KR100847561B1 - A test apparatus for cylinder lubricator - Google Patents

Abstract

An apparatus for testing the performance of a cylinder lubricator is provided to previously check problems occurring in the configuration and the operation of the apparatus in the manufacturing process of the cylinder lubricator. An apparatus(100) for testing the performance of a cylinder lubricator(200) includes a body frame(70). An oil supplying part(10) is disposed in the lower space of the body frame. An oil introducing part(20) and an oil discharging part(40) are provided inside and outside the body frame. A lubricator driving unit(30) is disposed at an end of a horizontal surface of the body frame. The oil supplying part includes an oil tank(12), an oil tube(14), and an oil pump(16). A cylinder oil discharged from the oil tank fluctuates in an oil tube(14).

Description

A test apparatus for cylinder lubricator

The present invention relates to a performance testing device for a cylinder oiling device, and more specifically, it can be generated in the manufacturing process of the cylinder oiling device by providing a test device for collectively inspecting and checking the device configuration and operation of the cylinder oiling device. The problem of the configuration and operation of the existing device is confirmed in advance so that the operation problem does not occur after the installation of the cylinder oiling device, thereby increasing the durability of the engine and ensuring the safe operation of the engine. It relates to a test apparatus.

The cylinder oiling device is to supply cylinder oil to the engine cylinder of an internal combustion engine such as a diesel engine, and the engine operates smoothly by periodically supplying and lubricating the cylinder oil to engine parts such as the cylinder liner and the piston ring. It is a device that increases the life and safety of the engine by preventing breakage and damage.

Here, many diesel engines, which are applied to ships, have a lot of mechanical cylinder lubrication devices that are superior to electronic cylinder lubrication devices in terms of installation price, operation and maintenance.

The mechanical cylinder oiling device is to link the plunger pump to the main shaft of the engine, and to supply the cylinder oil pumped from the plunger pump into the cylinder of the engine through the discharge pipe formed with the check valve, for which the mechanical cylinder oiling device is the main shaft of the engine The rotary shaft is connected to the axial axis, and the eccentric cam is rotated by the rotary shaft so that the plunger pump reciprocates. Here, the mechanical cylinder oiling device allows the cylinder oil to be introduced from the inlet formed on one side so that the cylinder oil is filled in the oil case of the cylinder oiling device.

In connection with such a cylinder lubrication device, the applicant has filed an application No. 10-2007-0117400 "cylinder lubrication device of a large engine for ships". The "cylinder lubrication device of the large engine for ship" is connected to the main shaft of the engine and the cam shaft is formed so that the eccentric cam is formed at a predetermined interval through the oil case, the lower end is in contact with the eccentric cam of the cam shaft and the upper end is adjusted An eccentric shaft coupled with a screw that is in contact with a screw is installed to penetrate the center of the oil case, and a plunger pump having one side of the plunger abutting the lower end of the lever and a bushing coupled to the pump body are equally coupled to the lever of the eccentric shaft. A large ship for shipping the plunger pump by the rotation of the eccentric cam to reciprocate to allow oil filled in the oil case to pass through the pump body, the sight glass and the ball station, and then flow into the cylinder liner via a discharge pipe. In the cylinder lubricator of the engine, 36 unit plunger pumps are coupled to the pump body, Will further ensure that the fuel inlet attached to the liner can be attached to the engine lubricating device of the cylinder bore 6 by numbered up to six cylinders per cylinder is 460mm or 500mm or 600mm in large engine per unit 1 set by selectively.

On the other hand, the cylinder oiling device as described above is to operate the engine smoothly by lubricating the parts inside the engine, and to prevent damage and damage to the engine, and is essential to the durability and safe operation of the engine For example, the cylinder lubrication system should be thoroughly inspected from the manufacturing stage to ensure that there is no problem with the configuration and operation of the system.

However, until now, there has not been developed a test device for inspecting and checking the overall configuration and operation of the cylinder oiling device. Therefore, the manufacturer of the cylinder oiling device has only a simple operating state such as the discharge state of the cylinder oil. Self-test was common.

Accordingly, it is difficult to identify in advance the device configuration and operation problems of the cylinder lubrication device generated in the manufacturing process, the problem occurred such as damage to the device or malfunction of the device in the process of installing and operating the actual cylinder lubrication device.

