KR20140005541U - Revolution Speed Reduction Device of Swivel Nozzle - Google Patents

Abstract

The present invention relates to an apparatus for reducing the rotational speed of a rotary nozzle capable of reducing the rotational speed of a rotary nozzle for spraying a medicine while being rotated by an inclined angle of rotation of the nozzle in an automatic cleaner for a vinyl house.
The apparatus for reducing the rotational speed of a rotary nozzle proposed in the present invention includes a support pipe B1 connected to a spray pipe A4 of a greenhouse automatic cleaner, a bearing unit B2 connected to the support pipe, A connecting pipe B3 connected to the unit, a nozzle branch pipe B4, a both-side nozzle pipe B5 and a nozzle B6 are provided in the connecting pipe, and the connection pipe is connected to the bearing unit by the inclination angle of the nozzle and the injection pressure. A rotation nozzle (B) in which the coupling structures of the pipe and the connection tube are injected while being rotated by itself. The rotary nozzle (B) has an enlarged size rotary disk (1) interposed between the bearing unit (B2) and the connection pipe (B3) A fixing lid 2 fixedly coupled to the support tube B1 and capable of covering the outer periphery of the rotary disc, a ball 31 mounted on the fixed lid at equal intervals in the circumferential direction so as to press the surface of the rotary disc, (32), and a tightening port (33), characterized in that the elastic member do.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a rotary speed reduction device,

The present invention relates to an apparatus for reducing the rotational speed of a rotary nozzle capable of reducing the rotational speed of a rotary nozzle for spraying a medicine while being rotated by an inclined angle of rotation of the nozzle in an automatic cleaner for a vinyl house.

As shown in Fig. 1, the automatic cleaner for a vinyl house has a car A2 which can be transported on the rail A1 on the upper part of the vinyl house, a main pipe A3 provided in front of the car, A plurality of rotary nozzles B are installed in the spray tube A4.

2, the rotary nozzle B includes a support pipe B1 connected to the branch pipe A5 of the injection pipe A4, a bearing unit B2 connected to the support pipe, A nozzle B5 mounted on both sides of the nozzle branch pipe and a nozzle B6 on both sides of the nozzle pipe are connected to the connection pipe B3, do.

At this time, the nozzles B6 on both sides are slanted so as to be rotatable in the circumferential direction, so that the components connected to the bearing unit B2 from the support pipe B1 by the ejection pressure of the nozzle B6 can rotate .

Such rotary nozzle type spraying has an advantage that the spraying of the medicines can be performed more uniformly than the non-rotating type spraying method.

However, there has been a problem that the rotating speed of the rotating nozzle is too fast due to excessive sliding of the bearing unit or an extreme angle of inclination of the nozzle or an ejection pressure of an excessive nozzle.

In this way, if the rotational speed of the rotary nozzle is too fast, the jetting pressure of the nozzle is almost consumed by the rotational force, and the medicine can not be jetted away.

Conventionally, as shown in FIG. 2, the rotation speed of the nozzle is reduced by fastening the support tube B2 using a fastener C on one side of the coupling pipe B3.

However, in the conventional method, there is a problem that wear of the support tube B2 due to contact with the fastener C is severe, and damage and noise are severe. In particular, it is difficult to adjust the fastening force and the rotation speed can not be precisely adjusted.

That is, when the initial tightening is performed, a satisfactory rotational speed can be obtained by giving a proper tightening force, but the rotational speed is returned to the original state due to the wear of the contact portion or the loosening of the fastener due to the rotational force.

On the other hand, in the prior art, in the case of 10-2009-0113629, a gear is formed on a rotating body connected to a nozzle, and a reduction gear is provided on one side of the gear. By pressing the reduction gear with an elastic force, As well.

However, the above-described method is advantageous for low-speed rotation, but it is disadvantageous in free rotation because the reducer is always engaged in the rotation body, and since the rotation speed is reduced at the side, the reduction force can not be given uniformly throughout the rotation body, There is a problem in that it is difficult to precisely adjust the rotation speed as well as the cost increase due to the complex use of multiple bearings provided on the upper and lower portions, the application of gears, the cover of a specific shape, the organic coupling relationship and the structure.

Application No. 10-2009-0113629.

