KR100793529B1 - Apparatus for transferring of scale - Google Patents

Abstract

It is an object of the present invention to provide a seal gum wear level measuring device of a gas holder which can measure the wear level of a sealing device without interrupting the operation and without having to enter the tank.

Therefore, the present invention is connected to the rear end of the seal inspection of the piston edge of the meter reading rod, the cylinder is installed so that the metering rod slides in the inside, the housing is fixed to the cylinder installed inside, the bogie is connected to one side of the metering rod to move the inside of the housing The guide rod is formed to one side so that the hole formed in the bogie slides and slides, and a stop wave is fixed to the inside of the housing, a spring is installed between the bogie and the stop wave so as to be located on the outer circumferential surface of the guide rod, and is connected to the bogie to extend to the outside of the housing. According to the present invention, there is provided an apparatus for measuring seal gum wear of a gas holder including a gauge installed to detect a wear amount of a seal gum according to a marking needle formed on a wire and a weight installed at a tip of the wire to impart a constant tension to the wire.

Reading rod, seal gum, weight, gas holder

Description

Apparatus for measuring seal gum wear of gas holder facilities {APPARATUS FOR TRANSFERRING OF SCALE}

1 is a view schematically showing a general gas holder facility.

2 is a view schematically showing a seal gum wear degree measuring apparatus of the gas holder facility according to the present invention.

Figure 3 is a view schematically showing a gas holder facility equipped with a seal gum wear measurement device according to the present invention.

Figure 4 is a part assembly of the seal gum wear degree measuring apparatus of the gas holder facility according to the present invention.

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

30: meter rod 40: cylinder

50: housing 60: stop wave

70: balance 80: spring

82: wire 84: weight

88 instrument panel 92 rack

94: pinion 96: gear

98: detection sensor

The present invention relates to a gas holder facility for adjusting the pressure of the pipe, and more particularly to a seal gum wear level measuring device of the gas holder facility for measuring the wear of the seal gum in the sealing device of the gas holder facility.

In general, the gas holder equipment is installed in the pipe connecting the gas service equipment from the gas generating equipment to adjust the pressure inside the pipe. The cylinder pipe is installed to communicate with the pipe, and the piston is installed inside the cylinder pipe. Since the piston pressurizes the gas in the lower part of the piston by the weight of the piston, the pressure inside the pipe is kept constant.

As shown in FIG. 1, the gas holder facility has a cylindrical tank 10, a gas inlet 14 installed at one side of the tank 10 to communicate with a pipe 12, and a tank ( Sealing device for sealing between the piston 16 and the tank 10 is provided between the piston 16 and the outer peripheral surface of the piston 16 and the inner wall of the tank 10 installed to enable the lifting and lowering in the interior of the 10) 18 and a recovery device 20 for transferring the oil dropped on the lower end of the tank 10 to the upper portion for reuse.

Here, the sealing device 18 is installed on the outer circumferential surface of the piston 16 and the seal gum 22 in close contact with the outer wall of the tank 10 and the rotation lever 24 installed to be connected to the seal gum 22 on the upper portion of the piston 16. And a weight 26 provided at the tip of the rotation lever 24 to bring the seal gum 22 into close contact with the inner wall of the tank 10.

In the sealing device, since the pivot lever 24 presses the seal gum 22 to the inner wall of the tank 10 by the weight 26 installed at the tip of the pivot lever 24, the inner wall of the tank 10 and the piston 16 Is sealed between the outer circumferential surfaces.

In addition, the seal gum 22 not only seals between the inner wall of the tank 10 and the outer circumferential surface of the piston 16, but also acts to scrape off foreign substances such as sludge on the inner wall of the tank 10.

As the seal gum used here is made of hard rubber, the contact surface with the tank inner wall is worn out.

Therefore, in order to measure the wear amount of the seal gum, all the gas inside the tank was discharged and the operator entered through the manhole to measure the wear amount of the seal gum.

As described above, since the operation must be performed after the exhaust gas is discharged from the tank, it is inevitable to interrupt the operation, which leads to a problem that productivity is lowered.

