaft of the drive is not constant by ring linking the drive shaft from the center of the crankshaft. An inconstant speed rotation transmission method used in a pump and a compressor, characterized in that the piston becomes smaller in the suction stroke moving from the top dead center to the bottom dead center and wider in the compression stroke moving from the bottom dead center to the top dead center. In a cylinder structure used in a pump and a compressor; The rotation angle of the link connected to the drive shaft of the driving device is not constant, and it rotates at a small angle when the piston moves from the top dead center to the bottom dead center and at a wide angle when the compression stroke moves from the bottom dead center to the top dead center. Inconstant rotation transmission device used in pumps and compressors, in which the drive shaft is shifted from the center of the crankshaft, and a variable link is connected in which a small cylinder enters and changes its length. The method of claim 1; Inconstant speed rotational transmission device used in pumps and compressors, characterized in that the variable link and the double link is used as a transmission device that enables the inconstant speed rotation.