KR100341245B1 - control device for press Pump of bidirectional - Google Patents

Abstract

The present invention relates to a control device of a two-way extrusion pump for automatically pumping the disinfectant of the disinfection apparatus used for feed cars. The control device includes a hydraulic cylinder having a fluid outlet and an inlet, a hydraulic piston reciprocating in the hydraulic cylinder, a pair of piston stopper members, a cylindrical compression cylinder, an inlet and check valve, a shaft member, a compression piston, and a shaft sealing member. It is airtightly coupled to each of the fluid outlet and the inlet of the hydraulic cylinder, the transfer pipe for supplying and recovering a predetermined fluid, and the fluid of a predetermined pressure is forcibly supplied to the inside of the hydraulic cylinder through the transfer pipe and forced recovery It is provided in the fluid circulation drive unit, the limit switch to be installed in one end region and the other end region of the inner surface of the compression cylinder to detect the suction and discharge of the pumping liquid to generate respective detection signals, and the transfer pipe Alternating to the hydraulic space of the hydraulic cylinder based on the detection signal of the limit switch To include a plurality of solenoid valves for the fluid flow. Accordingly, the pumping is possible because the pumping function can be appropriately controlled by accurately controlling the inflow and outflow of the hydraulic pressure generated from the feed vehicle, and the performance is improved, thereby maximizing user convenience and economy.

Description

Control device for bidirectional compression pump {control device for press Pump of bidirectional}

The present invention relates to a control device for a bidirectional compression pump, and more particularly, to a control device for a bidirectional compression pump for continuously pumping the disinfectant of the sterilizer by hydraulic pressure generated from the engine of the feed vehicle.

In general, feed cars provide food for edible livestock such as chickens, pigs, sheep, etc., so that the car can be safely provided to these animals only when the car is thoroughly sanitized. In order to fill the feed bin in the place where the livestock is raised, the feed truck moves from the feed source to the breeding place. The movement path is exposed from numerous germs and is contaminated by various pathogens. As a result, feed trucks are always available for transportation through such routes.

Such a conventional feed vehicle includes a disinfecting solution receiving portion for accommodating and dispensing not only the feed tank but also the disinfecting solution when necessary, a spray tube capable of spraying the disinfecting solution with a tire, and the disinfecting solution with a predetermined compression force toward the spray tube. It has a pump for forced pumping.

However, since such a pump is installed as an air pump and a pumping pump, in order to spray the disinfectant solution toward a plurality of tires, there is a problem in that disinfection is poor due to a small capacity of the pump, and a pump having a proper capacity is installed. In this case, there is a problem in that the installation cost is very increased and the price of the feed car increases. In particular, there is a problem that a fatal hazard caused by the pump does not operate according to the temperature drop phenomenon that may occur in winter.

In order to solve the above problems, the present applicant has applied for a bidirectional compression pump, which includes a hydraulic cylinder having an outlet and an inlet of a fluid having a predetermined pressure on a cylindrical circumference at a predetermined interval, A hydraulic piston disposed in close contact with the inner diameter surface of the hydraulic cylinder and reciprocating in the longitudinal direction of the inner diameter surface as the fluid enters and exits from one side and the other side of the hydraulic cylinder so that a limit reciprocating distance of the hydraulic piston is determined. A pair of piston stopper members coupled to each other, a cylindrical compression cylinder coupled to each of the piston stopper members to receive a disinfectant solution from the outside, and an airtightly coupled to each end of the compression cylinder to leak and inflow of the toxic fluid. Inlet and outflow check valves alternately performing movement in one direction and the other side of the hydraulic piston A shaft member extending a predetermined length to transmit the kinetic force of the hydraulic piston, a compression piston fixed to both end portions of the shaft member and in hermetic contact with the inner diameter surface of the compression cylinder, and between the shaft member and the piston stopper member. It is provided with a shaft sealing member to prevent mixing between the fluid and the disinfectant.

However, such a bidirectional compression pump has a problem in that it cannot use the hydraulic power generated from the hydraulic engine of a relatively large feed truck and cannot properly perform its function as a pump. There is a problem that can not be used almost uncontrolled.

The present invention has been made to solve the above problems, to provide a control device of a bidirectional compression pump to accurately control the outflow and outflow of the hydraulic pressure generated in the feed vehicle to properly exhibit the pumping function, the object.

1 is a block diagram showing a control device of a bidirectional compression pump according to the present invention,

2 is a block diagram showing a control device of a bidirectional compression pump according to the present invention.

