KR102271967B1 - Apparatus for flushing - Google Patents

Abstract

The present invention relates to a flushing device that removes foreign substances generated in the internal pipe of a hydraulic device and improves cleanliness. In the flushing device connected to flush the internal pipe of a hydraulic device, a main body and the main body A storage tank provided inside and storing a working fluid for flushing, one end connected to the storage tank, the other end connected to the internal pipe of the hydraulic device, and a first pump are provided to pump the first pump A supply pipe to which the working fluid stored in the storage tank is supplied by a supply pipe, one end connected to the storage tank, the other end connected to the internal pipe of the hydraulic device, and a second pump are provided for pumping of the second pump a recovery pipe through which the working fluid is recovered to the storage tank; a heating unit coupled to the storage tank and heating the working fluid; a temperature sensor coupled to the storage tank and measuring a temperature inside the storage tank; It is connected to the heating unit and the temperature sensor, characterized in that it comprises a control unit for controlling the heating unit according to the temperature inside the storage tank received from the temperature sensor.

Description

flushing device {Apparatus for flushing}

The present invention relates to a flushing device, and more particularly, to a flushing device that removes foreign substances generated in an internal pipe of a hydraulic system and improves cleanliness.

In general, in most hydraulic devices, minute foreign substances may remain inside the hydraulic circuit, and these foreign substances may block the piping in the process of moving along the hydraulic circuit, causing deterioration or failure of the hydraulic system. have.

In this way, the hydraulic device periodically performs a flushing operation to remove foreign substances caught in the hydraulic circuit.

Gas, oil, water, etc. are used according to the fluid moving through the internal circuit of the hydraulic system for the flushing operation of the hydraulic system. For example, a hydraulic device having an air line such as nitrogen is flushed using gas, and a hydraulic device having a hydraulic line that can cause a system problem when water is mixed uses oil, Hydraulic devices having other hydraulic lines are flushed with water.

The flushing operation is performed by forcibly pumping the fluid inside the pipe to flow fine foreign substances through the fluid's own buoyancy and turbulent molecular motion, and filtering the foreign substances contained in the pressurized fluid with a filter, etc.

The flushing operation is repeated until the specified cleanliness grade is obtained by periodically collecting a certain amount of fluid and checking the quantity and size of foreign substances in the particle analyzer.

At this time, when a large amount of flow is flowed into the pipe during the flushing operation, turbulent flow is induced and the flushing effect can be maximized. However, there is a problem in that the equipment becomes enlarged in order to flow a large amount of flow into the pipe.

A conventional flushing device includes a pump that circulates a hydraulic circuit and supplies a fluid to flush the inside, and such a pump is a hydraulic circuit, and a fixed-quantity, static-pressure pump with a constant flow rate and hydraulic pressure is used.

As described above, in the conventional flushing apparatus, since the flow rate and hydraulic pressure of the flushing oil supplied to the hydraulic circuit to be flushed are constant, there is a limitation in that the pipe diameter and the quantity of the hydraulic circuit to be flushed are appropriately selected and connected. In addition, since the other pipes to which the flushing operation is not performed must wait until the flushing operation of the first selected pipes is completed, the overall flushing operation time is delayed.

In addition, in the prior art, it was necessary to temporarily connect the pipes in order to connect the sporadic pipes for the flushing operation.

In addition, the conventional flushing device has a large pump and a motor, so it has a heavy weight and a large volume, and thus there are many restrictions on movement in a vessel with a narrow space.

In addition, the conventional flushing device installed an electric heater in a storage tank and used it in a manner of immersion in the working fluid. However, when there is no flow of the working fluid, carbides are attached due to heat generated by the deposited hot wire, thereby reducing the thermal efficiency. In addition, the lifetime of the heater is reduced, and when the generated carbide is removed, a large amount of foreign matter is generated, thereby promoting oxidation of the working fluid and causing deterioration.

