KR200431097Y1 - Fountain driving device - Google Patents

Abstract

The present invention relates to a fountain drive device, in particular to form a worm gear in the operating shaft of the nozzle drive motor for driving forward and backward, and to form a connecting housing for receiving the worm gear, the engagement inside the connecting housing to the worm gear rotates And a water pipe through which the water pumped by the pump passes through a coupling hole formed at the center of the operation gear, and the nozzle is coupled to the end of the water pipe so that the nozzle It is formed to move left and right, so that the response speed of the nozzle can be improved in response to the operation of the nozzle driving motor, and the nozzle is operated by mechanical coupling, so that the reliability of the nozzle movement can be maintained even if used for a long time. It is possible to connect several connecting shafts to the working shaft, By connecting the blades, it is possible to drive several nozzles at the same time, as well as to easily change the operation direction of the nozzle by changing the direction of the screw of the worm gear in the opposite direction. To a fractional drive.

Fountain drive, nozzle drive motor, nozzle, working shaft, worm gear, working gear,

Description

Fountain driving device

1 is a front view showing a fountain drive device of the present invention.

Figure 2 is a side view showing a fountain drive device of the present invention.

Figure 3 is a sectional view showing a fountain drive device of the present invention.

Figure 4 is a plan view showing a fountain drive device of the present invention.

5 is a view illustrating an operating state of the present invention.

Explanation of symbols for main parts of the drawings

41: nozzle drive motor, 42: jaw coupling,

43: nozzle, 44: flat plate,

45: working shaft, 46: worm gear,

47: connecting housing, 48: operating gear,

49: coupling hole, 50: pin,

51: waterpipe, 52: fin groove,

53: connecting shaft, 54: connecting pipe,

60: pump, 61: transfer pipe,

The present invention relates to a fractional drive device, and in particular, it is possible to improve the operation response speed of the nozzle in response to the operation of the nozzle driving motor, and the nozzle is operated by mechanical coupling. Reliability can be maintained, and several nozzles can be driven at the same time by connecting several connecting shafts to the working shaft and the same structure to the connecting shafts, as well as changing the screw direction of the worm gear to the opposite direction. It is possible to easily change the direction of operation of the nozzle by means of the present invention relates to a fountain drive device that can drive a plurality of nozzles in various forms at the same time.

In general, the fountain is to create a fountain of various types by injecting the water through the nozzle by each of the water fountain device having a nozzle is connected to the pipe to pump the water into the pipe.

Conventional fountains are configured to spray water by positioning the nozzle of the fixed type to the direction to be directed, the technology is developed to produce a variety of shapes by adjusting the time to be sprayed from a plurality of fountains in a more advanced form.

In addition, in recent years, the fountain nozzle is controlled to be driven to adjust the direction of the fountain so that more various types of fountains can be produced.

In this manner, Utility Model Registration No. 377848 is pre-registered as a prior art for controlling the direction of the fountain by driving the fountain nozzle.

However, the pre-registered prior art constitutes a separate power means consisting of a motor, a power transmission bar, and a cam, and is a complicated structure for transmitting the power generated by the power means to the fountain nozzle as a plurality of power transmission bars. Not only is it difficult, but a combination of a number of components has caused a problem that the reliability of the performance is reduced.

In addition, as a conventional technique, a technique of driving a plurality of nozzles to the left and right by using a wire has been provided, but when a wire is used for a long time, there is a problem that the nozzle does not operate normally due to loose tension of the wire or slip. there was.

Accordingly, the present invention for solving the above problems is to form a worm gear in the operating shaft of the nozzle drive motor for driving forward and backward, and to form a connecting housing for receiving the worm gear, the engagement inside the connecting housing to the worm gear rotates And a water pipe through which the water pumped by the pump passes through a coupling hole formed at the center of the operation gear, and the nozzle is coupled to the end of the water pipe so that the nozzle It is formed to move left and right, so that the response speed of the nozzle can be improved in response to the operation of the nozzle driving motor, and the nozzle is operated by mechanical coupling, so that the reliability of the nozzle movement can be maintained even if used for a long time. It is possible to connect several connecting shafts to the working shaft, By connecting the blades, several nozzles can be driven at the same time, as well as the direction of operation of the nozzle can be easily changed by changing the screw direction of the worm gear in the opposite direction. It is an object of the present invention to provide a fractional driving device.

The present invention for achieving the above object,

According to claim 1,

A worm gear is formed on the operating shaft of the forward and backward nozzle driving motor, and a connecting housing for accommodating the worm gear is formed. An operating gear is formed inside the connecting housing to rotate with the worm gear, and a center of the operating gear is formed. Penetrating the water pipe through which the water pumped by the pump passes through the coupling hole formed in the coupling hole, and the nozzle is coupled to the end of the water pipe to move the nozzle to the left or right according to the rotational direction of the operating gear. .

According to claim 2,

A plurality of fins protrude from the inner circumferential surface of the coupling hole, and a pin groove into which the pin is fitted is formed on the outer circumferential surface of the water pipe.

According to claim 3,

Several connecting shafts are connected to the ends of the operating shafts by jaw coupling, and worm gears, operating gears, connecting housings, and nozzles having the same structure as the nozzle driving units can be connected to each connecting shaft to operate multiple nozzles at the same time. It is characterized by that.

According to claim 4,

When the thread forming direction of the worm gear is changed in the opposite direction, the direction of rotation of the operating gear is reversed, and the operating direction of the nozzle is reversed.

Hereinafter, a preferred embodiment of the present invention with reference to the accompanying drawings, Figures 1 to 5 are as follows.

According to the drawings, the present invention

A connecting housing 47 having a nozzle driving motor 41 for driving forward and backward, forming a worm gear 46 on an operating shaft 45 of the nozzle driving motor 41, and accommodating the worm gear 46. To form.

