KR200455530Y1 - Testing apparatus for hydraulic device having axial fan - Google Patents

Abstract

The present invention relates to a device for directly testing the operating state of a hydraulic device (hydraulic device) for adjusting the blade angle of the axial fan (axial fan).

The main configuration of the present invention and the base 10 is fixed to the structure; A drive motor 20 installed on the base; A drive pulley 32 coupled to the motor shaft of the drive motor 20; A driven pulley 34 connected to the drive pulley 32 by a belt 33; It is coupled to the driven pulley 34 in a hollow shape and rotated by the rotation of the driven pulley 34, the test bar 70 is inserted into one end so as to be movable therein, and the other end coupling portion 44 is formed A drive shaft 40; A bearing block (50) positioned on an upper surface of the base (10) to support rotation of the drive shaft (40); And a guide groove 42 to which the coupling portion 44 of the drive shaft 40 is fastened to rotate together with the drive shaft, and to which the piston rod of the cylinder 110 of the hydraulic actuator 100 housed therein is fitted. 60, wherein the inspection bar 70 is in contact with the piston rod via a spring 72.

Hydraulic actuator, hollow, guide groove, guide groove, spring, restoring force, stroke

Description

Axial flow fan hydraulic actuator test device {TESTING APPARATUS FOR HYDRAULIC DEVICE HAVING AXIAL FAN}

The present invention relates to a device for directly testing the operating state of a hydraulic device (hydraulic device) for adjusting the blade angle of the axial fan (axial fan).

The hydraulic actuator of the axial fan is a device that allows many blades to vary according to the load. It requires high operational reliability and cannot be maintained during operation. Therefore, it is necessary to check whether the hydraulic oil leaks from the hydraulic actuator before and after maintenance, and whether the hydraulic actuator adjusting head is operating normally. It should be checked whether the cylinder and the cylinder move by the actual stroke.

However, for such a test, there is a disadvantage in that the operation test is carried out with the hydraulic actuator assembled to the axial fan, or the operation test is carried out to a specialized manufacturer. In addition, the existing simple test apparatus has a disadvantage in that the operation test reflecting the actual operating state cannot be performed because there is no function of simulating the operating state.

As shown in FIG. 1, the conventional axial fan hydraulic actuator operation test apparatus fixes the hydraulic actuator 1, which is a test subject, and generates and supplies high pressure hydraulic fluid similar to the actual operating situation in the hydraulic generation and supply apparatus 2. It is a device for testing whether the cylinder of the hydraulic actuator 1 operates normally.

However, in actual operation situation, the cylinder is moved in the axial direction while the hydraulic actuator rotates to adjust the vane angle of the axial fan, so the existing static test device can confirm whether the hydraulic actuator is in normal operating condition. There is no problem.

Therefore, the present invention is proposed to solve the above problems, the object of the present invention is to quickly and simply test the hydraulic actuator separated in the field before and after maintenance for maintenance at the stop can check the soundness of the hydraulic actuator It is to provide a simple axial fan hydraulic actuator testing device.

It is another object of the present invention to provide an axial fan hydraulic actuator testing apparatus that allows the hydraulic actuator to be placed in a condition similar to the actual operating situation, and then performs an operation test to function as a practical test apparatus.

The above object, the base 10 is fixed to the structure; A drive motor 20 installed on the base; A drive pulley 32 coupled to the motor shaft of the drive motor 20; A driven pulley 34 connected to the drive pulley 32 by a belt 33; It is coupled to the driven pulley 34 in a hollow shape and rotated by the rotation of the driven pulley 34, the test bar 70 is inserted into one end so as to be movable therein, and the other end coupling portion 44 is formed A drive shaft 40; A bearing block (50) positioned on an upper surface of the base (10) to support rotation of the drive shaft (40); And a guide groove 42 to which the coupling portion 44 of the drive shaft 40 is fastened to rotate together with the drive shaft, and to which the piston rod of the cylinder 110 of the hydraulic actuator 100 housed therein is fitted. 60, wherein the inspection bar 70 is achieved by an axial fan hydraulic actuator testing device in contact with the piston rod via a spring 72.

Preferably, the hydraulic actuator 100 is connected to the oil pressure generating and supplying device 90 by the oil supply line 92, the oil return line 94 and the oil leakage line 96.

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According to the above structure, since the integrity test can be performed under the same operating conditions as the axial flow fan hydraulic actuator installed in the actual equipment, the state of the hydraulic actuator can be understood more clearly.

In addition, even a simple test device that can be used in the field can accurately grasp the health of the hydraulic actuator to improve the reliability of the maintenance, and can be inspected from time to time to reduce maintenance costs and shorten the maintenance period. There is this.

Hereinafter, with reference to the accompanying drawings will be described in detail an embodiment of the present invention.

Figure 2 is a block diagram showing an axial fan hydraulic actuator test apparatus according to the present invention.

The base 10 serves to support the test apparatus and is firmly fixed to the structure.

The drive motor 20 provides a rotational force for rotating the hydraulic actuator 100 at the same speed as the actual operating conditions, for example, the rotational speed of the power plant axial fan IDF, FDF and BUF 890 RPM.

The power transmission unit includes a drive pulley 32 coupled to the motor shaft of the drive motor 20, a driven pulley 34 coupled to the drive shaft 40, and a V-belt connecting the drive pulley 32 and the driven pulley 34. Composed of 33 transmits the rotational force of the drive motor 20 to the drive shaft (40).

A pair of bearing blocks 50 are fixedly spaced apart from the upper surface of the base 10, and the drive shaft 40 is rotatably fixed through the bearing blocks 50.