In addition, since the worker enters the tank, there may be a problem of safety accidents such as gas poisoning due to residual gas, falling accidents due to height work.

Therefore, the present invention has been made in order to solve the problems of the prior art, the purpose of which is the seal gum wear degree measuring device of the gas holder equipment that can measure the wear of the sealing device without interrupting the operation and the operator does not need to enter the tank To provide.

In order to achieve the object as described above, the present invention is a piston is installed in the interior of the tank in communication with the pipe, the seal gum wear degree measuring device of the gas holder facility in which the pressure in the pipe is adjusted by the weight of the piston, the piston The meter rod installed at the rear end of the seal inspection at the edge part, the cylinder installed to slide the meter rod inside, the housing fixed at the inside of the cylinder, the bore mounted at one side of the meter rod, and the bogie moving the inside of the housing, the hole formed in the bogie The guide rod is formed to one side to be inserted and slides, and a stop wave fixed to the inside of the housing, a spring installed between the bogie and the stop wave to be located on the outer circumferential surface of the guide rod, a wire connected to the bogie and extended to the outside of the housing, and a mark formed on the wire Instrument installed to detect the amount of wear on the seal gum according to the needle Provided is a seal gum wear measurement device of a gas holder facility including a weight installed on the end of the plate, the wire to give a constant tension to the wire.

In addition, the rack is fixed to the wire parallel to the wire, the pinion installed to fit into the rack, the cog wheels coupled to the pinion's central axis to rotate in accordance with the rotation of the pinion, the detection sensor that detects the rotation of the pinion in accordance with the rotation of the gear It is preferable to include a wear amount transfer means made.

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

1 is a view schematically showing a general gas holder equipment, Figure 2 is a view schematically showing a seal gum wear degree measuring apparatus of the gas holder equipment according to the present invention, Figure 3 is a seal gum wear degree measuring apparatus according to the present invention 4 is a diagram schematically illustrating a gas holder facility, and FIG. 4 is a component assembly diagram of a seal gum wear level measuring device of the gas holder device according to the present invention.

According to the above drawings, the gas holder facility has a cylindrical tank 10, a gas inlet 14 installed at one side under the tank 10 to communicate with a pipe 12, and an interior of the tank 10. And a sealing device 18 installed between the piston 16 and the outer peripheral surface of the piston 16 and the inner wall of the tank 10 to seal the piston 16 and the tank 10. , A recovery device 20 for transferring the oil dropped to the bottom of the tank 10 to the upper side for reuse.

Here, the sealing device 18 is installed on the outer circumferential surface of the piston 16 and the seal gum 22 in close contact with the outer wall of the tank 10 and the rotation lever 24 installed to be connected to the seal gum 22 on the upper portion of the piston 16. And a weight 26 provided at the tip of the rotation lever 24 to bring the seal gum 22 into close contact with the inner wall of the tank 10.

The seal gum wear level measuring apparatus of the gas holder facility according to the characteristics of the present invention includes a probe rod 30 connected to the rear end of the seal gum 22 at the edge of the piston 16.

First, the metering rod 30 is formed in a spherical one end portion, the tip portion is pivotally coupled to the pivot housing 22a formed at the rear end of the seal gum 22 to be freely rotated.

In addition, the other front end portion of the metering rod 30 is connected to the connection bar 74 of the trolley 70 for moving the inside of the housing 50 to be described later.

Therefore, the metering rod 30, the connecting bar 74 and the bogie 70 are connected and moved integrally.

Next, the cylinder 40 is fixedly installed on a cover of the housing 50 to be described later, and a cap 42 for sealing the cylinder 40 is covered at the tip of the cylinder 40.

In addition, the metering rod 30 passes through the center of the cap 42, and a portion of the cap 42 through which the metering rod 30 passes between the metering rod 30 and the cap 42 so that oil does not leak. The oil seal 44 is installed.

Next, the housing 50 has a cover 52 on which one side of the cylinder 40 is fixed and coupled by a bolt 54a. On the other side, the face plate 56 (blind flange) is connected by a bolt 54b. Is installed in combination.