Accordingly, the present invention improves such problems of the prior art, and provides a test device for collectively inspecting and checking the device configuration and operation state of the cylinder oiling device so that the configuration of the device that can be generated in the manufacturing process of the cylinder oiling device And the operation of the new type of cylinder lubrication device to check the operation problem in advance so that the operation problem does not occur after the installation of the cylinder lubrication device, thereby increasing the durability of the engine and ensuring the safe operation of the engine. It is an object to provide a performance test apparatus.

According to a feature of the present invention for achieving the above object, the present invention, the cylinder oil is introduced from the inlet to fill the oil case, the eccentric cam is rotated by the rotating shaft connected to the engine to reciprocate the pump inside the oil case In the performance test apparatus for testing the operating performance of the cylinder lubrication device for discharging the cylinder oil filled in the discharge tube, the oil tank in which the cylinder oil is stored, and the cylinder oil is connected to the oil tank An oil supply unit formed between an oil pipe and an oil pump installed between the oil tank and the oil pipe and driven by an operating motor to discharge the cylinder oil in the oil tank to the oil pipe at a predetermined back pressure; An inlet valve connected to the oil pipe of the oil supply unit, and an inlet pipe having one end coupled to the inlet valve and the other end coupled to the inlet port of the cylinder oil supply device so that the cylinder oil is introduced into the oil case of the cylinder oil supply device. An oil inlet; A fueling device driving unit including a rotating motor coupled to the rotating shaft of the cylinder oiling device to rotate the rotating shaft to drive the cylinder oiling device; An oil discharge part including a plurality of discharge pipes connected to the discharge pipes of the cylinder oiling device, and a discharge port through which the plurality of discharge pipes are connected and fixed to receive the cylinder oil discharged from the discharge pipes; An oil back pressure measurement gauge installed in the oil pump of the oil supply part, a motor measurement gauge installed on the oil supply device driving part to measure the rotational speed, the rotational force, and the continuous operation time of the driving motor, and a discharge tube of the oil discharge part It is made of a gauge selected from the group consisting of a flow meter (flow-meter) for measuring the discharge of the cylinder oil discharged from the discharge pipe to measure the operating performance of the cylinder oiling device including the cylinder oil discharge of the cylinder oiling device A measuring unit; A control unit for controlling the oil supply unit, an oil supply device driving unit, and a measurement unit; It is characterized by including.

The operation motor of the oil supply unit in the performance test apparatus of the cylinder oiling device according to the present invention is characterized in that the rotational speed and the rotational force is controlled by the control unit to control the back pressure of the cylinder oil discharged from the oil supply unit.

The rotation motor and the rotational force of the lubrication device driving unit in the performance test apparatus of the cylinder lubrication apparatus according to the present invention is controlled by the control unit, the lubrication device driving unit, the rotational direction, rotational speed, rotational force of the rotary motor It is characterized in that it further comprises an engine load tracking device for changing in real time to allow the rotary motor to simulate the abnormal operation of the engine.

In the performance test apparatus of the cylinder oiling device according to the present invention, the measuring unit is installed in the oil pump of the oil back pressure measuring gauge, the oiling device driving unit is installed in the rotational speed and torque and the continuous operation time of the drive motor Motor measurement gauge for measuring the, characterized in that it comprises a flow meter (flow-meter) respectively installed in the discharge pipe of the oil discharge portion.

According to the performance test apparatus of the cylinder oiling device according to the present invention, the problem of the configuration and operation of the device that may occur in the manufacturing process of the cylinder oiling device is confirmed in advance, the operation problem occurs after installation of the cylinder oiling device This is minimized.

In addition, as the failure of the cylinder oiling device can be prevented in advance, the durability of the engine is increased and the safe operation of the engine is ensured.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to FIGS. 2 to 5. On the other hand, in the drawings and detailed description showing and referring to the construction and operation that can be easily understood by those skilled in the art from the performance test apparatus of the general cylinder oiling device is briefly or omitted. In particular, in the drawings and detailed description of the drawings, detailed descriptions and illustrations of specific technical configurations and operations of elements that are not directly related to technical features of the present invention are omitted, and only the technical configurations related to the present invention are briefly shown or Explained.

