KR20090109884A - A participle nozzle - Google Patents

Abstract

PURPOSE: A chemical dispense nozzle of a spray is provided to control a chemical dispense region according to spray area and to reduce the power of a blower required for chemical solution spray. CONSTITUTION: A chemical dispense nozzle of a spray has a ball(20) for checking the flow and blocking of chemical solution to an inflow hole of a body(10) with a predetermined chemical solution accommodation space. The ball is elastically supported by a spring(40) in which a tension is controlled by a pressing plate(30). The chemical solution penetrated through a through-hole(31) is sprayed through a spray hole(51) of the mounted spray plate(50) by a stopper ring(70).

Description

Chemical spray nozzle of a wide area spreader {a participle nozzle}

The present invention relates to a chemical spray nozzle of a wide-area spreader, which allows spraying of chemicals such as insecticides to a large area when farming on a large farmland, and particularly, when the spraying of chemical liquid is stopped, the remaining chemical liquid remains inside the nozzle. It is possible to prevent leakage of water, and also to inject the chemical liquid farther to reduce the power required for the chemical liquid injection, and also to control the injection pressure of the chemical liquid according to the area of the farmland, so that efficient chemical liquid injection is achieved. It was to lose.

      At present, the chemical liquid spray nozzle mounted on the wide area spreader is mounted on the discharge port side of the spray head so that the chemical liquid contained in the chemical tank is supplied to the spray nozzle by the spray pump and sprayed through the spray hole formed at the center of the nozzle. The chemical liquid injected through the injection nozzle is capable of remote injection through a discharge port of the injection head by blowing air generated by a fan mounted on the inlet side of the injection head to enable chemical liquid injection into a wide area.

      However, at this time, even if the mounted chemical liquid injection nozzle stops the operation of the injection pump and the chemical liquid injection is stopped, some chemical liquid remains inside the nozzle, whereas the chemical liquid remaining inside the nozzle is further sprayed due to the loss of the injection pressure. Is stopped and flows down through the nozzle hole, causing not only the leakage of the chemical liquid, but also the leakage of the chemical liquid clogs the nozzle hole, thereby preventing the smooth injection of the chemical liquid.

     In addition, since the nozzle itself has no function to adjust the injection pressure of the chemical liquid, the injection distance of the chemical liquid is dependent only by the power of the fan, so when the area of the agricultural soil to which the chemical liquid is sprayed is wide, an economic burden is generated according to the power consumption. It is not easy to adjust the injection distance of the chemical liquid according to the area could not be made effective chemical liquid injection.

Therefore, the injection nozzle of the present invention, by blocking the ball so that the inlet hole of the chemical liquid is opened only by the down pressure so that the inlet hole of the chemical liquid is blocked directly by the ball when the operation of the chemical pump stops so that the remaining chemical liquid does not remain inside the nozzle It is to prevent leakage.

In addition, the inlet of the chemical liquid is to have the efficiency of the chemical liquid injection by adjusting the injection distance of the chemical liquid by adjusting the injection pressure of the chemical liquid through the tension control of the spring for pressing the ball.

In addition, the chemical liquid introduced through the inlet of the chemical liquid is finely split by the ball, so that the injection is performed through the vortex to increase the injection pressure of the chemical liquid, thereby enabling long-distance injection even with a small amount of blowing air. It is to increase.

To this end, the injection nozzle of the present invention, the ball is mounted in the inlet of the chemical liquid, the ball is touched by a spring whose tension is controlled by the pressure plate is opened only by the coercion to open and close the cracking to solve the problem of leakage In addition, the pressure plate is capable of controlling the injection pressure of the chemical liquid by adjusting the tension of the spring to enable efficient chemical liquid injection by adjusting the injection distance of the chemical liquid, and the chemical liquid ejected through the pressure plate through the vortex induction plate Vortex formation increases the injection pressure, enabling long-range injection with less power.

As described above, the spray nozzle of the present invention is capable of preventing leakage of the chemical liquid through the nozzle even when the spraying operation of the chemical liquid is stopped, thereby preventing unwanted consumption of the chemical liquid, and also by adjusting the injection pressure of the nozzle itself. The injection distance can be adjusted appropriately according to the area, so that the effective chemical injection can be achieved. Also, the increase of the chemical injection pressure can reduce the power of the blower required for the remote injection of the chemical. You can.

Hereinafter, the configuration of the present invention will be described in more detail with reference to the accompanying drawings.

As shown in FIGS. 1 to 4, the chemical liquid injection nozzle of the wide-area spreader of the present invention intercepts the inflow and blocking of the chemical liquid into the inflow hole 11 of the chemical liquid of the body 10 having a predetermined chemical liquid storage space. The ball 20 is mounted in a state held by the spring 40, the tension is controlled by the pressure plate 30 is mounted to the outlet portion 12 of the chemical liquid to be opened only by the pressing force of the spring 40 tension or more After the passage of the chemical liquid through the through hole 31 formed in the center of the pressure plate 30, the injection hole 51 of the injection plate 50 mounted by the stopper ring 70 coupled to the end of the outlet portion 12 Through the injection of the chemical liquid is configured to be made.

In addition, the engaging portion 32 is formed on the edge portion of the pressing plate 30, and the coupling portion 12a made of a screw line is formed on the inner surface of the outlet portion 12 of the chemical liquid on which the pressing plate 30 is mounted. The tension of the spring 40 is adjusted according to the degree of rotation of the pressure plate 30 by allowing the engaging piece 32 to be rotated by the screw line of the coupling part 12a to be engaged with the chemical liquid outlet part 12 when the 30 is rotated. To make this happen.