Explanation of symbols on the main parts of the drawing

70; Hydraulic feed pipe 72; Hydraulic engine

74; Second solenoid valve 75; 1st solenoid valve

76; Fourth solenoid valve 77; Third solenoid valve

78; Control unit 80; 1st limit switch

82; Second limit switch 84; Operation button

100; Bidirectional compression pump

The object of the present invention is to provide a hydraulic cylinder having a fluid outlet and an inlet, a hydraulic piston reciprocating in the hydraulic cylinder, a pair of piston stopper members, a cylindrical compression cylinder, an inlet and outflow check valve, and a shaft. A control apparatus for a bidirectional compression pump having a member, a compression piston, and a shaft sealing member; It is hermetically coupled to each of the fluid outlet and the inlet of the hydraulic cylinder and the transfer pipe for supplying and recovering a predetermined fluid, and for the fluid to be forcibly supplied to the hydraulic cylinder through the transfer pipe and forced recovery A limit switch which is installed in the fluid circulation drive unit, one end region and the other end region of the inner surface of the compression cylinder and detects the suction and discharge of the pumping liquid and generates respective detection signals, and is provided in the transfer pipe and the limit switch It is achieved by the control device of the bidirectional compression pump including a plurality of solenoid valve for alternately flowing the fluid in and out of the hydraulic space of the hydraulic cylinder based on the detection signal of the.

Here, the conveying pipe is an inlet conveying tube which allows a fluid of a predetermined pressure generated from the fluid circulation driving unit to be conveyed toward the hydraulic cylinder, and branched to a predetermined region of the inlet conveying tube to circulate the fluid from the hydraulic cylinder. It characterized in that it comprises a discharge conveying pipe to be transferred to the drive unit, the fluid circulation drive unit is preferably one of two cycles and four cycles of the hydraulic engine.

In addition, it is preferable that a control unit is provided between the limit switch and the solenoid valve to control at least one of the plurality of solenoid valves based on the detection signal.

The solenoid valve may further include first and third solenoid valves for guiding the flow of the fluid to one side hydraulic space of the hydraulic cylinder based on the first control signal of the controller, and based on the second control signal of the controller. It is preferable to include a second and fourth solenoid valve to guide the flow of the fluid to the other hydraulic space of the hydraulic cylinder.

Hereinafter, with reference to the accompanying drawings will be described in detail the control device of a bidirectional compression pump according to the present invention. 1 is a block diagram showing a control device of a bidirectional compression pump according to the present invention, Figure 2 is a block diagram showing a control device of a bidirectional compression pump according to the present invention.

Before describing the control device of the bidirectional compression pump, the compression pump has an outlet (a) and an inlet (b) of a fluid having a constant pressure on a cylindrical cylinder having a predetermined length, and the outlet (a) and the inlet. (b) is arranged in the hydraulic cylinder is formed at a predetermined spacing interval, and the airtight contact to the circumferential inner diameter surface of the hydraulic cylinder and the inner diameter according to the flow in and out of the fluid through the outlet (a) and the inlet (b) A hydraulic piston reciprocating in the longitudinal direction of the surface, and a pair of piston stopper members installed at one side and the other side of the hydraulic cylinder to prevent separation of the hydraulic piston from the hydraulic cylinder and to determine a limit reciprocating distance of the hydraulic piston; Compression cylinders coupled to each of the piston stopper members in the longitudinal direction to temporarily receive the disinfectant solution from the outside, and at each end of the compression cylinder A leak-tight check valve which is hermetically coupled and alternately performs the outflow and inflow of the disinfectant solution according to the reciprocating motion of the hydraulic piston, and extends by a predetermined length toward one side and the other side of the hydraulic piston in the direction of movement so as to exercise the hydraulic piston. It is coupled to both ends of the shaft member and the shaft member and the compression cylinder has a compression piston for inhaling and discharging the disinfectant solution to the outflow check valve in accordance with the reciprocating motion.

A plurality of shaft sealing members are provided between the shaft member and the piston stopper member to prevent the leakage of the fluid and at the same time prevent the leakage of the disinfectant solution. In addition, a piston hermetic member for inducing vacuum compression is provided between the compression piston and the compression cylinder. Similarly, the piston hermetic member is provided between the hydraulic piston and the hydraulic cylinder.

The piston stopper member has an inner stopper which is screwed inward from the hydraulic cylinder end and an outer stopper which is screwed in contact with the rear end of the inner stopper. The inner and outer stopper is formed with a through hole through which the shaft member penetrates, and an inner diameter surface of the through hole is formed with a circumferential groove having a plurality of shaft sealing members installed therein. In addition, a cylinder hermetic member is provided on the outer diameter surface of the inner stopper so as to keep the inner diameter surface and the airtightness of the hydraulic cylinder.

The compression cylinder is screw-coupled to the outer stopper, and the end of the shaft member reciprocating through the through hole is hermetically contacted with the circumferential inner diameter surface of the compression cylinder to vacuum suction and discharge the disinfectant solution through the inlet and outlet check valve. Compression piston is fixedly coupled by a screw member.