Korean Patent Laid-Open Publication No. 10-2011-0134106 "Moveable hydraulic circuit flushing device" (published on: 2011.12.14.)

The present invention has been devised to solve the above problems, by heating a storage tank in which the working fluid is stored, and by maintaining the temperature of the storage tank at a preset temperature to prevent the working fluid from being excessively heated, and in a hydraulic system. An object of the present invention is to provide a flushing device capable of reusing the working fluid by removing foreign substances contained in the recovered working fluid.

A flushing device according to the present invention is a flushing device connected to flush an internal pipe of a hydraulic device, a body, a storage tank provided inside the body and storing a working fluid for flushing; is connected to the storage tank, the other end is connected to the internal pipe of the hydraulic device, and a supply pipe provided with a first pump to which the working fluid stored in the storage tank is supplied by pumping of the first pump; a recovery pipe connected to the storage tank, the other end connected to the internal pipe of the hydraulic device, and a second pump provided to recover the working fluid to the storage tank by pumping the second pump; a heating unit for heating the working fluid, coupled to the storage tank, a temperature sensor measuring a temperature inside the storage tank, and connected to the heating unit and a temperature sensor, the storage received from the temperature sensor It characterized in that it comprises a control unit for controlling the heating unit according to the temperature inside the tank.

In addition, the heating unit is connected to the storage tank and has a heating body having an injection tube formed therein, a heating module coupled to an end of the heating body, and air heated in the heating module to the storage tank through the injection tube. It is characterized in that it comprises an injection module for introducing.

In addition, the heating unit is characterized in that it is formed in plurality to have a predetermined interval.

In addition, it is installed between the storage tank and the recovery pipe, characterized in that it further comprises a filtering unit for removing foreign substances contained in the working fluid recovered to the recovery pipe.

The flushing device according to the present invention is provided with a heating unit coupled to a storage tank to heat the storage tank, a temperature sensor for measuring the temperature of the storage tank heated by the heating unit is provided, and based on the temperature data measured by the temperature sensor It provides the effect of improving the flushing efficiency by maintaining the temperature of the working fluid at a preset temperature through the control unit for controlling the heating unit.

In addition, the heating unit heats the working fluid by injecting heated air without directly heating the storage tank through the heating module for heating the air and the injection module for injecting the air heated from the heating module into the storage tank, thereby heating the storage tank. It provides the effect of preventing corrosion and improving operating performance.

In addition, a plurality of heating units are formed to selectively supply heating air supplied to the storage tank to prevent excessive operation of each heating unit, and a plurality of heating units are simultaneously operated to inject a large amount of heating air instantaneously to inject a working fluid It provides the effect of heating.

In addition, a filtering unit is installed between the recovery pipe and the storage tank to remove foreign substances contained in the recovered working fluid after flushing the internal pipe of the hydraulic device, thereby providing an effect of reusing the working fluid.

1 is a plan view showing a flushing apparatus according to a preferred embodiment of the present invention.
2 is a bottom view showing a flushing device according to a preferred embodiment of the present invention.
3 is a front view showing a flushing device according to a preferred embodiment of the present invention.

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

Since the accompanying drawings are merely examples shown to explain the technical idea of the present invention in more detail, the technical idea of the present invention is not limited to the form of the accompanying drawings.

However, in describing the present invention, descriptions of already known functions or configurations will be omitted in order to clarify the gist of the present invention.

1 is a plan view showing a flushing apparatus according to a preferred embodiment of the present invention, FIG. 2 is a rear view, and FIG. 3 is a front view.

1 to 3 , the flushing device 1000 of the present invention has a main body 100 , a storage tank 200 , a supply pipe 300 , a recovery pipe 400 , a heating unit 500 , and a temperature It includes a sensor 600 , a control unit 700 , and a filtering unit 800 .

