KR200471221Y1 - Manoeuvring Handle - Google Patents

Abstract

The present invention relates to a maneuvering handle (manoeuvring handle) is installed in the engine control room of the ship to adjust the RPM of the engine, it is configured to enable the interlocking operation of the dial and the operation handle fine adjustment through the dial and operating handle In order to enable accurate positioning, it is intended to provide a mannubering handle so that the rotational force provided from the operating handle side is not provided to the dial side.
That is, the present invention provides a main body fixed to the adjustment stand of the engine control room, an arc-shaped gauge plate installed on the upper side of the main body so as to be exposed to the outside of the adjustment stand, and an operation shaft installed to be supported by the main body so as to cross the inside of the gauge plate. And an operation handle which is coupled to an operation shaft drawn out of the main body and rotates along an upper portion of the gauge plate, a fixed panel installed at an inner lower side of the main body so as to be positioned below the adjustment stand, and fine operation of the operation handle. Fine control means installed on the fixed panel and operated by a dial installed on the outside of the main body, and a control circuit board installed on the fixed panel to be electrically connected to the engine to provide information of the operation handle,
The microadjustment means is installed so as to be supported by the housing so that the input shaft is disposed in a direction perpendicular to the driving shaft to which the dial is coupled, and the driving bevel gear and the driven bevel gear are gear-coupled to the driving shaft and the input shaft, and a worm is formed at the other end of the input shaft. The worm wheel is gear-coupled to a worm wheel positioned on an output shaft supported by the housing, and an output shaft exposed to the outside of the housing, wherein the worm wheel is provided with an input gear coupled to the main gear installed on the operating shaft;
The worm wheel located on the output shaft in the fine control means is configured to control the power transmission by the clutch means,
The clutch means assembles the worm wheel in a state separated from the output shaft, and forms a disk plate integrally formed on the output shaft on one side of the worm wheel, and puts a friction washer on the output shaft so as to be located between the worm wheel and the disk plate. On the other side, the friction washer, the stainless washer, and the spring pressurized spring are sequentially installed to press the worm wheel toward the friction washer.

Description

Manoeuvring Handle

The present invention relates to a maneuvering handle (manoeuvring handle) is installed in the engine control room of the ship to control the RPM of the engine, more specifically, it is configured to allow the interlocking operation of the dial and the operation handle to fine control through the dial and In addition, in order to enable the correct position movement of the operating handle to provide a mannubering handle so that the rotational force provided from the operating handle side is not provided to the dial side.

The ship's engine control room is equipped with a variety of equipment necessary for the ship's operation, and one of these devices is a man-over handle that controls the RPM of the engine.

As shown in FIG. 1 and FIG. 2, the general manuvering handle 101 has an arc-shaped gauge plate 103 installed above the main body 102, and an operating shaft 104 is provided inside the gauge plate 103. It is installed across the body 102 to be supported.

One end of the operation shaft 104 installed to be supported by the main body 102 is led to the outside, the operation shaft 105 is coupled to the operation shaft 104 is rotated along the upper portion of the gauge plate 103.

A fixed panel 106 is installed below the main body 102, and a control circuit board 107 electrically connected to the engine is installed at the fixed panel 106. In addition, the upper side of the fixed panel 107 is provided with two driven gears 109 gear-coupled with the main gear 108 is installed on the operating shaft 104, the driven gear 109 is a dog-integrated operation The sphere 110 is axially installed, and the limit switch 111 in contact with the dog is installed below the operation sphere 110.

In addition, the lower main body 102 of the gauge plate 103 is a configuration in which a fine setting switch for finely adjusting RPM, a dimmer switch, and an operation unit 112 installed together with a display window are installed.

In the case of the conventional man-nubing handle 101 configured as described above, when adjusting the RPM of the engine through the operating handle 105, a fine setting switch may be used to finely adjust the speed.

However, since there is no change in the position of the operation handle 105 in the state in which the fine setting switch and the operation handle 105 are not finely adjusted, it is difficult to accurately grasp the current operating state through the mannubing handle 101. In many cases, the risk of safety accidents were high, and the sailing workers were in need of a novel control means of a new configuration that is linked with the operation handle 105.

Therefore, the present inventors have devised the present invention to solve the problems of the conventional man-nubing handle as described above, and in the present invention, the interlocking operation of the dial and the operating handle can be configured to make fine adjustment through the dial and the correct position of the operating handle. The present invention has been completed in view of the technical problem in providing a moving knob in which the rotational force provided from the operating handle side is not provided toward the dial in enabling movement.

