KR101515113B1 - Regulator for Controlling Inner Pressure Based on Discharging State - Google Patents

Abstract

The present invention relates to a regulator for controlling inner pressure based on discharging state and, specifically, to a regulator for controlling inner pressure based on discharging state for internal pressure control depending on discharging state of a fluid to be discharged in order to maintain internal pressure at certain level. The regulator according to the present invention comprises: an inlet (112) into which supply fluid flows; an outlet (113) from which the supply fluid is discharged; a control inlet (115) to control circulation of fluid between the inlet (112) and the outlet (113); a pressure setting unit (118) installed between the inlet (112) and outlet (113); an oil pressure control unit (172) to control fluid circulation between the control inlet (115) and the inlet (112); and a control body (13) to control the pressure of the pressure setting unit (118) wherein the pressure of the outlet (113) is depending on the position control of the pressure setting unit (118) by the control body (13) and the changes in the pressure set are controlled by the oil pressure control unit (172).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a regulator for controlling an internal pressure of an internal combustion engine,

The present invention relates to a regulator for controlling an internal pressure according to an exhaust state, and more particularly, to a regulator for controlling the flow of an internal fluid according to a discharge state of a fluid to be discharged, To a regulator for control.

In general, a regulator is a mechanical device used to maintain a certain level of physical quantity such as pressure, temperature, flow rate, or voltage. Regulators can be applied to maintain a certain level of pressure, for example, in a device such as a power sprayer, regardless of the number of output nozzles or the amount of exhaust from the exposure.

Patent Publication No. 10-2004-003010 discloses a valve body having a fluid inlet, a fluid outlet, a fluid pressure sensing sensor, and a valve seat communicating with the inlet and having an opening formed therein; An elastic member responsive to the pressure in the chamber and having a self-restoring force and forming a wall of the chamber; A valve stem connected to the elastic member and extending to the belt seat side through the chamber; A valve member positioned between the valve seat and the fluid inlet and supported on the valve stem and cooperating with the valve seat; And a portion of the elastic member mounted to the valve body at a position for deflecting the elastic member and moving the elastic member in a direction away from the valve seat, wherein a portion of the elastic member connected to the valve stem moves the position of the valve member relative to the valve seat A pressure regulator control device comprising a regulator for bending to react to a change in pressure in the chamber to control the pressure regulator control.

The Utility Model Registration No. 20-0222244 forms an axial tube and a working tubular body. The spring, the hinge and the washer are successively inserted into the axial tube, the operation lever is connected to the shaft pin, and the moving ceramic ball and the fixed ceramic ball Wherein the seal ring is integrally formed with the shaft tube and the working tube, and a plurality of insertion grooves are formed on one side of the shaft inserted into the shaft tube to provide a sealing O-ring formed of a silicone material. And a regulator for regulating the output of the regulator.

The regulator presented in the prior art maintains the internal pressure in such a way as to increase or decrease the amount of fluid when the pressure at which it is discharged changes, thereby keeping the discharge pressure constant. However, if the amount or pressure to be discharged varies, it is advantageous to separately provide the discharge path if the amount of supply is not readily changed in response thereto. The prior art does not disclose such a structure.

The present invention has been made to solve the problems of the prior art and has the following purpose.

Prior Art 1: Patent Publication No. 10-2004-0030108 (published by I-flow Corporation, February 27, 2003) Pressure regulator Prior Art 2: Utility Model Registration No. 20-0222244 (Young-yi Kim, Regulator for Sprayer, Released May 02, 2001) Regulator for Sprayer

The object of the present invention is to provide a regulator for controlling the internal pressure according to the discharge state such that the supply pressure is maintained at a predetermined level in response to the number or pressure of the discharged nozzles so that the pressure discharged from each nozzle can be maintained at a certain level .