First, the main body 100 is a housing in which the configuration of the storage tank 200 , the supply pipe 300 , the recovery pipe 400 , the heating unit 500 , the temperature sensor 600 and the control unit 700 are accommodated. , a wheel 110 is installed at the lower part to facilitate movement, and a handle 120 may be installed on one side so that the operator can hold and move it.

The flushing device 1000 of the present invention is manufactured to be miniaturized to remove foreign substances remaining in the inner pipe of the hydraulic device, and it is easy to move, thereby reducing the fatigue of the operator and improving the flushing work efficiency.

Next, the storage tank 200 is provided inside the main body 100, the working fluid for flushing is stored, and preferably has a rectangular parallelepiped shape.

In addition, the storage tank 200 has a drain pipe for discharging the working fluid stored therein to the outside so that the working fluid can be periodically replaced, and a drain valve for opening and closing the drain pipe. can be installed.

Here, the storage tank 200 is provided with a water level sensor 210 , the water level sensor 210 measures the level value of the working fluid accommodated in the storage tank 200 , and the water level sensor 210 . The measured value measured by is transmitted to the control unit 700 .

That is, it serves to detect the level of the working fluid inside the storage tank 200 so that the working fluid can be maintained by a preset capacity in the storage tank 200 .

And the supply pipe 300 has one end connected to the storage tank 200, the other end connected to the internal pipe of the hydraulic device, and a first pump 310 for supplying the working fluid stored in the storage tank 200 to the internal pipe. is provided

Here, the first pump 310 is provided at the front end of the supply pipe 300 , and increases the flow rate of the working fluid supplied from the inside of the storage tank 200 to the internal pipe of the hydraulic device in the supply pipe 300 . It serves to allow the working fluid to form a vortex.

In addition, when the first pump 310 supplies the working fluid supplied by the supply pipe 300 through the supply pipe 300 , the working fluid moves at a flow rate higher than a preset flow rate inside the supply pipe 300 . It serves to increase the flow rate of the working fluid.

This increases the flow rate of the working fluid by the first pump 310 so that the working fluid forms a vortex inside the supply pipe 300, and the inner wall surface of the supply pipe 300 and the inner wall surface of the supply pipe 300 by the working fluid moving in the vortex Foreign substances adhering to the inner wall surface of the inner pipe are removed and discharged to a recovery pipe 400 to be described later.

The first pump 310 increases or decreases the discharge pressure of the working fluid according to the length at which the supply pipe 300 is formed to maintain a preset flow rate.

In addition, the supply pipe 300 is provided with a first valve 320 for opening and closing the supply pipe 300 at one end connected to the storage tank 200, and the supply pipe 300 at the other end connected to the internal pipe. A second valve 330 for opening and closing is provided.

The first valve 320 controls the amount of the working fluid flowing from the storage tank 200 to the supply pipe 300 , and the second valve 330 operates to flow into the internal pipe from the supply pipe 300 . It opens and closes to control the amount of fluid.

In addition, the recovery pipe 400 has one end connected to the storage tank 200 , the other end connected to the internal pipe of the hydraulic device, and a second pump 410 is provided so that the inside by pumping of the second pump 410 is provided. The working fluid passing through the pipe is recovered to the storage tank 200 .

At this time, the recovery pipe 400 is connected to the upper end of the storage tank 200 , and serves to flow the working fluid recovered by circulating the internal pipe into the storage tank 200 .

Here, the second pump 410 is provided at the front end of the recovery pipe 400 so as to easily recover the working fluid that has circulated the internal pipe into the storage tank 200 , and the working fluid inside the recovery pipe 400 is The flow rate of the working fluid inside the recovery pipe 400 is controlled so that it does not remain.

In addition, the recovery pipe 400 is provided with a third valve 420 for opening and closing the recovery pipe 400 at one end connected to the storage tank 200, and the recovery pipe 400 at the other end connected to the internal pipe. A fourth valve 430 for opening and closing is provided.