1 and 2, the control device includes a hydraulic cylinder, a hydraulic piston, a piston stopper member, a compression cylinder, an outflow check valve, a shaft member, a compression piston, and a shaft sealing member as described above. It has a pump 100, and each of the fluid outlet and the inlet of the hydraulic cylinder is airtightly coupled to the transfer pipe for supplying and simultaneously recovering a predetermined fluid. At the end of the conveying pipe, a fluid circulation driving unit 72 is provided to force the fluid of a predetermined pressure to the inside of the hydraulic cylinder and to recover it. One end region and the other end region of the inner surface of the compression cylinder is provided with a limit switch for detecting the suction and discharge of the pumping liquid, that is, the disinfecting liquid and generating respective detection signals. A plurality of solenoid valves are installed in the transfer pipe to alternately flow fluid into and out of the hydraulic space of the hydraulic cylinder based on the detection signal of the limit switch. Here, a control unit 78 is provided between the limit switch and the solenoid valve to control at least one of the plurality of solenoid valves based on the detection signal.

The fluid circulation drive unit 72 is a kind of internal combustion engine, and is formed of an engine having two cycles and four cycles. The engine generates a pressure of the fluid and recovers the generated hydraulic pressure. The transfer pipe is an inlet transport pipe (65) for guiding the supply of the fluid of the fluid circulation drive unit 72 to one side and the other hydraulic space of the hydraulic cylinder by the solenoid valve, and the fluid circulation drive unit ( 72 has a discharge conveying pipe (60) to guide the recovery.

The limit switch is formed in a pair, the second limit switch 82 for detecting the suction limit point of the pumping liquid in the compression space of the compression cylinder to generate a suction detection signal, and the discharge limit point of the pumping liquid And a first limit switch 80 for generating a discharge detection signal. The solenoid valve includes first and second solenoid valves 75 and 74 installed in the inlet transfer pipe 65 and third and fourth solenoid valves 77 and 76 installed in the discharge transfer pipe 60. Consists of

When the controller 78 recognizes the suction detection signal from the limit switch 82, power is applied to the first and third solenoid valves 75 and 77, so that the valve is opened. That is, the fluid of the fluid circulation drive unit 72 is transferred toward one hydraulic space of the hydraulic cylinder and at the same time the fluid of the other hydraulic space of the hydraulic cylinder is recovered toward the fluid circulation drive unit 72. In addition, when the controller 78 recognizes the discharge detection signal from the limit switch 80, power is applied to the second and fourth solenoid valves 74 and 76, so that the valve is opened. That is, the fluid in the fluid circulation drive unit 72 is transferred toward the other hydraulic space of the hydraulic cylinder and at the same time the fluid in one hydraulic space of the hydraulic cylinder is recovered toward the fluid circulation drive unit 72. In addition, the control unit 78 is connected to the operation button 84 for the user to command the operation.

The control device of the bidirectional compression pump as described above is a pumping force is sufficiently exhibited by supplying and withdrawing fluid to the hydraulic space on one side and the other side of the hydraulic cylinder by the control unit continuously and alternately.

According to the present invention, the pumping is possible because the pumping function can be appropriately controlled by accurately controlling the inflow and outflow of the hydraulic pressure generated from the feed vehicle, and the performance is improved, thereby maximizing user convenience and economy.

Claims (4)

A hydraulic cylinder having a fluid outlet and an inlet, a hydraulic piston reciprocating in the hydraulic cylinder, a pair of piston stopper members, a cylindrical compression cylinder, an inlet and outflow check valve, a shaft member, a compression piston, and a shaft seal A control apparatus for a bidirectional compression pump having a member; A transfer pipe which is hermetically coupled to each of the fluid outlet and the inlet of the hydraulic cylinder, and supplies and retrieves a predetermined fluid; A fluid circulation drive unit for forcibly supplying and forcibly returning a fluid having a predetermined pressure to the inside of the hydraulic cylinder through the transfer pipe; A limit switch installed at one end region and the other end region of the inner surface of the compression cylinder to sense suction and discharge of the pumping liquid and generate respective detection signals; And a plurality of solenoid valves provided in the transfer pipe and alternately flowing fluid into and out of the hydraulic space of the hydraulic cylinder based on the detection signal of the limit switch. The method of claim 1; The transfer pipe, An inlet conveying tube configured to convey a fluid having a predetermined pressure generated from the fluid circulation driving part toward the hydraulic cylinder; And a discharge transport pipe branched to a predetermined region of the inflow transport pipe so as to transfer fluid from the hydraulic cylinder to the fluid circulation drive unit. The fluid circulation drive unit control device for a bidirectional compression pump, characterized in that any one of two cycles and four hydraulic engines. The method of claim 1; And a controller for controlling at least one of the plurality of solenoid valves based on the detection signal between the limit switch and the solenoid valve. The method of claim 3; The solenoid valve, First and third solenoid valves configured to guide the flow of the fluid to one side hydraulic space of the hydraulic cylinder based on the first control signal of the controller; And a second and fourth solenoid valve for guiding the flow of the fluid to the other hydraulic space of the hydraulic cylinder based on the second control signal of the controller.