The operating gear 48 is rotated in engagement with the worm gear 46 in the connecting housing 47 in the vertical direction, and the coupling hole 49 is formed in the center of the operating gear 48. A plurality of pins 50 are formed to protrude on the inner circumferential surface of the pin 49, and the pin groove into which the pin 50 is fitted on the outer circumferential surface of the coupling hole 49 passes through the water pumped by the pump 60. 52 penetrates the formed water pipe 51, and the nozzle 43 is vertically coupled to the end of the water pipe 51 through a connecting pipe 54 to the nozzle according to the forward and reverse rotation of the operating gear 48. Allow (43) to move left and right.

Then, a plurality of connecting shafts 53 are connected to the ends of the operating shafts 45 by jaw couplings 42, and worm gears, operating gears, connecting housings, nozzles, etc. are connected to the respective connecting shafts 53. By configuring, several nozzles 43 can be operated at the same time.

Accordingly, when the nozzle drive motor 41 is reversely rotated by an external control signal, the rotational force is transmitted to the operating gear 48 through the operating shaft 45 and the connecting shaft 53, the operating gear 48 is As the forward and reverse rotation, the nozzle 43 coupled to the end of the water pipe 51 in the vertical direction moves in the left and right directions to spray water.

On the other hand, when a plurality of nozzles 43 are connected to the nozzle driving motor 41 and the screw direction of the worm gear at a specific position is formed in the opposite direction, the operation direction of the nozzle 43 is different from that of the other nozzles. By being in the opposite direction, it is possible to operate several nozzles 43 at the same time or in the same direction and opposite direction by using one nozzle drive motor 41.

As the flat plate 44 is formed at the lower end of the nozzle 43, and the plurality of LEDs 11 are formed on the flat plate 44, a plurality of LEDs 11 are directly sprayed through the fountain 43 sprayed through the nozzle 43. To illuminate

Referring to the operation of the present invention configured as described above is as follows.

In a state where a plurality of nozzles 43 are installed on the operating shaft 45 of the nozzle driving motor 41 and the plurality of connecting shafts 53 connected to the operating shaft 45, as shown in FIG.

When the nozzle driving motor 41 rotates forward and backward, the rotational force of the nozzle driving motor 41 is transmitted to the operating shaft 45 and the connecting shaft 53 to each of the operating shaft 45 and the connecting shaft 53. The formed worm gear 46 is rotated.

Accordingly, the operating gears 48 engaged with the respective worm gears 46 rotate forward and backward, such that the nozzle 43 moves left and right in the same direction as the rotational direction of the operating gear 48.

On the other hand, as shown in Figure 5 when the nozzle forming direction of the worm gear connected to the even-numbered (A2, A4, A6) nozzle in the state that the nozzles of A1 ~ A7 is connected to the opposite direction of the nozzle drive motor 41 The odd-numbered nozzles A1, A3, A5, A7 and the even-numbered nozzles A2, A4, A6 are moved in opposite directions with respect to the same rotational force, thereby creating a fountain in which the water streams sprayed from the nozzles cross each other.

In the present invention as described above, the rotational force of the nozzle driving motor 41 is transmitted to the operating gear 48 through the operating shaft and the connecting shaft so that the nozzle 43 moves left and right, thereby improving the responsiveness to the movement of the nozzle. Of course, even if used for a long time, such as a phenomenon that the wire is loosened does not occur as in the prior art it is possible to improve the reliability of the operation of the nozzle.

As described above, the present invention is to form a worm gear in the operating shaft of the nozzle drive motor for driving forward and backward, and to form a connecting housing for accommodating the worm gear, the operation gear rotates in engagement with the worm gear inside the connecting housing And a water pipe through which the water pumped by the pump passes through the coupling hole formed at the center of the operating gear, and the nozzle is coupled to the end of the water pipe to move the nozzle from side to side according to the rotational direction of the operating gear. It is formed so that the response speed of the nozzle can be improved in response to the operation of the nozzle driving motor, and the nozzle is operated by mechanical coupling, so that the reliability of the nozzle movement can be maintained even if used for a long time. Connect several connecting shaft to the shaft and connect several nozzles with the same structure to the connecting shaft Therefore, it is possible to drive several nozzles at the same time, as well as to easily change the operation direction of the nozzle by changing the screw direction of the worm gear in the opposite direction. The effect of providing a drive device can be expected.

Claims (4)

The worm gear 46 is formed on the operating shaft 45 of the nozzle driving motor 41 which is driven forward and backward, and a connecting housing 47 is formed to accommodate the worm gear 46, but inside the connection housing 47. A water pipe through which the water pumped by the pump 60 passes through the coupling hole 49 formed in the center of the actuating gear 48 to form an actuating gear 48 which rotates in engagement with the worm gear 46. 51 and penetrates the nozzle 43 to the end of the water pipe 51, so that the nozzle 43 moves to the left or right in accordance with the rotational direction of the operating gear 48, characterized in that the drive device . The method of claim 1, wherein the plurality of fins 50 are formed on the inner circumferential surface of the coupling hole 49, and the pin groove 52 is formed on the outer circumferential surface of the water pipe 51 to fit the pin 50. Fountain drive. The method of claim 1, A plurality of connecting shafts 53 are connected to the ends of the operating shafts 45 by jaw couplings 42, and worm gears and operating gears having the same structure as the nozzle driving unit 4 on the respective connecting shafts 53. The connecting housing, nozzles, etc. by connecting to configure the fountain drive device, characterized in that to operate several nozzles (43) at the same time. The fractional drive device according to claim 1, wherein when the thread forming direction of the worm gear is changed in the opposite direction, the rotation direction of the operating gear is reversed, and the operating direction of the nozzle 43 is reversed.

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