The third valve 330 controls the amount of the working fluid recovered from the recovery pipe 400 to the storage tank 200 , and the fourth valve 430 controls the working fluid recovered from the internal pipe to the recovery pipe 400 . It opens and closes to control the amount of

A bypass pipe 350 is provided between the supply pipe 300 and the recovery pipe 400 and is connected to the supply pipe 300 and the recovery pipe 400 .

A fifth valve 351 is provided in the bypass pipe 350 , and the working fluid moves from the recovery pipe 400 to the supply pipe 300 .

At this time, the recovery pipe 400 is disposed above the ground than the supply pipe 300 , and the working fluid located in the recovery pipe 400 moves to the supply pipe 300 through the bypass pipe 350 by its own weight. be able to

In addition, the recovery pipe 400 is provided with a concentration sensor 401 that measures the concentration or pressure of the working fluid accommodated in the recovery pipe 400 , and is provided with a concentration sensor 401 inside the recovery pipe 400 through the concentration sensor 401 . When the amount of foreign substances contained in the working fluid is less than a preset amount, it is possible to supply the foreign substances to the supply pipe 300 through the bypass pipe 350 .

In addition, in the bypass pipe 350 , when the temperature of the working fluid supplied from the storage tank 200 to the supply pipe 300 is higher than a preset temperature, the temperature decreases while passing through the internal pipe of the hydraulic device, so that the recovery pipe 400 ) while being mixed with the recovered working fluid to a preset temperature, it provides the effect of being able to supply it back to the internal pipe of the hydraulic device.

Next, the heating unit 500 is coupled to the storage tank 200 , and heats the working fluid stored in the storage tank 200 .

The heating unit 500 may directly heat the storage tank 200 to heat the working fluid stored in the storage tank 200 .

On the other hand, in one embodiment of the present invention, the working fluid is heated by an indirect heating method in order to solve that the maintenance cost is increased due to corrosion of the storage tank 200 during direct heating, and the heating unit 500 is the heating body. 510 , and a heating module 520 and an injection module 530 .

First, the heating body 510 is connected to the storage tank 200 and an injection pipe (not shown) is formed therein, and heated air is injected into the storage tank 200 through the injection pipe to the storage tank 200 . ) to heat the working fluid stored inside.

And the heating module 520 is connected to the heating body 510 so as to communicate with the injection pipe, a space for storing air is formed therein, and an air inlet (not shown) through which air is introduced by being connected to the side wall of the body 100 . city) is formed.

Here, the heating module 520 heats the air stored therein, and the heated air is moved to the storage tank through the injection pipe.

In addition, the injection module 530 is configured to introduce the air heated by the heating module 520 into the storage tank through the injection pipe, and is composed of a pressurizing means such as a pump.

At this time, a plurality of heating units 500 are connected to the storage tank 200 in a predetermined arrangement, and each is operated independently by a control unit 700 to be described later.

As the heating unit 500 is formed in plurality, each heating unit 500 is composed of a heating body 510, a heating module 520 and an injection module 530, each of which operates individually to operate a storage tank (200) It becomes possible to inject heating air into the interior.

That is, the heating time can be adjusted by adjusting the amount of heating air injected according to the amount and type of the working fluid stored in the storage tank 200 , and the heating module 520 by controlling the operating time of each heating unit 500 . ) can be prevented from being overloaded.

Next, the temperature sensor 600 is coupled to the storage tank 200 , and measures the temperature inside the storage tank 200 .

Preferably, the temperature sensor 600 measures the temperature of the working fluid stored in the storage tank 200 , and transmits the measured temperature information to the controller 700 .

The control unit 700 is connected to the heating unit 500 and the temperature sensor 600 , and controls the operation of the heating unit 500 based on the stored temperature information received from the temperature sensor 600 .

Next, the filtering unit 800 is installed between the storage tank 200 and the recovery pipe 400 , and is configured to remove foreign substances contained in the working fluid returned to the recovery pipe 400 .