According to a preferred embodiment of the present invention, the regulator includes an inlet through which the feed fluid is introduced; An outlet for discharging the supply fluid; A control inlet for controlling the fluid circulation between the inlet and the outlet; A pressure setting unit installed between the inlet and the outlet; A hydraulic regulating unit for controlling the fluid circulation between the control inlet and the inlet; And an adjusting body for adjusting the pressure of the pressure setting unit, wherein the pressure of the discharge port is set according to the position control of the pressure setting unit by the adjusting body, and the change of the set pressure is controlled by the hydraulic pressure adjusting unit .

According to another preferred embodiment of the present invention, there is further provided an adjusting plate formed in a path between the inlet and the fluid introduced from the inlet, wherein the adjusting cap is coupled to the front of the pressure setting unit, Fluid flows through the separation gap.

According to another preferred embodiment of the present invention, the control inlet is formed to be directly connected to the outlet so that the fluid can selectively flow between the outlet and the control inlet.

The regulator according to the present invention enables the chemical liquid to be sprayed at a constant pressure regardless of the number of spray nozzles or the amount of sprayed in an apparatus such as a power atomizer. The regulator according to the present invention is simple in structure and easy to operate. In addition, the apparatus is protected by changing the supply passage according to the change of the discharge state.

FIGS. 1A, 1B, and 1C show a front view of an embodiment of a regulator according to the present invention, a cross-sectional view taken along a first direction of FIG. 1A, and a cross-sectional view taken along a direction perpendicular to a first direction, respectively.
2 shows an embodiment of a pressure control unit which can be applied to a regulator according to the present invention.
FIG. 3 illustrates an operation of the regulator according to the present invention. Referring to FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the present invention is not limited thereto. In the following description, components having the same reference numerals in different drawings have similar functions, so that they will not be described repeatedly unless necessary for an understanding of the invention, and the known components will be briefly described or omitted. However, It should not be understood as being excluded from the embodiment of Fig.

FIGS. 1A, 1B, and 1C show a front view of an embodiment of a regulator according to the present invention, a cross-sectional view taken along a first direction of FIG. 1A, and a cross-sectional view taken along a direction perpendicular to a first direction, respectively.

Referring to Figs. 1A, 1B, and 1C, the regulator 10 includes an inlet 112 into which feed fluid flows; An outlet 113 for discharging the supply fluid; A control inlet 115 for controlling the fluid circulation between the inlet 112 and the outlet 113; A pressure setting unit 118 installed between the inlet 112 and the outlet 113; A hydraulic pressure regulating unit 172 for controlling the fluid circulation between the control inlet 115 and the inlet 112; And an adjusting body 13 for adjusting the pressure of the pressure setting unit 118. The pressure of the outlet 113 is set by the position control of the pressure setting unit 118 by the adjusting body 13 , And the change to the set pressure is controlled by the hydraulic pressure regulating unit 172.

The regulator 10 according to the present invention may have a function of keeping the output pressure of the fluid constant. The fluid may be, for example, a chemical, water or nutrient solution applied to the crop and may be supplied from a device such as a motor or a pump. For example, the fluid may be stored in a storage tank and supplied to the inlet 112 via a control valve by operation of the motor.

The regulator 10 may include a supply body 11 through which the fluid is moved and an adjustment body 13 for setting the discharge pressure or the supply pressure of the fluid supplied to the supply body 11.

The control body 13 has a housing housing 131 in which a pressure unit 152 is accommodated, an adjustment switch 132 for setting a pressure value of the pressure unit 152, A control indicator 133 for indicating the position of the control switch 132 in the control graduation 133 and a coupling flange 135 for coupling the control body 13 with the feed body 11 .

The supply body 11 includes a coupling flange 117 coupled to the coupling flange 135, a flow path housing 111 in which a flow path is formed, an inlet 112 through which the fluid flows, and an inlet 112, And a control tap 116a for changing the flow path of the control inlet 115 and the control inlet 115 for changing the flow of the fluid while compensating the pressure between the inlet 112 and the outlet 113 A control handle 116 may be included.