In this case, the locking piece 32 may be formed in various ways, such as by cutting a portion of the edge of the pressure plate 30 by a predetermined length and lifting it to one side.

In addition, the through-hole 31 formed in the pressure plate 30 is formed to be angled so that the rotation of the pressure plate 30 using the lens, so that the tension of the spring 40 can be easily adjusted through tightening and loosening. .

On the other hand, between the pressure plate 30 and the jet plate 50 is provided with a vortex induction plate 60 which is guided to the vortex state by the vortex induction line 61 formed on the bottom surface of the pressure plate 30, The chemical liquid ejected through the through hole 31 is injected into the vortex state through the injection hole 62 of the vortex induction plate 60, and then sprays the injection hole 51 of the injection plate 50 so that the chemical liquid By increasing the injection pressure, it is possible to inject the chemical liquid to a farther distance.

At this time, the vortex induction line 61 formed in the vortex induction plate 60 is formed in the form of a groove surface bent in a semicircle so that the center is shared and the upper and lower parts thereof induce vortices to the upper and lower sides, and the vortex induction line The injection holes 62 are formed at both ends of the 61 so as to have a flow of the chemical liquid, which is ejected in a vortex state, and then coalesced again through the injection holes 51 formed in the center of the injection plate 50. By doing so, a stronger injection pressure can be obtained.

In addition, the rim portion of the vortex induction plate 60 is equipped with a packing 63 for preventing leakage.

In addition, the outlet portion 12 and the stopper ring 70 of the body 10 has a binding portion formed in a spiral shape to bind or disassemble by rotation.

On the other hand, in the present invention, the nozzle body 10 of the present invention is shown as being formed only in plural, of course, is based on the singular number, of course, with respect to the quantity of the nozzle body 10 is the scope of the present invention It has nothing to do with

Therefore, the injection nozzle of the present invention configured as described above, push the ball 20 only when the pressing force of the chemical liquid flowing into the body 10 is greater than the tension of the spring 40, as shown in FIG. When the operation of the wide-area spreader for stopping the spreading of the chemical liquid by the opening of the hole 11 is stopped, the spring 40, which has been compressed and compressed by the ball 20, is restored to its original position when the pressing force of the chemical liquid is lost. The inflow hole 11 of the chemical liquid is directly blocked by the 20 so that the chemical liquid does not remain inside the body 10.

In addition, by controlling the extraction depth of the pressure plate 30 to the inside of the body 10 by rotating the pressure plate 30, it is possible to adjust the injection distance of the chemical liquid because it is possible to adjust the injection pressure of the chemical liquid through the tension of the spring 40 It will be possible.

In addition, the injection distance can be increased by increasing the injection pressure through the vortex induction plate 60, thereby reducing the power consumption of the fan for the remote injection.

      1 is an exploded perspective view showing a configuration according to an embodiment of the present invention.

      2 is a perspective view of the combination of FIG.

      3 is a detailed view of a pressure plate.

      4 is a cross-sectional view showing a tension control state of the spring by the pressure plate.

      Figure 5 is a cross-sectional view showing the injection state of the chemical liquid through the present invention.

       <Explanation of symbols for the main parts of the drawings>

10: body 11: inlet hole

12: outlet 20: ball

30: pressure plate 31: through hole

32: jam fun 40: spring

50: injection plate 51: injection hole

60: vortex induction plate 61: vortex induction line

62: injection hole 63: packing

70: plug ring

Claims (6)

A ball 20 for controlling the inflow and blocking of the chemical liquid is mounted in the inflow hole 11 of the chemical liquid of the body 10 having a predetermined chemical liquid containing space, and the ball 20 is an outlet portion 12 of the chemical liquid. The stopper is coupled by a spring 40, the tension of which is adjusted by the pressure plate 30 mounted on the pressure plate 30, and the chemical liquid penetrated through the through hole 31 of the pressure plate 30 is coupled to the end of the outlet 12. A chemical liquid spray nozzle of a wide area spreader configured to spray the chemical liquid through the injection hole 51 of the spray plate 50 mounted by the ring 70. According to claim 1, wherein the vortex induction plate 60 is formed between the pressure plate 30 and the jet plate 50, the vortex induction line 61 is formed on the bottom surface of the chemical liquid ejected through the pressure plate 30 is vortex induction A chemical liquid spray nozzle of a wide area spreader, which is sprayed in a vortex state through the spray hole 62 of the plate 60. According to claim 2, wherein the vortex induction line 61 is made of a groove surface bent in a semi-circular shape so that the center is shared and the upper, lower portion corresponding to, and the injection hole 62 at both ends of the vortex induction line 61 The chemical liquid spray nozzles of the wide-area spreaders which are respectively formed and are made to nourish in a vortex state.        According to claim 1 or 2, wherein the engaging piece 32 is formed on the edge portion of the pressure plate 30, the outflow portion 12 of the chemical liquid so that the engaging piece 32 is caught by rotation to be coupled to A chemical liquid spray nozzle of a wide area spreader having a threaded portion 12a formed therein. 5. The chemical liquid spray nozzle of claim 4, wherein the locking piece 32 of the pressure plate 30 is formed by cutting a portion of the edge of the pressure plate 30 by a predetermined length and lifting it to one surface. . The chemical liquid injection nozzle of claim 4 or 5, wherein the through hole (31) formed in the pressure plate (30) is angled to rotate the pressure plate (30) using a lens.

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