KR200201014Y1 - Reversing facility of preventing insects and ventilating equipment in facility house - Google Patents

Abstract

The present invention relates to the structure of the spray injector for control in the facility house and to the configuration of the nozzle embedded in the spray path of the injector.

The present invention integrates the parts of the nozzle embedded in the injector, which is a part of the control device used in the facility house, to perfectly combine with the nozzle body to improve the miniaturization of the injection, to unify the process and to form a spray direction in a square It is to prevent water droplets.

Description

{Reversing facility of preventing insects and ventilating equipment in facility house}

The present invention relates to the structure of an injector for controlling a facility house, and in particular, to the structure of the injector and the configuration of a nozzle embedded in the injector.

In general, the spraying device used for the control in the facility house is installed to control the gyrus by reciprocating the gyros by installing one unit per crop gyro and a plurality of injectors according to the height of the crop. Formed by the lower injection device. It is formed to effectively control without moving downward. Phase of the injector. The lower configuration is the left side of the pipe formed in the direction of gravity. The injection device is formed by assembling horizontally and symmetrically on the left side. It is configured to be able to control. The configuration of this injector is the top of the pipe. The plurality of injectors are formed at regular intervals.

The configuration of the injector as described above is formed of a body and a nozzle, the configuration of the nozzle is composed of a nozzle tip, a filter and a distributor formed of ceramic and embedded in the body. In this way it is configured to couple the nozzle-embedded body to the pipe. The conventional injector has a problem in that water droplets are generated at the start and the end of the control, and each assembly of the nozzle must be built in the body in turn, thus requiring a lot of time to assemble and difficult to assemble. In this case, when assembling with the pipe in the assembled state, there is a problem that the nozzle assembly is not scattered when the nozzle assembly state is combined while maintaining the gravity direction.

The spray path coupled to the pipe is formed in an upward square to prevent water droplets of the sprayer from occurring at the beginning and the end of the control, and the nozzle body is integrally formed to easily embed the nozzle in the body. It is an object of the present invention to provide an easy injection device.

In the construction of the injector, when a cross pipe is combined with a straight pipe, a method of forming a thread is generally used. However, since the possibility of foreign matter penetration is predicted at the time of joining, the blockage of the nozzle is predicted. to provide. The heat fusion method is to integrate the plastic straight pipes by heating them above the plasticity and bonding them so that they cannot be separated. The configuration of the cross pipe is that the two pipes protruding in the same direction is coupled to the straight pipe, the other two protruding pipes are slightly upward as shown in Figure 4 when the straight pipe is in the gravity position Form obliquely. This is to prevent water from accumulating in the nozzle until the internal pressure of the pipe reaches the nozzle end. Combination of the nozzle is formed so that each component can be assembled in close contact so that it is not easily separated when built into the body.

1 is a view of the coupling of the nozzle and the separation of the body.

2 is an exploded view of the nozzle;

3 is a cross-sectional view of the injector.

4 is an overall view of the present invention.

5 is a cross-sectional view of a conventional nozzle.

[Explanation of symbols on the main parts of the drawings]

11 body 22 cross pipe

33: pipe 44: supply path

55 nozzle tip 66 strainer

77 divider 88 O-ring

99: depression (a, b) 100: protrusion

101: injector

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings and embodiments.

The present invention relates to a structure of an injector, and is embedded in a straight pipe 33 of a plastic resin of a certain length and a cross pipe 22 and a body 11 to which the straight pipe 33 and the body 11 of the nozzle are coupled. It is characterized by consisting of a configuration of the nozzle to be.

Figure 1 is for showing the configuration of the nozzle, Figure 2 is for showing the coupling method of the nozzle, Figure 3 is for showing the configuration of the supply path, Figure 4 is a view showing a state in which the present invention is used 5 is a configuration diagram of a conventional nozzle.

In the injector in which a plurality of injectors 101 are formed, a straight pipe 33 having a predetermined length is made of a common plastic resin, and either end of the pipe 33 is heated to a temperature higher than or equal to plasticity so that the cross pipe 22 is formed on the injector. . Protrudes downward and engages with a threadless portion. In this manner, the pipe 33 and the cross pipe 22 are continuously coupled to each other, and are formed symmetrically with each other about the pipe 33 coupled to the cross pipe 22 and have a threaded protrusion. Body (11) with built-in body is coupled.