In order to solve the problem, the present invention provides a main body fixed to an adjustment stand of an engine control room, an arc-shaped gauge plate installed on the upper side of the main body so as to be exposed to the outside of the adjustment stand, and a main body fixed so as to cross the inside of the gauge plate. The operating handle coupled to the operating shaft and the operating shaft drawn out of the main body rotates along the upper part of the gauge plate, the fixed panel installed on the lower side of the main body so as to be positioned below the adjustment stand, and the fine operation of the operating handle. It is installed on the fixed panel to be made and comprises a fine control means operated by a dial installed on the outside of the main body, and a control circuit board installed in the fixed panel to provide information of the operation handle electrically connected to the engine,
The microadjustment means is installed so as to be supported by the housing so that the input shaft is disposed in a direction perpendicular to the driving shaft to which the dial is coupled, and the driving bevel gear and the driven bevel gear are gear-coupled to these driving shafts and the input shaft, and a worm is formed at the other end of the input shaft. The worm wheel is gear-coupled to a worm wheel positioned on an output shaft supported by the housing, and an output shaft exposed to the outside of the housing, wherein the worm wheel is provided with an input gear coupled to the main gear installed on the operating shaft;
The worm wheel located on the output shaft in the fine control means is configured to control the power transmission by the clutch means,
The clutch means assembles the worm wheel in a state separated from the output shaft, and forms a disk plate integrally formed on the output shaft on one side of the worm wheel, and puts a friction washer on the output shaft so as to be located between the worm wheel and the disk plate. On the other side, the worm wheel was constructed by sequentially installing the friction washer, the stainless washer, and the spring pressurized by the spring presser to press the worm wheel toward the friction washer.

In the case of using the maneuvering handle provided in the present invention, it is possible to adjust the desired RPM by using the dial while adjusting the primary engine RPM through the operating handle.

In addition, according to the present invention, since the operating handle is configured to work together when the dial is turned, the numerical value of the RPM indicator installed separately matches the position of the operating handle, so that the user can easily check the actual situation through the maneuvering handle.

Figure 1 is a perspective view showing the configuration of a conventional mannubering handle
Fig. 2 is a front view of Fig. 1
Figure 3 is a perspective view showing a preferred embodiment of the man-nubing handle provided in the present invention
4 is a front view of the present invention
5 is a side view of the present invention
Figure 6 is a front view of the clutch means showing the power transmission state of the main gear and the dial in the present invention
7 is a side view of Fig. 6
Figure 8 is an enlarged cross-sectional view showing the main portion extract showing the combined state of the worm and the worm wheel in FIG.

DETAILED DESCRIPTION Hereinafter, preferred embodiments of the manuvering handle provided by the present invention will be described with reference to the accompanying drawings.

Figure 3 is a perspective view showing a preferred embodiment of the man-nubing handle provided in the present invention, Figures 4 and 5 are front and side views of the present invention, Figure 6 is the power of the main gear and the dial in the present invention The front view of the clutch means showing the transmission state, Figure 7 is a side view of Figure 6, Figure 8 shows an enlarged cross-sectional view of the main portion extract showing the coupled state of the worm and the worm wheel in FIG.

As shown in FIG. 1, the main body 2 is fixedly installed on the adjustment stand 30 of the engine control room and an arc-shaped gauge plate is installed on the upper side of the main body 2. 3) is exposed to the outside of the adjustment stand (30). At this time, the operating shaft 4 supported by the main body 2 is installed across the inside of the gauge plate 3.

As described above, one end of the operating shaft 4 installed to be supported by the main body 2 is led out of the main body 2, and the actuated shaft 4 rotates along the upper portion of the gauge plate 3 to the derived operating shaft 4. Coupling the handle (5), and install the indicator (3a) in contact with the upper surface of the gauge plate (3).

The fixing panel 6 is installed at the lower side of the main body 2 so as to be positioned below the adjusting stand 30, and the control panel 7 is electrically connected to the engine. In addition, the fixing panel 6 on the lower side of the main body 2 is provided with a fine control means for the fine control of the operation handle (5) to be controlled by the dial (8) installed on the outside of the main body (2).
The microadjustment means 10 is installed to be supported on the housing 10a so that the input shaft 13 is disposed in a direction perpendicular to the drive shaft 14 to which the dial 8 is coupled, and the drive shaft 14 and the input shaft 13 The drive bevel gear 14a and the driven bevel gear 13a are installed in gear so that the input shaft 13 can be driven when the dial 8 is rotated, and the worm 15 is provided at the other end of the input shaft 13. ), The worm 15 is gear-coupled with the worm wheel 17 located on the output shaft 11 supported by the housing 10a, and the operation is performed on the output shaft 11 exposed to the outside of the housing 10a. It consists of a configuration in which the input gear 12 is geared to the main gear (9) installed on the shaft (4).

The above configurations are the same as those of the generally-used munubering handle 1, and the subject innovation of the present invention is the dial 8 which is exposed to the outside of the main body 2 in the munubering handle 1 as described above. When operating the operating handle (5) is driven together with the fine adjustment is made, on the contrary, when operating the operating handle (5) the dial (8) is to maintain a stop state.

That is, in the present invention, the worm wheel 17 located on the output shaft 11 in the fine adjustment means 10 is assembled with the output shaft 11 in a separated state, and the power transmission can be controlled by the clutch means 22. To be.

