KR101593837B1 - Performance of the test object test device - Google Patents

Abstract

A performance test apparatus of an object to be tested is provided. According to an embodiment of the present invention, a performance test apparatus of the object to be tested comprises: a housing unit (100) fixated to a top surface of a base frame (2), has a motor (10) mounted on one surface thereof, and an object to be tested (20) mounted on an other surface (100b) facing the motor (10); an engagement unit (200) to which a rotary shaft (110) of the motor (10) inserted into the housing unit (100), and a rotary shaft (21) of the object to be tested (20) inserted therein while facing each other; a protection cap (300) inserted into the rotary shaft (21) of the object to be tested (20), of which an outer surface is plastic and an inner surface is rubber; and a mounting plate (400) attached to the other surface (100b) of the housing unit (100) to which the object to be tested (20) is fixated, and a plurality of bolt holes (410) formed for engagement in accordance with a variety of specifications of the object to be tested (20).

Description

[0001] The present invention relates to a performance test apparatus,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a test apparatus used for testing performance of a pump, and more particularly, to a performance test apparatus for a test object.

Generally, a hydraulic pump test unit for testing the performance of a hydraulic pump is provided with a support plate, a motor is fixed to an L-shaped support bracket fixed to the upper surface of the support plate, and a test is made at a position facing the motor The hydraulic pump is located.

In order to align the rotary shaft of the motor and the rotary shaft of the hydraulic pump, alignment is performed by using a plurality of fastening members and an alignment member. In order to align the position of the hydraulic pump spaced from the upper surface of the support plate, In order to do this, we were aligning each other through a fairly complex mechanism.

In addition, an additional gauge is provided to precisely match the rotation axis of the motor with the front, rear, left, and right positions of the rotation axis of the hydraulic pump, thereby improving the accuracy of the work. So that the cost increase and the test time for the hydraulic pump are increased.

In addition, the cost of purchasing a performance test device for performance testing of a motor has been increased, which makes it difficult to operate an expensive performance test device.

Korean Patent Publication No. 10-2002-0052418

Embodiments of the present invention are intended to provide a performance test apparatus for a test object which can perform a performance test (pressure, flow rate, revolutions per minute) of a hydraulic pump conveniently and simply through a simple mechanical configuration.

According to an aspect of the present invention, a motor 10 is mounted on one surface of a base frame 2 while the test object 20 is mounted on a corresponding surface 100b facing the motor 10, A housing unit 100 to be mounted; A coupling unit 200 inserted into the housing unit 100 such that the rotary shaft 110 of the motor 10 and the rotary shaft 21 of the test object 20 are opposed to each other; A protective cap 300 inserted into the rotation axis 21 of the test object 20, the outer circumferential surface of which is made of plastic and the inner circumferential surface thereof is made of rubber; And a plurality of bolt holes 410 are formed on the corresponding surface 100b of the housing unit 100 to which the test object 20 is fixed and are fastened according to the specifications of the test object 20 having different specifications And includes a mounting plate 400.
The housing unit 100 is inserted into an insertion hole 102 opened in a corresponding face 100b facing the test object 20 and is inserted into an insertion end portion of the distal end portion of the test object 20, And a guide ring 110 which is made of a metal.
The mounting plate 400 is characterized in that bolt holes 410 are equally spaced from one another at corner positions.
The performance testing apparatus includes a tilt confirmation unit 500 provided on the upper surface of the housing unit to check the tilted state of the test object 20. [

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The embodiments of the present invention can perform a performance test of various pumps in a relatively short time with a relatively simple mechanism configuration, thereby improving the workability of the operator, The test can be carried out.

The embodiments of the present invention can perform the performance test even when the pump has a shape other than the cylindrical pump, such as the bossable pump, so that it is possible to perform tests on various types of pumps. In the case of pumps having different specifications It is also possible to easily mount it to the performance test equipment, so that the performance test can be performed without adding any additional components for mounting.

1 is an exploded view of an apparatus for testing a performance of a test object according to an embodiment of the present invention.
FIG. 2 is a combined view of an apparatus for testing the performance of a test object according to an embodiment of the present invention. FIG.
3 is a view showing a state as viewed from the direction of the mounting plate;
FIG. 4 illustrates first and second test objects to be tested through a performance testing apparatus for a test object according to an embodiment of the present invention; FIG.

An apparatus for testing the performance of a test object according to an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is an exploded view of a device for testing a performance of a test object according to an embodiment of the present invention, and FIG. 2 is a schematic diagram of an apparatus for testing a performance of a test object according to an embodiment of the present invention.