The present invention has been developed in consideration of the prior art, and it is possible to reduce the rotation speed, in particular, by a simple structure and low cost, to precisely adjust the rotation speed with an equal pressing force, and to reduce wear, The rotation speed of the rotary nozzle is reduced.

According to the present invention, there is provided a rotation speed reducing apparatus for a rotary nozzle, comprising: a support pipe connected to a spray pipe of an automatic cleaner for a greenhouse; a bearing unit connected to the support pipe; a connection pipe connected to the bearing unit; Wherein the connection pipe is provided with a nozzle branch pipe, a both-side nozzle pipe, and a nozzle so that the coupling structure of the connection pipe and the connection pipe is injected by self-rotation by the inclination angle of the nozzle and the injection pressure,

A rotating plate of an enlarged size interposed between the bearing unit and the connecting pipe and fixed by compression; a fixed lid fixedly coupled to the supporting pipe and capable of covering the outer periphery of the rotating circular plate; And an elastic member composed of a surface pressing ball, a spring, and a tightening member.

In the present invention as described above, the rotating disk fixed to the rotating body is uniformly pressurized at regular intervals by a ball and a resilient member composed of a spring and a throttle in a fixed lid fixed to the supporting body, thereby reducing the rotational speed of the rotating nozzle As a result,

The number of constituents is small and the structure is simple, the effect of reducing the rotation speed by low cost and simple operation,

Since the surface of the rotary disk is pressurized by disposing a plurality of elastic members in the circumferential direction of the expanded centrifugal force by equally spacing the enlarged centrifugal force by the addition of the rotating disk having the expanded size, The effect of being able to precisely adjust the rotational speed,

When the ball is pressed by the elastic member, the ball rotates itself on the surface of the rotating disk, so that the wear / damage / noise hardly occurs.

FIG. 1 is a schematic diagram of a conventional full-
2 is a cross-
Figure 3 is a cross-
Fig. 4 is a plan view of Fig. 3
5 is an exploded sectional view of Fig. 3
Figure 6 shows another example of the present invention
Figure 7 shows another example of the present invention
8 is another example of the present invention.

Hereinafter, preferred embodiments for implementing the present invention will be described in more detail with reference to the accompanying drawings. However, in explaining the present invention, the detailed description of the known technology and the conventional technology registered beforehand may be omitted due to the blurring of the gist of the present invention.

As shown in Figs. 1 and 2, the present invention relates to a support pipe B1 connected to a spraying pipe A4 of a greenhouse automatic cleaner, a bearing unit B2 connected to the support pipe, And a nozzle B5 and a nozzle B6 are installed in the connecting pipe and the connecting pipe and the connecting pipe are connected to each other by the inclination angle of the nozzle and the injection pressure. (B) in which the nozzle assembly (nozzle branch tube, both nozzle tubes and nozzles) are sprayed while rotating.

As shown in FIGS. 3 to 5, the present invention relates to a rotary disk 1 of an enlarged size interposed between the bearing unit B2 and the connection pipe B3, A ball 31 fixed to the stationary lid at equal intervals in the circumferential direction and capable of pressing the surface of the rotary disc, a spring 32, And an elastic member (3) composed of a tightening port (33).

That is, the main constitution of the present invention is that the main constitution of the present invention includes at least a premise constituted by the organic bonds of the supporting pipe B1, the bearing unit B2 and the connecting pipe B3, ), And the elastic member (3). This will be described in more detail as follows.

The support tube B1 has a fastening portion B11 whose upper end is fastened to the branch tube A5 of the spray tube A4, a fastening head B12 at the lower portion thereof, an elongated axial tube B13, It is preferable that a leak preventing ring B14 is provided at the end of the shaft tube,

The bearing unit B2 is inserted into the outer surface of the upper end of the shaft pipe B13 of the support pipe B1 and is fixed by the engagement of the lower end snap ring B2a and a bearing ball B21 is provided in the inner pipe, It is preferable that the knurling B22 and the fastening shaft B23 are provided at the lower portion thereof,

The lower end of the connecting pipe B3 is connected to the lower end of the shaft pipe B13 of the supporting pipe B4 and the upper end of the connecting pipe B3 is connected to the lower end of the connecting shaft portion B23 of the bearing unit B2. It is preferable that a fastening shaft portion B31 is provided,