The cross pipe 22 coupled to the pipe 33 has an inner diameter greater than that. The inner diameter of the portion formed in a straight line and coupled with the body 11 is formed as shown in FIG. 3 to be inclined upward from the cross point.

Inside the body 11 coupled to the cross-pipe 22, a nozzle structure consisting of a nozzle tip 55, a distributor 77, a filter 66, and an O-ring 88 is embedded. The nozzle is composed of a nozzle tip 55 at the front and a distributor 77, a filter 66 and an O-ring 88 for preventing leakage. The nozzle tip 55 of such a nozzle configuration is seated in the depression 99a of the distributor 77, and the filter 66 has a protrusion 100 formed in the filter 66 and the other depression 99b of the distributor 77. It is seated on). The nozzles joined in this way are in close contact with each other so that they are not easily separated.

Referring to the configuration and operation of the present invention in an embodiment,

When the height of the crop is 200 cm in the facility house and the injector 101 is to be installed at intervals of 50 cm, the length of the cross pipe 22 is 10 cm and the pipe connecting the cross pipe 22 (33). When the length of the injector is formed to 45cm, the spacing of the injector 101 can be configured as 50cm, the injector 101 is formed from the end of the injector 101, so the injector 101 of five stages is formed and the pipe Since the injector 101 is formed symmetrically about 33, ten injectors are installed in one injector in the shape as shown in FIG.

A constant pressure is formed in the supply path 44 for supplying a medicament by the operation of power (not shown) and arrives at the injector 101. The pressure sent from the power is equal to the nozzle of the injector 101 to start the injection. Will be. That is, the pressure is constant only when the space in all the supply paths 44 is zero. As described above, some time is required to reach a constant pressure in all of the supply paths 44, and at that time, the chemical reaches the nozzle outlet before the air is zero, thereby forming water droplets before being injected. This is a result that occurs when the supply passage 44 of the medicine is configured horizontally with the nozzle.

The present invention provides a configuration of the supply passage 44 in which the medicine of the supply passage 44 does not reach the nozzle until the air in the supply passage 44 becomes zero.

As shown in FIG. 3, the medicine supply passage 44 in the nozzle direction is configured to be inclined upward in the cross pipe 22. In this case, since the supply of the medicament is supplied without a space from the beginning to the inner diameter, water droplets do not occur because the time of the pressure delivered to the nozzle and the time of the medicament are almost identical.

The configuration of the nozzle related to the spray effect is that each of the functional parts are combined to induce fine spray, but as shown in FIG. It consists of a 77 and the filter 66 for filtering the drug and the O-ring 88 to prevent leakage, the coupling method of the configuration as described above was previously from the nozzle tip 55 in the interior of the body 11 Since it is an insert type, it is difficult to assemble to the coupling position of each part. Since the assembly as described above is not fixed, it is easy to be scattered again, and it is difficult to expect the effect of spraying because the assembled state is highly likely to be scattered when the body 11 is coupled to the cross pipe 22.

In the present invention, in order to prevent each part from being scattered as described above, the parts are fixed to each other. That is, the nozzle tip 55 is inserted into and fixed to the front recess 99a recessed in the distributor 77, and the protrusion 100 formed in the filter 66 is inserted into the rear recess 99b of the distributor 77. By fixing, each part is integrated and does not scatter unless there is a large external pressure.

As such, it is possible to simplify the work in which the nozzle is formed integrally in the body (11).

The injection device according to the present invention does not form water droplets to prevent excessive consumption of chemicals, to protect the soil, and because the nozzle is correctly assembled, the effect of injection is large, and the assembly method is simple, the productivity is improved and industrial property is improved. To improve.

Claims (1)

The straight pipe 33 and the cross pipe 33 are continuously connected in a plurality of steps in the direction of gravity and are formed in the injector 101 and the injector 101 which are formed symmetrically with the straight pipe 22 in the cross pipe 22. In the configuration of the nozzle, the drug supply passage 44 and the nozzle tip 55 which are formed to be inclined upward in the direction of the injector 101 from the cross pipe 22 are inserted and fixed to the front depression 99a of the distributor 77. And the protrusion 100 of the filter 66 is inserted into and fixed to the rear depression 99b of the distributor 77, so that the nozzle tip 55, the distributor 77, and the filter 66 are integrally formed. The structure of the injector for house control.