Figure 2 is a block diagram for showing a performance testing device of the cylinder oiling apparatus according to the present invention, Figure 3 is a block diagram for showing a performance testing device of the cylinder oiling device according to an embodiment of the present invention, Figure 4 Fig. 5 is an external view of a performance test apparatus for a cylinder lubrication apparatus according to another embodiment of the present invention, and FIG. 5 is an external view of a state in which a cylinder lubrication apparatus is mounted on a performance testing apparatus of a cylinder lubrication apparatus according to another embodiment of the present invention. .

The performance testing device of the cylinder oiling device according to the present invention is a test device that can collectively inspect and check the device configuration and operation state of the cylinder oiling device as shown in Fig. 1, the cylinder oil is introduced from the inlet to fill the oil case In addition, the eccentric cam is rotated by the rotating shaft connected to the engine, and the pump is reciprocated so that the cylinder oil filling device which discharges the cylinder oil filled in the oil case to the discharge tube is tested for the driving performance of the cylinder oil filling device.

Performance test apparatus 100 of the cylinder oiling device according to the present invention is an oil supply unit 10, oil inlet 20, oiling device drive unit 30, oil discharge unit 40, as shown in FIG. It consists of the measuring part 50 and the control part 60.

Here, the performance test apparatus 100 of the cylinder oiling device according to an embodiment of the present invention, the oil supply unit 10, the oil in the inner space and the outer surface of the table frame body frame 70, respectively, as shown in Figs. The inlet part 20, the lubrication device drive part 30, the oil discharge part 40, the measuring part 50, the control part 60 are arrange | positioned, and the cylinder lubrication device 200 is put in the upper horizontal surface of the body frame 70. The oil inlet 20 and the lubrication device driver 30 and the oil outlet 40 is configured to be coupled.

That is, the performance testing device 100 of the cylinder oiling device according to an embodiment of the present invention is the oil supply unit 10 is disposed in the lower inner space of the body frame 70, the rear side of the upper horizontal surface of the body frame 70 The oil inlet 20 and the oil outlet 40 are disposed inside and outside the body frame 70, and an oil supply device driving unit 30 is disposed at an end portion of the upper horizontal surface of the body frame 70.

The oil supply unit 10 is an oil tank 12 in which cylinder oil is stored, an oil pipe 14 connected to the oil tank 12 and allowing the cylinder oil to flow, and an oil tank 12 and oil pipe 14. It is installed between and is driven by the operating motor 18 is composed of an oil pump 16 for discharging the cylinder oil in the oil tank 12 to the oil pipe 14 at a predetermined back pressure.

The oil tank 12 is supplied to store the cylinder oil from the cylinder oil supply device provided separately, or the discharge pipe 42 constituting the oil discharge portion 40 of the performance testing device 100 of the cylinder oiling device according to the present invention. It is preferable to continuously supply the cylinder oil into the oil tank 12 in accordance with the amount of the cylinder oil discharged from the oil tank 12 for the smooth operation performance test of the cylinder oiling device 200.

The oil pipe 14 is a passage through which the cylinder oil discharged from the oil tank 12 flows and moves to the oil inlet 20. The back pressure, flow rate, flow rate, etc. of the cylinder oil flowing through the oil pipe 14 is an oil pump. Determined by (16).

Oil pump 16 according to an embodiment of the present invention is a rotary pump (rotary pump) driven by the operating motor 18, the operation motor 18 is controlled by the controller 60 the rotational speed and rotational force Thus, the back pressure of the cylinder oil discharged from the oil supply unit 10, the induction amount of the cylinder oil, the flow rate and the like are adjusted.

Here, the engine manufacturing company currently recommends to perform the pressure test of the cylinder oiling device with a cylinder oil back pressure of 5 ~ 30bar, as the back pressure of the cylinder oil discharged from the oil supply unit 10 can be adjusted as described above In addition, the pressure test recommended by the engine manufacturing company can be performed easily and smoothly.

The oil inlet 20 has an inlet valve 22 connected to the oil pipe 14 of the oil supply unit 10, one end of which is coupled to the inlet valve 22, and the other end of the oil inlet 220 of the cylinder oiling device 200. It is composed of an inlet pipe 24 is coupled to the cylinder oil to be introduced into the oil case 280 of the cylinder oiling device 200.