1 and 2, the apparatus for testing the performance of a test object according to the present embodiment includes a base frame 2 to which a motor 10 is fixed for testing the performance of a hydraulic pump, A housing unit 100 fixed to an upper surface of the base frame 2 and to which a test object 20 is mounted and a rotary shaft 110 of the motor 10 inserted into the housing unit 100 and a test object 20 And an inner circumferential surface of which is made of rubber and which is made of rubber and which is inserted into a rotating shaft 21 of the test object 20, A cap 300 and a plurality of bolts 408 attached to the corresponding surface 100b of the housing unit 100 to which the test object 20 is fixed and fastened according to the specifications of the test object 20 having different specifications, A mounting plate 400 having a hole 410 formed therein It should.

The base frame 2 is a kind of a base plate having various dimensions without being particularly limited in width, length and height. The base frame 2 has structural rigidity so as to prevent deformation and breakage due to the weight of the motor 10 and the test object 20 And a steel structure to be retained.

The housing unit 100 has a hollow cylindrical shape. Referring to the drawing, the lower end of the housing unit 100 is fixed to the upper surface of the base frame 2 via bolts. The motor 10 is mounted on the right side 100a, A test object 20 is mounted on a corresponding surface 100b facing the motor 10 and an insertion hole 102 is formed so that the rotational axis 21 of the test object 20 is positioned inside the housing unit 100 . For reference, the test object 20 to be described in the present embodiment may be any one of a hydraulic pump formed in a cylindrical shape or a bossable pump having an inclined shaft, and is not limited to a specific pump. However, the hydraulic pump or the bossable pump And other types of pumps will be described as a test object.

An electric motor is used as the motor 10 and the operation state of the motor 10 is controlled through a separate controller (not shown). In this embodiment, the control method for the performance test of the motor 10 is a key component And therefore a detailed description thereof will be omitted.

The motor 10 and the test object 20 according to the present embodiment are disposed to face each other via the housing unit 100. The rotation axis 11 of the motor 10 and the rotation axis The shaft 21 is fixed via a coupling unit 200 to be described later, and a detailed description will be given later.

The housing unit 100 is provided with a support plate 3 on one side for mounting the motor 10 and a plurality of bolts provided on the outer side of the support plate 3 to fix the motor 10 to the motor 10.

The housing unit 100 is fixed to the upper surface of the base frame 2 and the insertion hole 102 is opened at a position spaced apart from the upper surface of the base frame 2. When the test object 20 is not cylindrical Even when the end portion is a boss-like pump bent in one direction, it is opened at a position spaced upward from the base frame 2 so as to perform a performance test without interfering with the upper surface of the base frame 2. [

The test object 20 is fixed via a mounting plate 400 to a corresponding surface 100b (left side in the drawing) facing one side of the motor described above, A plurality of bolt holes 410 are arranged at regular intervals for each corner position with respect to the insertion hole 102 of the housing unit 100 in order to conveniently mount the object 20 to the housing unit 100 and perform a performance test do.

FIG. 3 is a view showing a device for testing the performance of a test object according to an embodiment of the present invention in the direction of a mounting plate, and FIG. 4 is a diagram illustrating a test device for testing a test object according to an exemplary embodiment of the present invention. Fig. 5 is a view showing first and second test objects. Fig.

3 to 4, for example, the first test object 20a and the second test object 20b are both pumps that are to be tested but have different specifications, and the first test object 20a 20a corresponds to a bossable pump having a relatively large size and a high output as compared with the second test object 20b.

The mounting plate 400 is formed with a plurality of virtual circles C1, C2 and C3 having bolt holes 410 having different diameters with respect to the center of the insertion hole 102, It is to be understood that the invention is not limited to the number and arrangement shown in the drawings. In this embodiment, the diameter of the first imaginary circle C1 formed in the first test object 20a shown in FIG. 4A and the diameter of the first imaginary circle C1 formed in the outermost one of the bolt holes 410 formed in the mounting plate 400 The diameter of the second virtual circle C2 formed on the second test object 20b shown in FIG. 4B and the diameter of the second virtual circle C2 formed on the mounting plate 400 And has a diameter that agrees with a virtual circle (C2) formed at the innermost of the bolt holes (410).

For example, the first test object 20a is provided with an opening hole on the edge of the contact surface 20d which is in close contact with the mounting plate 400, and the opening hole is formed in the center of the first test object 20a, A first imaginary circle C1 is formed around the rotation axis, which is disposed in the circumferential direction of the contact surface 20d.

The second test object 20b is also formed with a second virtual circle C2 based on the contact surface 20e and the first virtual circle C1 and the second virtual circle C2 are different from each other Diameter and are formed to have different diameters according to the specifications of the first and second test objects 20a and 20b.

The mounting plate 400 according to the present invention has bolt holes 410 arranged to have different diameters for convenient installation of the first and second test objects 20a and 20b having different specifications, The first and second test objects 20a and 20b can be easily mounted.