At this time, the filtering unit 800 collects foreign substances contained in the working fluid recovered from the recovery pipe 400 , and the working fluid from which the foreign substances are removed is recovered to the storage tank 200 .

Here, the filtering unit 800 is formed with a discharge path 810 discharged to the outside of the main body 100, the discharge path 810 has an adsorption member 820 for adsorbing foreign substances and a ventilation hole through which air is discharged. will be prepared

That is, the working fluid recovered from the internal pipe of the hydraulic device to the recovery pipe 400 passes through the filtering unit 800 to remove foreign substances, and the working fluid from which the foreign substances are removed is recovered to the storage tank 200 and returned to the heating unit 500 . ) can be reused by heating.

As described above, the flushing apparatus 1000 of the present invention heats the working fluid stored in the storage tank 200 through the heating air supplied from the heating unit 500 to a temperature for flushing the working fluid, The working fluid stored in the storage tank 200 is supplied to the internal pipe of the hydraulic device through the supply pipe 300 to remove foreign substances remaining in the internal pipe, and the working fluid containing the foreign substance is recovered through the recovery pipe 400 . While removing foreign substances from the filtering unit 800 , the filtered working fluid is introduced into the storage tank 200 to provide an effect of circulating the working fluid.

The present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the gist of the present invention as claimed in the claims.

1000: flushing device
100: body 110: wheel
120: handle 200: storage tank
300: supply pipe 310: first pump
320: first valve 330: second valve
350: bypass pipe 351: fifth valve
400: recovery pipe 401: concentration sensor
410: second pump 420: third valve
430: fourth valve 500: heating unit
510: heating body 511: injection pipe
520: heating module 530: injection module
600: temperature sensor 700: control unit
800: filtering unit 810: discharge path
820: adsorption member

Claims (4)

In the flushing device connected to flush (flushing) the internal pipe of the hydraulic device,
main body;
a storage tank provided inside the body and storing a working fluid for flushing;
a supply pipe having one end connected to the storage tank, the other end connected to the internal pipe of the hydraulic device, and having a first pump to which the working fluid stored in the storage tank is supplied by pumping of the first pump;
a recovery pipe having one end connected to the storage tank, the other end connected to the internal pipe of the hydraulic device, and having a second pump to recover the working fluid to the storage tank by pumping the second pump;
a bypass pipe provided between the supply pipe and the recovery pipe to connect the supply pipe and the recovery pipe, the bypass pipe having a fifth valve to move a working fluid from the recovery pipe to the supply pipe;
a heating unit coupled to the storage tank and heating the working fluid;
a temperature sensor coupled to the storage tank and measuring a temperature inside the storage tank; and
a control unit connected to the heating unit and the temperature sensor, and controlling the heating unit according to the temperature inside the storage tank received from the temperature sensor;
In the recovery pipe,
Further comprising a concentration sensor for measuring the concentration or pressure of the working fluid accommodated in the recovery pipe, when the amount of foreign substances contained in the working fluid through the concentration sensor is less than a preset amount, the supply pipe through the bypass pipe to supply the working fluid, and the recovery pipe is disposed above the ground above the supply pipe so that the working fluid located in the recovery pipe moves to the supply pipe through the bypass pipe by its own weight,
The heating unit,
A heating body connected to the storage tank and having an injection tube formed therein, a heating module coupled to an end of the heating body, and an injection module for introducing the heated air from the heating module into the storage tank through the injection tube includes,
The flushing device, characterized in that the heated air flowing into the storage tank heats the working fluid. delete According to claim 1,
The heating unit,
A flushing device, characterized in that formed in plurality to have a predetermined interval. According to claim 1,
The flushing device further comprising a; a filtering unit installed between the storage tank and the recovery pipe to remove foreign substances contained in the working fluid recovered through the recovery pipe.

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