KR101086054B1 - Test bench for flow meters - Google Patents

Abstract

The present invention relates to a meter test bench, the meter test bench for inspecting a plurality of test meters having an inlet and an outlet through which fluid is introduced and discharged,

A base; A first fixed block fixed to the base and having an inlet hole through which fluid is supplied; A second fixed block fixed to the base and having a discharge hole through which the supplied fluid is discharged; A plurality of connection blocks disposed to be spaced apart from each other between the first fixed block and the second fixed block and having a connection hole coaxially disposed with the inlet hole and the discharge hole; A hollow connecting rod rotatably coupled to the connecting hole; The test being continuously coupled between the first fixed block and the connection block adjacent to the first fixed block, between the connection blocks, and between the second fixed block and the connection block adjacent to the second fixed block. It includes a pressure lever for pressing close to the meter to one side, the test meter and the connecting rod is characterized in that the unit is rotated integrally.

Description

Test bench for flow meters

TECHNICAL FIELD The present invention relates to a meter test bench, and more particularly, to a meter test bench having an improved structure so that a plurality of test meters can be inspected while being integrally rotated.

When the fluid is introduced through the inlet and discharged through the outlet, the meter for measuring the flow rate used by integrating the flow rate should be able to accurately measure the flow rate used without error.

When measuring flow rate repeatedly using a meter, the flow rate must be within an acceptable error range to be an excellent meter.

In addition, when measuring the performance of such a meter repeatedly, it is important that the measuring equipment accurately measure the performance of the meter as well as the performance problem of the meter itself.

When evaluating the performance of the meter, the fluid is sent to the test meter to be tested to measure the error between the amount of fluid supplied and the flow rate indicated on the integrated display of the test meter.

However, in the case where air remains inside the test meter, the reproducibility is impeded during repeated measurement of the flow rate, which is an obstacle of accurate repeat measurement.

In order to solve this problem, in order to bleed the air inside the test meter, the test meter is turned over while the fluid is supplied to the test meter, and the remaining air in the test meter is drawn out with a vacuum pump to draw out the remaining air in the test meter. There is a need for a process for eliminating the need for a device that rotates the plurality of test meters integrally on a test bench measuring a plurality of test meters.

SUMMARY OF THE INVENTION The present invention has been made in consideration of the above-described matters, and in a meter test bench that simultaneously measures the performance of a plurality of test weighers, the plurality of test weighers can be easily removed to improve reproducibility by removing residual air from each test weigher. Its purpose is to provide a meter test bench with an improved construction that allows the test meter to be rotated integrally.

The meter test bench according to the present invention for achieving the above object, in the meter test bench for inspecting a plurality of test meters having an inlet and an outlet through which the fluid is introduced and discharged, the base, fixed to the base and the fluid supply A first fixed block having an inflow hole formed therein, a second fixed block fixed to the base and having a discharge hole through which the supplied fluid is discharged, and spaced apart from each other between the first fixed block and the second fixed block; A plurality of connection blocks having a ball and a connection hole coaxially disposed with the discharge hole, a hollow connection rod rotatably coupled to the connection hole, and the first fixed block and the connection block adjacent to the first fixed block. And between the connection blocks and between the second fixed block and the connection block adjacent to the second fixed block. Which includes a pressure contact and pressing the grabber to the test instrument to one side, characterized in that with the test instrument that the connecting rod is integrally rotated.

In addition, a first bush connecting the inlet of the first fixed block and the inlet of the test meter, a second bush connecting the outlet of the second fixed block and the outlet of the test meter, and the first and second bushes. It is preferable to include a first and a second bearing coupled to the outer peripheral surface of the.

In addition, each of the both ends of the connecting rod is formed with a fastening groove for inserting and fastening the inlet and outlet of the test meter, the first bush is formed with a first coupling groove for inserting and fastening the inlet of the test meter, the second The bush is formed with a second coupling groove into which the outlet of the test meter is fastened, and a packing member for preventing leakage is inserted into the coupling groove and the first and second coupling grooves.

In addition, the outer circumferential surface of the first and second bush is preferably coupled to the O-ring to prevent leakage.

In addition, the connection block is spaced at a predetermined interval, it is preferable to be fixed to the base.

The meter test bench according to the present invention, since the plurality of test meters continuously arranged through the connecting rod can be rotated integrally with the connecting rod so that the air remaining in the test meter can be easily removed.

The meter test bench according to the present invention is used to inspect a plurality of test meters, such as water meters.

Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view of a meter inspection table according to an embodiment of the present invention, Figure 2 is a cross-sectional view taken along II-II of FIG. 3A and 3B are sectional views before and after the operation of the pressure lever in FIG.

Referring to FIG. 1, the meter test bench according to the present embodiment inspects a plurality of test meters including an inlet 11 and an outlet 12 through which fluid is introduced and discharged, and includes a base 10 and a first and second apparatus. It includes a fixed block (20, 30), a connecting block 40, a connecting rod (50), the pressure lever (60).