The clutch means 22 rotates the main gear 9 through the input gear 12 when rotating the dial 8, and conversely, the main gear 9 on the operating shaft 4 to which the operating handle 5 is coupled. Is rotated, the dial 8 is configured to maintain a stationary state, the configuration is to assemble the worm wheel 17 in a state separated from the output shaft 11, one side of the worm wheel 17, the output shaft ( 11 is formed integrally with the disk plate 11a, the friction washer 16 is fitted to the output shaft 11 so as to be located between the worm wheel 17 and the disk plate 11a, and the disk plate 11a On the other side, the spring 20 pressurized by the friction washer 18, the stainless washer 19, and the spring presser 21 to the output shaft 11 is pressed in order to press the worm wheel 17 toward the friction washer 16. Install and configure.

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The clutch means 22 is such that the worm 15 drives the worm wheel 17 when the dial 8 is turned. At this time, the worm wheel 17 and the friction washer 16 are driven by the elastic force of the spring 20. While being pressed toward 11a, the rotational force of the worm wheel 17 is provided to the disk plate 11a through the friction washer 16, and rotates the output shaft 11 integrally formed with the disk plate 11a, and output shaft ( The input gear 12 coupled to 11 drives the main gear 9 to finely move the position of the operation handle 5.

On the contrary, when the operating handle 5 is moved, the rotational force is reversely provided to the output shaft 11 to which the input gear 12 is coupled. According to the present invention, when the rotational force is provided to the disk plate 11a, Unlike the worm 15 having a load on the worm wheel 17, the worm wheel 17 is pushed toward the spring 20, as shown in Figure 8, so that the worm wheel 17 disk plate 11a And the adhesion force of the friction washer 11 is to be a state that is impossible to transmit power through them.

In the case of using the design of the present invention's manufacturing lever (1), the operation handle (5) is finely moved together when operating the dial as mentioned above. Since the position of (1) is always coincident, the user can easily check the actual situation through the maneuvering handle (1).

In the detailed description of the present invention, specific embodiments have been described, but various modifications are possible without departing from the scope of the present invention. Therefore, the scope of protection of the present invention should not be limited to the described embodiments, but should be defined by equivalents as well as the following claims.

1: Nunubering handle 2: Body
3: gauge plate 4: working shaft
5: Operating handle 6: Fixed panel
7: Control circuit board 8: Dial
9: main gear 10: clutch means
10a housing 11: output shaft
11a: disc 12: input gear
13: Input shaft 13a: Driven bevel gear
14: Drive shaft 14a: Drive bevel gear
15: Warm 16: Friction Washer
17: Worm wheel 18: friction washer
19: stainless washer 20: spring
21: spring presser 22: clutch

Claims (1)

The main body 2 fixed to the adjustment stand 30 of the engine control room, the arc-shaped gauge plate 3 installed above the main body 2 so as to be exposed to the outside of the adjustment stand 30, and the gauge plate 3 An operating handle that is coupled to the operating shaft 4 installed to be supported by the main body 2 so as to cross the inner side of the main body 2 and the operating shaft 4 drawn out of the main body 2 and rotates along the upper portion of the gauge plate 3. (5), the fixed panel 6 installed on the lower side of the main body 2 so as to be positioned below the adjustment stand 30, and the fixed panel 6 so that the fine operation of the operation handle 5 can be made. It is installed and installed on the fixed panel (6) to provide information of the operation handle (5) and the micro-adjusting means (10) which is operated by the dial (8) installed on the outside of the main body (2) and electrically connected to the engine. A control circuit board (7),
The microadjusting means 10 is installed to be supported by the housing 10a so that the input shaft 13 is disposed in a direction perpendicular to the drive shaft 14 to which the dial 8 is coupled, and the drive shaft 14 and the input shaft 13 Drive bevel gear (14a) and the driven bevel gear (13a) in gear, the other end of the input shaft 13 is formed with a worm (15), the worm (15) output shaft (11) supported by the housing (10a) The input gear 12 gear-couples the worm wheel 17 located on the upper side, and is gear-coupled with the main gear 9 installed on the operating shaft 4 to the output shaft 11 exposed to the outside of the housing 10a. In the nunubering handle 1 is installed;
The worm wheel 17 located on the output shaft 11 in the fine control means 10 is configured to control the power transmission by the clutch means 22,
The clutch means 22 assembles the worm wheel 17 with the output shaft 11 in a separated state, and on one side of the worm wheel 17 forms a disk plate 11a integrally formed with the output shaft 11, and the worm wheel ( The friction washer 16 is inserted into the output shaft 11 so as to be located between the disk plate 11a and the disk plate 11a, and the output shaft is pressed against the friction washer 16 toward the opposite side of the disk plate 11a. Mannuburing handle, characterized in that configured to sequentially install the spring washer (18) is pressed by the friction washer (18), the stainless washer (19) and the spring pressure port (21).

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