The pressure unit 152 may include elastic means such as a spring and may be connected to a pressure setting unit 118 formed inside the supply body 11. [ The pressure of the pressure unit 152 can be determined by the rotary type adjustment switch 132 and the pressure can be determined according to the elastic modulus of the elastic means, for example. A contact member 151 is provided under the adjustment switch 132 so that the pressure level can be determined according to the rotation of the adjustment switch 132. And the determined pressure can be indicated by the adjustment scale 133 indicated by the indicator needle 134. [ The contact block 153 may be disposed below the pressure unit 152 and the contact block 153 may contact the upper side of the pressure setting unit 118 to apply a predetermined pressure to the pressure setting unit 118. [

An elastic contact member 118a may be provided below the pressure setting unit 118 and an elastic contact member 118a may be contacted with the pressing plate. The fluid introduced into the inlet 112 can be discharged to the outlet 113 while applying pressure to the pressure setting unit 118. The pressure setting unit 118 applies a pressure to the fluid at a predetermined pressure, whereby the fluid can be discharged at a constant pressure. In such a process, the emission pattern can be changed in the discharge region connected with the outlet 113. [ The outlet 113 may be connected by a spray nozzle and a transfer tube such as a tube or hose, and the spray nozzle may be submerged or the spray nozzle may be branched into a plurality of nozzles. In this case, the pressure to be discharged to each spray nozzle needs to be kept constant. It is also necessary to bypass the supplied fluid when the discharge from the spray nozzle is interrupted.

According to the present invention, a control inlet 115 connected to a path connecting the inlet 112 and the outlet 113 may be provided. The control inlet 115 may be a bypass path for the fluid while introducing or draining air. Referring to FIG. 1B, a feed-through housing 111 may be provided with a bypass control unit for controlling the flow of fluid or air to the control inlet 115. The bypass control unit includes a bypass inlet 173 connected to a path connecting the inlet 112 and the outlet 113, a hydraulic control unit 173 disposed inside the control cylinder 171 for controlling the opening and closing of the bypass inlet 173, (Not shown). The hydraulic pressure regulating unit 172 may be connected to the control handle 116 and be rotatable using the control tap 116a. The opening and closing of the bypass inlet 173 can be controlled by the rotation of the control handle 116. Elastic means can be disposed inside the regulating cylinder 171 and the bypass inlet 173 can be opened or closed depending on the position of the control tab 116a. The bypass inlet 173 may have the function of making the pressure of the fluid discharged through the outlet 113 constant for the inflow of air or for the bypass of the fluid irrespective of the change in the discharge state. Also, the bypass inlet 173 may be a bypass path for the fluid if, for example, the pump or motor operates without draining.

The operation procedure of the pressure setting unit will be described below.

2 shows an embodiment of a pressure control unit 118 that can be applied to a regulator according to the present invention.

2, the pressure control unit 118 may include a fixing member 21 having a fixing hole 211 formed therein, an adjusting cap 22 coupled to one end of the fixing member 21, May be coupled to the fixing member 21 by a fixing pin 23 coupled to the fixing hole 221 formed at the center. If necessary, an elastic means such as a coil spring may be provided in the fixing hole 211. The pressure control unit 118 may be in contact with the regulating plate 24. As shown in FIG. 2, the adjustment cap 22 may be spherical at its tip and a spherical portion may be coupled to the adjustment gap G formed in the adjustment plate 24. As shown in FIG. The adjustment plate 24 may consist of a cover 241 and an adjustment cap 242 formed above the cover 241 and a sealing ring 243 may be engaged. And a regulating gap G is formed in a central portion of the regulating plate 24, and the regulating cap 242 can be made in a two-end structure.

The adjustment cap 22 can be coupled to the adjustment gap G of the adjustment plate 24 and is introduced through the inlet 112 through the separation gap formed by the adjustment gap G and the adjustment cap 22 The fluid can be discharged to the outlet 113. The adjustment cap 22 and the adjustment plate 24 may be made of a material such as a hard ceramic and the adjustment cap 22 may be connected to the pressure unit described above and may apply pressure to the fluid set by the pressure unit do.