The inflow valve 22 injects the cylinder oil into the oil case 280 of the cylinder oiling device 200 or blocks the cylinder oil flowing into the oil case 280 of the cylinder oiling device 200 according to the opening and closing operation. Let's go.

Inlet pipe 24 is to connect the performance test device 100 and the cylinder oiling device 200 of the cylinder oiling device according to the present invention, it is preferable to use a flexible hose (hose) type, but hard Various types, such as pipes, can also be used.

The lubrication device driver 30 rotates the rotation shaft 260 of the cylinder lubrication device 200 so that the cylinder lubrication device 200 periodically discharges the cylinder oil to the outside. The rotary motor 32 is coupled to the 260, such a rotary motor 32 is to simulate the rotation of the main shaft of the engine.

Here, the rotational motor 32 according to the embodiment of the present invention is controlled by the control unit 60 in the frequency control method and the rotational force is controlled as well, thus, the rotational speed of the engine and the engine load simulation do.

On the other hand, the lubrication device driving unit 30 according to the embodiment of the present invention is provided with an engine load tracking device 34 connected to the rotary motor 32, controlled by the control unit 60, such an engine load tracking The device 34 changes the rotation direction, the rotation speed, and the rotational force of the rotary motor 32 in real time, thereby simulating abnormal operation of the engine.

As described above, according to the exemplary embodiment of the present invention, the cylinder operation apparatus 200 may be tested under various operating conditions as the various operating states of the engine can be simulated.

The oil discharge part 40 includes a plurality of discharge pipes 42 each connected to the discharge pipe 240 of the cylinder oiling device 200, and a plurality of discharge pipes 42 are connected and fixed to discharge the cylinder from the discharge pipe 240. It consists of an outlet 44 for receiving oil.

Here, the discharge pipe 42 according to the embodiment of the present invention is preferably used in the form of a flexible hose, it can be used in various forms such as a hard pipe.

In addition, the outlet 44 according to the embodiment of the present invention is connected to the oil tank 12 of the oil supply unit 10 so that the cylinder oil discharged from the cylinder oiling device 200 is circulated back to the oil tank 12. do.

The measuring unit 50 includes an oil supply unit 10, a plurality of gauges 52, 54, and 56 installed at the oil supply device driving unit 30 and the oil discharge unit 40, respectively. Measurement of the driving performance, the measuring unit 50 according to an embodiment of the present invention is installed on the oil back pressure gauge (52), the oil supply device driving unit 30 is installed in the oil pump 16 of the oil supply unit 10 Flow meter 56 installed in each of the motor measurement gauge 54 and the discharge pipe 42 of the oil discharge part 40 to measure the rotational speed and the rotational force and the continuous operation time of the operating motor 18, respectively. It includes.

In addition, the measurement unit 50 according to an embodiment of the present invention alarms when the cylinder oil is not discharged from the cylinder lubrication device 200 or the amount of cylinder oil discharged from the cylinder lubrication device 200 is less than the predetermined minimum discharge amount. The safety device 58 for generating the oil discharge portion 40 is to be installed.

Here, the discharge pipe 240 of the cylinder oil supply device 200 is to supply the oil contained in the cylinder of the engine, the flow meter 56 installed in the discharge pipe 42 of the oil discharge portion 40 as described above ), It is possible to measure the flow rate of cylinder oil for each cylinder and the flow rate of cylinder oil for each point of the cylinder.

In addition, in the performance test apparatus 100 of the cylinder oiling device according to the embodiment of the present invention, as the oil back pressure measurement gauge 52 is installed, the pressure test on the cylinder oiling device 200 becomes possible, and the motor measurement is performed. As the gauge 54 and the flow meter 56 are installed, an operation capability test, a continuous operation test, and the like become possible.

The control unit 60 controls the oil supply unit 10, the oil supply device driving unit 30, and the measurement unit 50. The control unit 60 according to the embodiment of the present invention includes a main control panel 62 and an auxiliary control panel ( 64 is provided to smoothly control the performance testing device 100 of the cylinder oiling device.

On the other hand, the performance testing device 100 of the cylinder oiling device according to another embodiment of the present invention, including the discharge pipe of the oil discharge unit 40, the oil pipe 14 of the oil supply unit 10, the oil inlet 20 By installing a filter in the inlet valve 22 and the inlet pipe 24, the flushing operation of the cylinder oiling device 200 may be performed.