The rotary disk 1 is formed of a ring-shaped disk and inserted into the upper end of the fastening shaft portion B23 of the bearing unit B2 to be inserted between the bearing unit B2 and the coupling pipe B3 And is preferably pressed and fixed,

The upper lid 21 is inserted into the outer surface of the tightening head B12 of the support pipe B1 and fastened to the support pipe B1 by the fastening hole 2a in the horizontal orthogonal direction of the fastening lid B12, And a plurality of elastic holes 3 for mounting the elastic members 3 in the circumferential direction in a planar manner are formed at equal intervals on the upper end of the circular plate 1,

The elastic member 3 includes a ball 31 of an appropriate size capable of pressing the surface of the rotary disk 1, a part of the elastic member 3 which is covered on the outer upper part of the ball, The spring (32) is inserted into the hole (22) of the fixed lid (2), and a tightening hole (33) is formed in the hole (22) of the fixed lid So as to be fastened.

In this case, the surface of the rotary disk 2 may be worn by the pressing force of the balls 31. For this purpose, it is more preferable to use the rotary disk 2 by heat treatment.

The present invention as described above is characterized in that the rotary disk 1 fixed to the rotating body is fixed to the elastic body 3 composed of the ball 31, the spring 32 and the tightening member 33 in the fixed lid 2 fixed to the support body And the rotational speed with respect to the rotary nozzle B is reduced by decreasing the number of constituents and simplifying the structure. Thus, it is possible to reduce the rotational speed by low-cost and simple operation, Since the surface of the rotary disk 1 is pressed by a plurality of elastic members 3 arranged at equal intervals in the circumferential direction of the expanded centrifugal force by the centrifugal force in addition to the size of the rotary disk 1, And the effect that the rotational speed can be precisely adjusted by the individual adjustment of the elastic member 3 and the effect that the ball 31 rotates itself on the surface of the rotary disk 1 when pressed by the elastic member 3, / Damage / Almost no noise And it is.

6, in the present invention, the elastic member 3 is provided between the ball 31 and the spring 32, and the lower portion thereof is formed with a receiving groove 34a for preventing ball breakage, 34b having a shaft portion 34c and a connecting portion 34 having a shaft portion 34c.

At this time, the receiving groove 34a of the connecting hole 34 is over half of the outer surface of the ball, and the receiving jaw 34b and the shaft portion 34c receive the lower end of the spring 32, It is ideal to construct so that it can be supported and the material is made of copper so that sliding is advantageous.

In this case, it is more advantageous to prevent the ball from rotating and the ball from being separated from the ball, and it is possible to prevent the spring from being opened when the spring is directly pressed against the ball.

7, in place of the ball 31 of the elastic member 3, the semi-circular ball portion 35a is formed as a lower part, the spring supporting base 35b and the shaft portion 35c are integrally formed as shown in FIG. 7 It can be replaced with a pressurizing port 35.

At this time, it is ideal that the pressing member 35 is made of copper.

This can completely eliminate the heat treatment due to the fear of disengagement of the balls 31 and the surface abrasion of the rotary disk 2, and also has an effect of further enhancing the pressing force.

8, the fastening port 33 of the elastic member 3 is formed of a pin 33a and the upper end of the fastening lid 2 is fastened so that the plurality of pins 33a can be pressed at the same time, It is more preferable to add the cap 4 which is covered by the screw portion 40 and is engaged.

At this time, the hole 22 of the fixed lid 2 is not formed by a screw but is formed as a simple hole 22a so as to be freely slidable, and the outer surface of the cap 4 constitutes a nut ring 41 Is more preferable.

In this case, the fastening opening 33 can be adjusted at once without individually adjusting the opening, thereby improving convenience.

Although the present invention has been described above, the drawings presented to illustrate the implementation of the present invention may not be suitable for the purpose of highlighting the features by way of example, and the portions that may blur the subject are deleted for convenience. It will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention.