The drive shaft 40 is hollow so that the inspection bar 70 is inserted into the internal space so that the cylinder stroke length can be measured during operation. In addition, the coupling portion 44 is formed at the end of the drive shaft 40 to facilitate engagement with the housing 60, a guide groove 42 is formed at the center of the end, and the housing (at the end of the drive shaft 40). 60 is coupled to the inner space of the guide groove 42 and the housing 60 is in communication.

Here, the coupling portion 44 is processed by a predetermined length or more in consideration of the moving distance of the piston rod (100 mm in the case of the power plant axial fan hydraulic actuator) of the cylinder 110 of the hydraulic actuator 100, the guide groove 42 It is desirable to be able to fully accommodate the reciprocating amount of this cylinder.

The inspection bar 70 is installed so that one end located on the driven pulley 34 side protrudes from the drive shaft 40, and the other end is located in the guide groove 42 to open the cylinder 110 of the hydraulic actuator 100. In contact with the piston rod, a spring 72 is fitted in the inspection bar 70 in the guide groove 42.

When the high pressure hydraulic oil is injected and recovered into the cylinder 110 of the hydraulic actuator 100 so that the piston rod in the cylinder 110 reciprocates, the test bar 70 also reciprocates by the elastic force of the spring 72. Therefore, one end is exposed to the outside of the drive shaft 40, the cylinder stroke length can be measured as the inspection bar 70 moves by the cylinder stroke. Here, the spring 72 is manufactured to withstand repeated contraction and expansion above the cylinder stroke.

The housing 60 has a biparticular cylindrical structure, and the divided portion can be bolted. One portion of the bisected housing 60 is attached to the engaging portion 44 of the drive shaft 40, and the other portion supports the adjustment head portion 120 of the hydraulic actuator 100.

In the housing 60, the cylinder 110 of the hydraulic actuator 100 is accommodated and fixed so as to rotate together with the housing 60, and the piston rod of the cylinder 110 is coupled to the drive shaft 40. It is inserted into the guide groove 42 of the section 44.

In addition, the housing 60 has a structure capable of compatible test operation even if the outer diameter of the cylinder 110 of the hydraulic actuator 100 to be tested is adjusted, and should be able to measure the cylinder visual inspection and the stroke length during the test.

For example, since the cylinder outer diameter of the hydraulic actuator 100 to be tested (the cylinder outer diameter 490 mm for the BUF and FDF of the power plant axial fan, the outer diameter of the cylinder for the IDF 412 mm) and the cylinder stroke vary, it corresponds to the cylinder of the largest hydraulic actuator. It is necessary to size the housing 60 and insert one of sleeves of various sizes into the outer peripheral surface of the cylinder 110 to fix the housing 60.

Hydraulic generating and supplying device (90) is a facility for supplying a high-pressure hydraulic fluid to the hydraulic actuator 100, which is a test object, and supplies and retrieves the hydraulic oil of the same pressure as the actual operating conditions, the oil storage tank, the oil cooler, Oil pressure control and flow control valve are built in.

The oil supply line 92, the oil return line 94, and the oil leakage line 96, which transmit the high pressure hydraulic fluid from the oil pressure generating and supplying device 90 to the hydraulic actuator 100, are each capable of withstanding high pressure (38 bar). Use a flexible hose.

Referring to the operation of the axial fan hydraulic actuator test apparatus having the above structure is as follows.

When the driving motor 20 rotates by applying power, the driving shaft 40 rotates through the power transmission units 32, 33, 34. Accordingly, the housing 60 attached to the engaging portion 44 of the drive shaft 40 rotates, and at the same time, the cylinder 110 of the hydraulic actuator 100 accommodated in the housing 60 at the same speed as the actual operating speed. Rotate.

As such, when the cylinder 110 of the hydraulic actuator 100 accommodated in the housing 60 rotates at the same speed as the normal operating condition, the hydraulic generator 100 is operated by operating the hydraulic generator and supply device 90. The high pressure hydraulic oil is supplied to and recovered from the cylinder 110.

Accordingly, it is possible to check whether the piston rod of the hydraulic actuator 100 and the cylinder 110 is reciprocated by a predetermined length and whether the hydraulic actuator 100 control head 120 is normally operated. It is possible to determine the leakage of oil in the axial fan hydraulic actuator 100 can be tested the integrity.

In the above described with reference to the embodiment of the present invention, various changes can be made at the level of those skilled in the art. Therefore, the scope of the present invention is not limited to the above embodiments and can not be interpreted, it should be interpreted by the utility model registration claims described below.

1 shows a conventional hydraulic actuator test apparatus.

Figure 2 is a block diagram showing an axial fan hydraulic actuator test apparatus according to the present invention.

Claims (4)

A base 10 fixed to the structure; A drive motor 20 installed on the base; A drive pulley 32 coupled to the motor shaft of the drive motor 20; A driven pulley 34 connected to the drive pulley 32 by a belt 33; It is coupled to the driven pulley 34 in a hollow shape and rotated by the rotation of the driven pulley 34, the test bar 70 is inserted into one end so as to be movable therein, and the other end coupling portion 44 is formed A drive shaft 40; A bearing block (50) positioned on an upper surface of the base (10) to support rotation of the drive shaft (40); And A guide groove 42 to which the coupling portion 44 of the drive shaft 40 is coupled is formed to rotate together with the drive shaft, and a housing into which the piston rod of the cylinder 110 of the hydraulic actuator 100 accommodated therein is fitted. 60), The test bar (70) is axial fan hydraulic actuator testing device, characterized in that the contact with the piston rod via a spring (72). The method according to claim 1, The hydraulic actuator 100 is an oil supply line (92), oil recovery line (94) and oil leakage line 96, the axial fan hydraulic actuator test apparatus, characterized in that connected to the hydraulic generating and supply device (90). delete delete

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