Referring to FIG. 2 (B), the inlet 112 and the outlet 113 may be separately formed and connected via the pressure control unit 118. And the control inlet 115 may be formed on the side or adjacent to the outlet 113. In particular, the control inlet 115 is configured to be directly connected to the outlet 113 such that the fluid can selectively flow between the outlet 113 and the control inlet 115. Such a structure facilitates pressure control of the fluid discharged by the control inlet 115. [

FIG. 3 illustrates an operation of the regulator according to the present invention. Referring to FIG.

Referring to FIG. 3, the discharge pressure of the fluid may be set to spray the chemical liquid to an apparatus such as a sprayer (P31). The discharge pressure of the fluid may be set by the pressure control unit as described above, and the fluid supplied through the power unit may be discharged at a pressure determined by the pressure control unit (P32). By means of the pressure control unit, the fluid can be atomized at a predetermined pressure, for example, through spray nozzles and devices (P33). The injection pressure is a factor that determines the injection flow rate or the injection distance of the fluid, and therefore it is necessary to be maintained at a constant pressure. And the injection pressure can be maintained at a predetermined constant level by the pressure control unit.

A pressure change may occur in the discharge process of the fluid. Such pressure changes can be detected automatically or manually (P34). Pressure changes may occur, for example, due to the connection of a new spray nozzle, the locking of the spray nozzle, or the failure of the connecting tube to the spray nozzle. If a pressure change occurs artificially or accidentally (YES), the discharge state may be detected (P35). If an artificial pressure change has occurred, no separate discharge status need be detected. A pressure gauge for pressure detection may be installed at the outlet of the regulator as required. The inflow control can then be performed according to the detected discharge condition (P35).

The inflow control may be exerted via the control inlet, for example when a new spray nozzle is connected and thus an increased pressure is required. In contrast, when spraying is stopped at the spray nozzle, the fluid introduced through the inlet may be discharged through the inlet and then flowed to the storage vessel again. Such inflow control can be done automatically or manually.

The regulator according to the present invention can be operated in various ways and the present invention is not limited to the embodiments shown.

The regulator according to the present invention enables the chemical liquid to be sprayed at a constant pressure regardless of the number of spray nozzles or the amount of sprayed in an apparatus such as a power atomizer. The regulator according to the present invention is simple in structure and easy to operate. In addition, the apparatus is protected by changing the supply passage according to the change of the discharge state.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention . The invention is not limited by these variations and modifications, but is limited only by the claims appended hereto.

10: regulator 11: supply body
13: Adjusting body 21: Fixing member
22: Adjustable cap 23: Fixing pin
24: Adjusting plate
111: housing 112: inlet
113: outlet 115: control inlet
116: Control handle 116a: Control tab
117: fastening flange 118: pressure setting unit
131: Housing 132: Adjustment switch
133: adjusting graduation 134: indication needle
135: coupling flange 151: contact member
152: pressure unit 153: contact block
171: Adjusting cylinder 172: Hydraulic regulating unit
173: Bypass inlet 211: Fixing hole
241: Cover 242: Adjustable cap

Claims (3)

An inlet 112 into which the feed fluid flows;
An outlet 113 for discharging the supply fluid;
A control inlet 115 for controlling the fluid circulation between the inlet 112 and the outlet 113;
A pressure setting unit 118 installed between the inlet 112 and the outlet 113;
A hydraulic pressure regulating unit 172 for controlling the fluid circulation between the control inlet 115 and the inlet 112; And
And an adjusting body (13) for adjusting the pressure of the pressure setting unit (118)
The pressure of the outlet 113 is set according to the position control of the pressure setting unit 118 by the adjusting body 13 and the change with respect to the set pressure is controlled by the hydraulic pressure adjusting unit 172 Regulates the internal pressure according to the exhaust state. The apparatus of claim 1, further comprising an adjustment plate (24) formed in a path between the inlet (112) and the outlet (113), wherein the adjustment cap (22) And the fluid flows through a separation gap formed between the regulating cap (22) and the regulating plate (24). The regulator of claim 1, wherein the control inlet (115) is configured to be connected directly to the outlet (113) such that the fluid can selectively flow between the outlet (113) and the control inlet (115).

Images