Moreover, above the other side, the support pipe 58 through which the wire 82 mentioned later passes is provided, and the lug 59 in which the housing 50 is fixed is provided in the lower part.

In addition, a stop wave 60 is installed inside the housing 50, and the stop wave 60 has a guide bar 62 formed on the cylinder 40 side, and a bracket 64 on which the roller 64 is installed on the opposite side. ) Is formed.

On the other hand, the guide bar 62 is fixed to the stop wave 60, and the hole 76 formed in the center of the trolley 70 slides on the outer circumferential surface of the guide bar 62.

In addition, an opening 68 is formed at the center of the guide bar 62 to allow the wire 82 to pass therethrough.

Next, the trolley 70 is installed to move the inside of the housing 50, and the wheels are maintained to keep the trolley 70 at the upper and lower portions of the trolley 70, and the trolley 70 can move the interior of the housing 50 smoothly. 72 is installed.

In addition, a connection bar 74 for sliding the inside of the cylinder 40 is installed on the cylinder 40 side of the trolley 70, and the metering rod 30 is connected to the connection bar 74, and the stop is stopped on the opposite side. The hole 76 into which the guide bar 62 of the wave 60 is inserted is formed.

Next, the spring 80 is installed between the rear end of the trolley 70 and the stop wave 60 to be fitted to the outer circumferential surface of the guide bar 62.

Here, the diameter of the spring 80 is larger than the size of the hole 76 formed in the rear end of the bogie 70 so that when the spring 80 is compressed, the spring 80 is inserted into the hole 76 formed in the rear end of the bogie 70. It doesn't work.

Next, one end of the wire 82 is installed in the trolley 70, and the other end is connected to the weight 84 through the opening 68 of the guide bar 62 and the support tube 58.

At this time, a plurality of rollers 86 are installed in the path of the wire 82 so that the wire 82 does not bend or contact the wall.

Next, the instrument panel 88 is installed in the path of the wire 82 to be measured by the indicator needle 90 installed on the wire 82, and the scale corresponding to the amount of wear of the seal gum 22 is formed on the surface of the instrument panel 88. This is counted.

Next, the weight 84 is provided at the tip of the wire 82, and the tension due to the weight of the weight 84 is applied to the wire 82.

At this time, the weight 84 for applying tension to the wire 82 should be installed at the tip of the downward section of the wire 82.

Next, the wear amount transmitting means for detecting the sensed wear amount of the seal gum 22 even in the cab is provided with a rack 92 fixed to be parallel to the wire 82 and a pinion 94 installed to fit the rack 92. And the pinion 96 provided on the central axis 94a of the pinion 94 so as to rotate simultaneously as the pinion 94 rotates, and the pinion 94 according to the rotation angle of the gear 96. It consists of a detection sensor 98 for detecting the amount of rotation.

The rack 92 is fixedly installed in parallel with the wire 82, and moves integrally as the wire 82 moves.

The pinion 94 is installed to fit into the rack 92 and converts linear motion into rotational motion.

The cog wheel 96 is integrally installed on the central axis 94a of the pinion 94 on which the pinion 94 is installed and rotates at the same time as the pinion 94 rotates.

At this time, the number of teeth of the cogwheel 96 is preferably installed so that one compartment of the cogwheel 96 moves on a scale provided in the instrument panel 88.

The sensor 98 detects the amount of wear of the seal gum 22 according to the size of the rotation angle of the gear 96.

It is preferable that a magnetic non-contact sensor is used as the detection sensor 98, and the magnetic non-contact sensor generates one pulse in one compartment of the gear wheel 96.

Since the circuit configuration of the above-described detection sensor 98 is a technique already known to those skilled in the art, the description of the configuration will be omitted.

Referring to the operation of the seal gum wear of the gas holder according to the present invention as described above is as follows.