The base 10 is equipped with a plurality of test meters.

The first fixed block 20 is fixed to the base 10, the inlet hole 21 is supplied to the fluid is formed, the second fixed block 30 is fixed to the base 10, A discharge hole 31 through which the supplied fluid is discharged is formed.

A plurality of connection blocks 40 are spaced apart from each other between the first fixed block 20 and the second fixed block 30, and coaxially with the inlet 21 and the outlet 31. The connection hole 41 is formed.

In the present embodiment, the connection block 40 is spaced apart at regular intervals between the first fixed block 20 and the second fixed block 30, it is fixed to the base 10.

The connecting rod 50 is made of a hollow type so that the inlet 11 of the test meter is inserted and fastened to one side, and the outlet 12 of the test meter is inserted and fastened to the other side, and the connecting rod 50 is combined with the test meter. It is integrally rotatably coupled to the connecting hole 41.

Fastening grooves 51 into which the inlet 11 and the outlet 12 of the test meter are inserted are formed at each end of each of the connecting rods 50.

The pressure lever 60 is between the first fixed block 20 and the connection block 40 adjacent to the first fixed block, between the connection blocks 40, and the second fixed block 30. And the test meter (1) continuously coupled between the connection block 40 adjacent to the second fixed block to one side.

In the present embodiment, the pressure lever 60 is configured to include a handle portion 61 and the pressing portion 62.

The handle portion 61 is rotatably coupled to the second fixed block 30 about the hinge shaft 61a, and the pressing portion 62 is rotatably coupled to the handle portion 61. And, the other end is rotatably coupled to the sliding member 130 to be described later.

The meter test bench according to the present embodiment further includes a first bush 70, a second bush 80, first and second bearings 90 and 100, and a sliding member 130.

The first bush 70 connects the inlet 21 of the first fixed block 20 with the inlet 11 of the test meter. The first bush 70 is rotatably inserted into the first engaging portion 72 having an outer diameter larger than the inner diameter of the inlet hole 21 so as not to be inserted into the inlet hole 21 and the inlet hole 21. The first insertion portion 73 is formed, and the first engaging portion 72 is formed with a first coupling groove 71 into which the inlet 11 of the test meter is inserted and fastened.

The sliding member 130 is a hollow member that slides outwardly from the outlet outlet 12 when the pressure lever 60 rotates downward, and is a hollow member that press-contacts the test meter to one side. Sliding part 131 is inserted, and the projection jaw 132 having an outer diameter larger than the inner diameter of the outlet 12 so as not to be inserted into the outlet 12 is pressed by the pressing portion 62 of the pressing member.

The second bush 80 connects the discharge hole 31 of the second fixed block 30 and the discharge port 12 of the test meter. The second bush 80 includes a second locking portion 82 not inserted into the sliding member 130 and a second insertion portion 83 rotatably inserted into the sliding member 130. The second locking portion 82 is formed with a second coupling groove 81 into which the outlet 12 of the test meter is inserted and fastened.

The first and second bearings 90 and 100 are provided to easily rotate a plurality of test meters mounted on the base 10 integrally 180 degrees, and are coupled to outer peripheral surfaces of the first and second bushes 70 and 80. In this embodiment, a thrust ball bearing is used.

Specifically, the first bearing 90 is coupled to the outer circumferential surface of the first bush 70 between the outer surface of the first fixing member and the first locking portion 72 of the first bush 70.

The second bearing 100 is coupled to the outer circumferential surface of the second bush 80 between the protruding jaw 132 of the slide lamp member and the second locking portion 82 of the second bush 80.

Meanwhile, the meter test bench according to the present embodiment further includes a packing member 110 and an O-ring 120 to prevent leakage of the supplied fluid.

The packing member 110 has the fastening groove 51 and the first and second coupling grooves 71 so as to prevent leakage from the fastening groove 51 and the first and second coupling grooves 71 and 81. , 81).

The O-ring 120 is provided to prevent leakage between the outer circumferential surface of the first bush 70 and the inlet hole 21 and between the outer circumferential surface of the second bush 80 and the sliding member 130. It is coupled to the outer circumferential surface of the first and second bushes 70 and 80.

In addition, the O-ring 120 is coupled to the outer circumferential surface of the sliding member 131 of the sliding member 130 to prevent leakage from the outer circumferential surface and the discharge hole 31.

Hereinafter, the operation of the meter inspection table according to the present embodiment by the above configuration will be described in detail.

First, the connecting block 40 is inserted into the connecting rod 50, and coupled to the inlet 11 and the outlet 12 of the test meter on both sides of the connecting rod 50, respectively.

The test meter is continuously connected between the first fixed block 20 and the connection block 40, between the connection block 40 and the connection block 40, and between the second fixed block 30 and the connection block 40. Connect.

Thereafter, when the pressure lever 60 is lowered in the state of FIG. 3A, the pressure part 62 of the pressure lever 60 presses the protruding jaw 132 of the sliding member 130 to test the sliding member 130. While sliding to the meter side, the test meter continuously arranged as shown in Figure 3b is pressed to one side close.