The present invention is characterized in that the operator fixes the first and second test objects 20a and 20b to the mounting plate 400 in order to perform a performance test on the first and second test objects 20a and 20b having different standards The bolt holes 410 are arranged at equal intervals from the edge of the mounting plate 400 toward the center of the insertion hole 102 so that the bolt holes 410 can be easily installed regardless of various specifications, The first and second test objects 20a and 20b can be mounted by aligning the positions of the bolt hole 410 and the opening hole according to the standards of the first and second test objects 20a and 20b conveniently provided by the operator.

According to various specifications of the test object 20 or the first and second test objects 20a and 20b, the above-described virtual circle can easily connect the bolt to the bolt hole by the operator, And the position is set according to the specification of the test object.

Therefore, it is possible to easily mount the test object without having to add a complicated mechanical configuration to the performance testing device 1 to install the test object having different specifications, so that the worker can improve the workability and prepare for the quick performance test It becomes possible. In addition, the manufacturing cost of the performance testing apparatus is reduced as a whole, and the purchase cost is relatively reduced even when a plurality of performance testing apparatuses for testing the test object are purchased.

The housing unit 100 is inserted into an insertion hole 102 opened in a corresponding surface 100b opposed to the test object 20 and is engaged with an insertion end 20c into which a distal end portion of the test object 20 is partially inserted, And a guide ring 110 which is made of a metal. The guide ring 110 is fixed in a state of being closely attached to the inner circumferential surface of the insertion hole 102 so that an extended portion of the insertion end 20c formed in the test object 20 can be inserted, And can be mounted in close contact with the outer circumferential surface of the mounting plate 400.

The guide ring 110 may be fitted into the insertion hole 102 or may be threaded on the inner circumferential surface of the insertion hole 102 and threaded on the outer circumferential surface of the guide ring 110, Do.

The guide ring 110 prevents the test object 20 from being separated or lifted from the mounting plate 400 so that the test object 20 can be stably mounted, So that the workability of the operator is improved.

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The protective cap 300 is a kind of protective member to be inserted into the rotation shaft 21 of the test object 20 and is used to minimize the occurrence of deformation or damage to the outer peripheral surface. The protection cap 300 may be made of any one material, for example, rubber or plastic, the outer circumferential surface may be made of plastic, and the inner circumferential surface may be made of rubber.

The reason why the protective cap 300 is formed as described above is that when the inner circumferential surface of the protective cap 300 made of rubber is kept in close contact with the outer circumferential surface of the rotary shaft 21, To prevent direct deformation or damage to the outer circumferential surface of the base 21. Since the outer circumferential surface of the protective cap 300 is made of plastic having a specific hardness, it is possible to protect the rotary shaft 21 through the protective cap 300 and to prevent the rotational force generated from the motor 10 The phenomenon of being deformed or broken in the process of being transmitted is minimized, so that a safe performance test for the test object 20 can be performed.

The performance testing apparatus 1 is attached to the upper surface of the housing unit 100 in order to check the front, back, left and right tilting states of the test object 20, (For example, a horizontal state) of the test object 20 through the guide plate 500 and determine whether the test object 20 installed in the mounting plate 400 is horizontally installed .

Therefore, before performing the performance test on the test object 20, the inclination state can be accurately checked and the performance test can be performed, so that the data reliability of the measured data of the measured object 20 is improved.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit of the invention as set forth in the appended claims. The present invention can be variously modified and changed by those skilled in the art, and it is also within the scope of the present invention.

2: Base frame
3: Support plate
10: Motor
20: Test object
20a: insertion end
11, 21:
100: housing unit
102: insertion hole
110: Guide ring
200: coupling unit
300: protective cap
400: Mounting plate
410: Bolt hole
500: inclination check part

Claims (6)

A housing unit 100 on which a motor 10 is mounted on one surface of the base frame 2 and a test object 20 is mounted on a corresponding surface 100b facing the motor 10;
A coupling unit 200 inserted into the housing unit 100 such that the rotary shaft 110 of the motor 10 and the rotary shaft 21 of the test object 20 are opposed to each other;
A protective cap 300 inserted into the rotation axis 21 of the test object 20, the outer circumferential surface of which is made of plastic and the inner circumferential surface thereof is made of rubber; And
A plurality of bolt holes 410 formed on the corresponding surface 100b of the housing unit 100 to which the test object 20 is fixed and which have a plurality of bolt holes 410 for fastening according to the specification of the test object 20 having different specifications, And a plate (400). The method according to claim 1,
The housing unit (100)
A guide ring 110 inserted into an insertion hole 102 opened in a corresponding surface 100b facing the test object 20 and fitted with an inserted end portion of the distal end of the test object 20 A device for testing the performance of a test object. delete delete The method according to claim 1,
The mounting plate 400 includes:
Performance test apparatus of the test object and characterized in that each corner position a bolt hole 410 are spaced apart at equal intervals. The method according to claim 1,
The performance testing apparatus includes:
And a tilt confirmation unit (500) provided on an upper surface of the housing unit (100) to check a tilted state of the test object (20).

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