First, the pivot lever 24 has a weight 26 on one side of the pivot shaft 25, and a seal gum 22 is connected on the other side, so that the pivot lever 24 is rotated by the weight of the weight 26. The seal gum 22 is pressed against the inner wall of the tank 10 at the rear end by rotating about the coaxial 25.

Therefore, the seal gum 22 is pressurized, so that gas is prevented from leaking between the seal gum 22 and the inner wall of the tank 10.

In addition, since the piston 16 moves up and down in accordance with the gas pressure of the lower portion of the piston 16, the seal gum 22 provided at the edge portion of the piston 16 scrapes off the foreign matter attached to the inner wall of the tank (10).

On the other hand, the seal gum 22 in close contact with the inner wall of the tank 10 is moved up and down in a pressurized state, so that the side in close contact with the inner wall of the tank 10 is gradually worn out.

The worn seal gum 22 is continuously pressurized by the pivoting lever 24, thereby preventing the gas from leaking.

In addition, as the seal gum 22 is worn, the seal gum abrasion measuring device of the gas holder facility according to the characteristics of the present invention operates.

First, when the seal gum 22 is worn and the rear end of the seal gum 22 moves to the side wall of the tank 10, the meter rod 30 connected to the rear end of the seal gum 22 with the connection bar 74 interposed therebetween is provided. It moves to the side wall of the tank 10.

In addition, as the metering rod 30 moves, the cart 70 connected to the metering rod 30 moves.

At this time, the trolley 70 moves to the side wall of the tank 10 by the elastic force of the spring 80, and the wire 82 connected to the trolley 70 moves as the trolley 70 moves. .

As the wire 82 moves, the indicator needle 90 installed on the wire 82 moves so that the wear amount of the seal gum 22 can be measured visually.

In addition, the operation of the wear amount detection device is moved as the wire 82 moves the rack 92 fixed in the section where the wire 82 is downward.

As the rack 92 moves, the pinion 94 installed to engage with the rack 92 moves, and the cogwheel 96 coupled to the central axis 94a of the pinion 94 rotates.

As the gear 96 rotates, a pulse signal is generated by the sensor 98, the generated pulse is amplified by the amplifier, and the amplified pulse signal is converted into a current signal by the analog conversion output unit.

In addition, the pulse signal converted into a current signal is input to the analog input unit, and then converted into a digital signal in the display device is displayed as an image.

As such, when the wear amount of the seal gum 22 detected by the naked eye or the display device exceeds the reference value, the tank 10 is purged and the seal gum 22 is replaced to operate.

As described above, the seal gum wear level measuring apparatus of the gas holder device according to the present invention can measure the wear level of the seal gum without interrupting operation, thereby increasing productivity.

In addition, since the operator does not need to enter the tank directly to measure the wear of the seal gum, safety accidents such as gas poisoning due to residual gas or falling accidents caused by aerial work can be prevented.

Claims (2)

In the device for measuring the seal gum wear of the gas holder equipment in which a piston is provided inside the tank communicating with the pipe and the pressure inside the pipe is adjusted by the weight of the piston, A meter rod installed at a rear end of the seal edge of the piston edge, a cylinder installed to slide the meter rod inside, a housing fixedly installed therein, and a side connected to one side of the meter rod, A moving bogie, a stop wave formed at one side of the guide bar so that the hole formed in the bogie is inserted and sliding, and a spring installed between the bogie and the stop wave so as to be positioned on an outer circumferential surface of the guide bar; A wire connected to the trolley and extended to the outside of the housing, an instrument panel installed to detect the wear amount of the seal gum according to the indicator needle formed on the wire, and installed at the tip of the wire to impart a constant tension to the wire Gas hole characterized in that it comprises a weight to Ssilgeom wear measuring device of the equipment. The method of claim 1, A rack fixed to the wire so as to be parallel to the wire, a pinion installed to fit into the rack, a cog wheel coupled to the central axis of the pinion to rotate in accordance with the rotation of the pinion, and detecting the rotation of the pinion in accordance with the rotation of the gear. Seal gum wear degree measuring device of the gas holder facility, characterized in that it comprises a wear amount transfer means made of each other.

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