In addition, the performance testing device 100 of the cylinder oiling device according to another embodiment of the present invention, as shown in Figure 4 and 5 to be equipped with two cylinder oiling device at the same time performance test for two cylinder oiling device This can be done.

As described above, the performance test apparatus of the cylinder oiling apparatus according to the embodiment of the present invention is shown in accordance with the above description and drawings, but this is only described for example and various within the scope without departing from the technical spirit of the present invention. It will be understood by those skilled in the art that variations and modifications are possible.

1 is an exemplary view of a cylinder oiling apparatus mounted to the performance test apparatus of the cylinder oiling apparatus according to the present invention;

Figure 2 is a block diagram for showing a performance test apparatus of the cylinder oiling apparatus according to the present invention;

3 is a block diagram showing a performance test apparatus of a cylinder oiling apparatus according to an embodiment of the present invention;

4 is an external view of a performance test apparatus for a cylinder oiling apparatus according to another embodiment of the present invention;

5 is an external view of a state in which a cylinder oiling device is mounted on a performance testing device of a cylinder oiling device according to another embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

10: oil supply unit 12: oil tank

14: oil pipe 16: oil pump

18: operation motor 20: oil inlet

22: inlet valve 24: inlet pipe

30: oiling device drive unit 32: rotary motor

34: engine load tracking device 40: oil discharge part

42: discharge pipe 44: discharge port

50: measuring unit 52: oil back pressure measurement gauge

54: motor measurement gauge 56: flow meter

58: safety device 60: control unit

62: main control panel 64: auxiliary control panel

70: body frame 100: cylinder oiling device performance test equipment

200: cylinder oiling device 220: inlet

240: discharge tube 260: rotating shaft

280: oil case

Claims (4)

The cylinder oil is introduced from the inlet to fill the oil case, and the eccentric cam is rotated by the rotating shaft connected to the engine, and the pump reciprocates to discharge the cylinder oil filled in the oil case to the discharge pipe. In the performance test apparatus for testing An oil tank in which cylinder oil is stored, an oil pipe connected to the oil tank to allow the cylinder oil to flow, and installed between the oil tank and the oil pipe and driven by an operating motor to operate the cylinder oil in the oil tank. An oil supply unit comprising an oil pump for discharging the oil pipe at a predetermined back pressure; An inlet valve connected to the oil pipe of the oil supply unit, and an inlet pipe having one end coupled to the inlet valve and the other end coupled to the inlet port of the cylinder oil supply device so that the cylinder oil is introduced into the oil case of the cylinder oil supply device. An oil inlet; A fueling device driving unit including a rotating motor coupled to the rotating shaft of the cylinder oiling device to rotate the rotating shaft to drive the cylinder oiling device; An oil discharge part including a plurality of discharge pipes connected to the discharge pipes of the cylinder oiling device, and a discharge port through which the plurality of discharge pipes are connected and fixed to receive the cylinder oil discharged from the discharge pipes; An oil back pressure measurement gauge installed in the oil pump of the oil supply part, a motor measurement gauge installed on the oil supply device driving part to measure the rotational speed, the rotational force, and the continuous operation time of the driving motor, and a discharge tube of the oil discharge part It is made of a gauge selected from the group consisting of a flow meter (flow-meter) for measuring the discharge of the cylinder oil discharged from the discharge pipe to measure the operating performance of the cylinder oiling device including the cylinder oil discharge of the cylinder oiling device A measuring unit; A control unit for controlling the oil supply unit, an oil supply device driving unit, and a measurement unit; Performance testing device of the cylinder oiling device comprising a. The method of claim 1, The operation motor of the oil supply unit, the rotational speed and the rotational force is controlled by the controller to control the back pressure of the cylinder oil discharged from the oil supply unit. The method of claim 1, The rotational motor and the rotational force of the rotation motor is controlled by the control unit, the oil supply device drive unit further comprises an engine load tracking device for changing the rotational direction, the rotational speed, the rotational force of the rotary motor in real time; Performance tester for a cylinder oiling device, characterized in that the rotating motor to simulate the abnormal operation of the engine. delete

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