Subsequently, when the fluid is supplied through the inlet hole 21, the fluid flows sequentially from the test meter adjacent to the first fixed block 20 to the test meter adjacent to the second fixed block 30, and the test meter accumulates the flow rate. do.

At this time, in order to remove the air remaining in the test meter, a process of rotating the test meter unit will be described with reference to FIGS. 4 and 5.

As shown in FIG. 4, the fluid supplied through the inlet hole 21 is connected to the second fixed block 30 in the home position where the test meter is installed (connected so that the integration indicator (not shown) of the test meter faces upward). When discharged through the test meter adjacent to the), the inlet hole 21 and the discharge hole 31 are temporarily closed, and the test meter and the connecting rod 50 are gripped to rotate 180 degrees.

At this time, the test meter is pressed to one side by the pressure lever 60 to maintain a state in which the test meter is firmly inserted into the fastening groove 51 of the connecting rod 50, and the connecting rod 50 is connected to the connecting block 40. It is rotatably coupled to the connection hole 41 of the first and second bushes (70, 80) because the bearing is coupled, the test meter, the connecting block 40 and the first and second bushes (70, 80) are integral Is rotated 180 degrees.

Then, as shown in FIG. 5, the remaining air of the test meter is discharged to the outside by using a pump in a state where the test meter is inverted (a state in which the integration display part (not shown) of the test meter is disposed downward).

Subsequently, as shown in FIG. 4, the integrated display part of the test meter is disposed upward, and the inflow hole 21 and the discharge hole 31 are opened to allow fluid to flow.

In this way, the air remaining in the test meter is removed from the test meter by removing the test meter so as to more accurately measure the flow measurement performance of the test meter.

As such, the meter test bench according to the present embodiment, which simultaneously checks the flow measurement performance of the plurality of test meters, provides an effect of easily rotating the plurality of test meters by 180 degrees, thereby more accurately measuring the flow measurement performance of the test meter. To be able.

In the above, the present invention has been described in detail with reference to preferred embodiments, but the present invention is not limited to the above embodiments, and many other modifications can be provided without departing from the scope of the present invention.

1 is a perspective view of a meter inspection table according to an embodiment of the present invention,

2 is a cross-sectional view taken along the line II-II of FIG.

3a and 3b is a cross-sectional view before and after the operation of the pressure lever employed in the embodiment of the present invention,

4 and 5 is an operating state diagram of the meter test bench according to an embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

1 ... test meter 10 ... base

20 ... 1st fixed block 30 ... 2nd fixed block

40 ... connecting block 50 ... connecting rod

60 ... Pressurization lever 70 ... First bush

80 ... second bush 90 ... first bearing

100 ... second bearing 110 ... packing member

120 ... O-ring

Claims (5)

A meter test bench for inspecting a plurality of test meters having an inlet and an outlet through which fluid is introduced and discharged, Base 10; A first fixed block 20 fixed to the base 10 and having an inlet hole 21 through which fluid is supplied; A second fixed block 30 fixed to the base 10 and having a discharge hole 31 through which the supplied fluid is discharged; Spaced apart from each other between the first fixed block 20 and the second fixed block 30, the connection hole 41 is disposed coaxially with the inlet hole 21 and the discharge hole 31 is formed A plurality of connection blocks 40; A hollow connecting rod 50 rotatably coupled to the connecting hole 41; And The connection between the first fixed block 20 and the connection block adjacent to the first fixed block, between the connection blocks 40 and the second fixed block 30 and the second fixed block. It includes a pressure lever 60 for pressing the test meter (1) continuously coupled between the blocks by pressing to one side, The test meter (1) and the connecting rod 50 is rotated integrally, The connecting block 40 is spaced at a predetermined interval, the meter inspection table, characterized in that fixed to the base (10). The method of claim 1, A first bush (70) connecting the inlet (21) of the first fixed block and the inlet (11) of the test meter; A second bush (80) connecting the discharge hole (31) of the second fixed block and the discharge hole (12) of the test meter; And Meter test stand, characterized in that it comprises a first, second bearings (90, 100) coupled to the outer circumferential surface of the first, second bush (70, 80). 3. The method of claim 2, Fastening grooves 51 into which the inlet 11 and the outlet 12 of the test meter are inserted are formed at each end of each of the connecting rods 50, The first bush 70 is formed with a first coupling groove 71 into which the inlet 11 of the test meter is inserted and fastened, and the outlet 12 of the test meter is inserted into the second bush 80. The second coupling groove 81 is formed, The fastening groove (51) and the first and second coupling grooves (71, 81) meter measuring table, characterized in that the packing member 110 to prevent leakage is inserted. 3. The method of claim 2, The outer circumferential surface of the first and second bushes (70, 80), the meter ring, characterized in that the O-ring 120 is coupled to prevent leakage. delete

Images