The rail (A1) carriage (A2)
Main (A3) Sprayer (A4)
Branch nozzle (A5) Rotary nozzle (B)
The supporting pipe (B1) fastening portion (B11)
Tightening head (B12) Shaft (B13)
Ring (B14) Bearing unit (B2)
Bearing ball (B21) Sleeper (B22)
The fastening shaft portion (B23) retaining ring (B2a)
The connecting pipe (B3) fastening shaft portion (B31)
Nozzle branch pipe (B4) Nozzle pipe (B5)
The nozzle (B6) fastener (C)
Rotating disc (1) Fixing lid (2)
The inner pipe 21, the hole 22,
The hole (22a) fastener (2a)
The elastic member 3, the ball 31,
The spring (32) tightening means (33)
The connecting hole 34 receiving groove 34a,
The shaft portion 34c of the support jaw 34b,
The push portion 35, the ball portion 35a,
The shaft portion 35c of the support jaw 35b,
The pin 33a, the cap 4,
Throwing (41)

Claims (5)

A supporting pipe B1 connected to the spraying pipe A4 of the automatic greenhouse automatic cleaner, a bearing unit B2 connected to the supporting pipe, a connecting pipe B3 connected to the bearing unit, And the nozzle B5 and the nozzle B6 are provided in the nozzle branch pipe B4 and the nozzle B5 and the nozzle B6 are connected to the nozzle branch pipe B4, In the nozzle B,
A rotating circular plate 1 of an enlarged size interposed between the bearing unit B2 and the connecting pipe B3 and fixed to the stationary lid 1 by engagement with the supporting pipe B1, 2, and an elastic member 3 composed of a ball 31, a spring 32, and a tightening member 33 which are equidistantly mounted on the fixed lid in the circumferential direction so as to press the surface of the rotary disk, And the rotation speed of the rotary nozzle is reduced.
The method according to claim 1,
The support tube B1 has a fastening portion B11 whose upper end is fastened to the branch tube A5 of the spray tube A4, a fastening head B12 at the lower portion thereof, an elongated axial tube B13, A water leakage preventing ring (B14) is provided at the end of the shaft tube,
The bearing unit B2 is inserted into the outer surface of the upper end of the shaft pipe B13 of the support pipe B1 and is fixed by the engagement of the lower end snap ring B2a and a bearing ball B21 is provided in the inner pipe, And a fastening shaft portion B23 at a lower portion thereof,
The lower end of the connecting pipe B3 is connected to the lower end of the shaft pipe B13 of the supporting pipe B4 and the upper end of the connecting pipe B3 is connected to the lower end of the connecting shaft portion B23 of the bearing unit B2. And a fastening shaft portion B31,
The rotary disk 1 is formed of a ring-shaped disk and inserted into the upper end of the fastening shaft portion B23 of the bearing unit B2 to be inserted between the bearing unit B2 and the coupling pipe B3 And is pressed and fixed,
The upper lid 21 is inserted into the outer surface of the tightening head B12 of the support pipe B1 and fastened to the support pipe B1 by the fastening hole 2a in the horizontal orthogonal direction of the fastening lid B12, And a plurality of holes 22 for mounting the elastic members 3 are formed on the upper end thereof in the circumferential direction in a plan view at even intervals,
The elastic member 3 includes a ball 31 of an appropriate size capable of pressing the surface of the rotary disk 1, a part of the elastic member 3 which is covered on the outer upper part of the ball, The spring (32) is inserted into the hole (22) of the fixed lid (2), and a tightening hole (33) is formed in the hole (22) of the fixed lid Thereby rotating the rotary nozzle.
The method according to claim 1,
The elastic member 3 is provided between the ball 31 and the spring 32. The lower portion of the elastic member 3 has a receiving recess 34a for preventing ball breakage and a connecting portion 34c having a spring- (34) is added to the rotation speed of the rotary nozzle.
The method according to claim 1,
The ball 31 of the elastic member 3 is replaced by a pushing member 35 having a semi-circular ball portion 35a at its lower portion and a spring supporting base 34b and a shaft portion 34c And the rotation speed of the rotary nozzle is reduced.
The method according to claim 1,
The fastening port 33 of the elastic member 3 is formed of a pin 33a and is fastened to the upper end of the fastening lid 2 so as to press the pins 33a at the same time, Wherein a cap (4) is added to the rotational speed of the rotating nozzle.

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