KR101033132B1 - Composite type liquid level measuring apparatus - Google Patents

Abstract

PURPOSE: A cluster-type fluid level testing device is provided to reduce an installation space by reducing the quantity of elements through miniaturization and integration. CONSTITUTION: A cluster-type fluid level testing device comprises an air conditioning device part(100), an indicator, and a transmitting part and a gauge saver part. The air conditioning device part receives the compressed air from the fuel supply device and produces the air of stable gas pressure to a tank. The indicator indicates the back pressure of fluid of tank. The transmitting part comprises one or more inner ducts. The transmitting part transmits the back pressure of the fluid to the indicator. The gauge saver part is located on the top of an air conditioning device part and blocks the inner duct toward the indicator in abnormal pressure.

Description

Combined fluid level measuring device {COMPPOSTITVTVLDLIDELGEELMBAENPAPARTAS}

The present invention relates to a complex fluid level measuring device, and more particularly, to a complex fluid level measuring device which can be easily installed in a narrower space in a compact integrated type for measuring the level of various fluid tanks, An air conditioning unit that receives compressed air from the air and generates stable gas pressure air into the tank; An indicator indicating a back pressure relative to the head pressure of the fluid in the tank; A transmission unit including one or more inner pipes and transmitting a back pressure to the indicator of the head pressure of the fluid; And a gauge saver unit provided on an upper portion of the air conditioner unit to block an internal passage to the indicator when an abnormal pressure is generated.

Generally, a flow level meter is used to measure the level of fluid stored in a tank, which is shown in FIG. 1 by an air purge type level gauging system including such a pneumatic modulator 10. Looking at the operation of the pneumatic modulator 10, the air is supplied from the air supply device 30 through the air inlet 12, at this time, only the air corresponding to the water level of the tank 40 of the injected air pipe 16 Will remain in the back) to act as back pressure. That is, in the pipe 16, head pressure is generated at the bottom of the pipe connected to the fluid, and the pressure above the head pressure is discharged into the air bubbles at the end of the pipe 16. The back pressure in the pipe 16 is displayed on the electronic indicator 60 via the gauge saver 20 as a level on the hydraulic indicator 50 or via a P / I converter 70 that converts the back pressure into an electrical signal. It can also be signaled to the control unit. In addition, a gauge saver is installed to prevent damage to various sensors and instruments caused by abnormal pressure in the fluid tank.

However, the level gauging system as described above should be provided with a separate device such as a pneumatic modulator, a gauge saver unit, and a signal output device, so that the entire device becomes large in capacity and the equipment becomes complicated in connecting these configurations. There is a problem.

In addition, the production cost increases due to the increase in the number of parts, and the work is cumbersome due to the multi-step manufacturing and installation process, and there are many inconveniences in other operations.

Patent Application No. 10-2005-0000920 Patent Application No. 10-2007-0055778

Accordingly, the present invention has been made to solve the problems of the prior art as described above, and provides a complex device including a fluid level measurement function, gauge saver, indicator function integrated into a compact device, the number of parts through integration It is to provide a complex fluid level measurement device that can significantly reduce the size and the installation space due to the miniaturization.

In addition, the structure is simple to reduce costs, to facilitate the manufacturing process, and to provide a complex fluid level measurement device that can improve the durability by solving problems such as damage to the device due to abnormal pressure generation. I would like to.

In order to achieve the above object, the hybrid fluid level measuring device according to an embodiment of the present invention is a complex fluid level measuring device for measuring the level of a fluid in a tank, and is supplied with compressed air from an air supply device to stabilize gas. An air conditioner unit for generating pressure air to the tank; An indicator indicating a back pressure relative to the head pressure of the fluid in the tank; A transmission unit including one or more inner pipes and transmitting a back pressure to the indicator of the head pressure of the fluid; And a gauge saver portion provided on an upper portion of the air conditioner portion to block an internal passage to the indicator when an abnormal pressure occurs, wherein the air conditioner portion stores a first chamber for storing the compressed air introduced therein; A second chamber for storing air having a back pressure against the head pressure, a relief valve provided between the first chamber and the second chamber, the relief valve being opened and closed by a pressure difference between the first chamber and the second chamber, A third chamber connected to the second chamber and the first inner conduit, the third chamber being connected to the flow control valve and storing the air of the flow rate controlled by the flow control valve, wherein the third chamber has a second inner portion. It is characterized in that it is connected to the tank through a pipeline.

delete

In addition, the gauge saver portion constituting the hybrid fluid level measuring device comprises a gauge saber bottom plate, a gauge saber diaphragm, a gauge saber top plate, and a gauge saber spool with a disc plate formed on the bottom thereof, wherein the disc plate is the disc plate. Located inside the third chamber, it is another feature that the flow up and down by the pressure change in the third chamber.

Here, the third chamber of the air conditioner unit is connected to the indicator through a third inner conduit, and a groove having a predetermined depth is formed on one side of the third inner conduit on the upper surface of the third chamber, and the gauge saver in the groove. The nipple is coupled to one end of the third inner pipe, it may be another feature that the gauge saber nipple is opened and closed by the vertical flow of the gauge saber spool.

In addition, the hybrid fluid level measuring device further includes a blow valve in communication with the first chamber and the second internal conduit of the air conditioner unit, and injects air through the blow valve to remove foreign matter in the fluid level measuring device. It can be another feature that can be removed.

On the other hand, when injecting air through the blow valve, it may be another feature that the gauge saber spool closes the gauge saber nipple.

In addition, the hybrid fluid level measuring device further comprises a pressure sensor connected to the third internal conduit for sensing the air pressure in the third chamber, the pressure sensor is further coupled to the inside using a silicon tube packing It is another feature.

The complex fluid level measurement device may further include a signal output device connected to the gauge saver unit and measuring the head pressure of the fluid and converting the head pressure into an electrical signal or an electronic signal.

As seen above, the hybrid fluid level measuring apparatus according to the present invention is applied to the compressed air from the air supply unit air conditioning unit for generating a stable gas pressure air to the tank; An indicator indicating a back pressure relative to the head pressure of the fluid in the tank; A transmission unit including one or more inner pipes and transmitting a back pressure to the indicator of the head pressure of the fluid; And a gauge saver unit provided above the air conditioner unit to block an internal passage to the indicator when an abnormal pressure occurs, thereby providing a complex function such as an indicator, a signal output function, and a flow level measurement function as a compact device. Can be integratedly provided.

In addition, by integrating complex functions, the number of required parts can be significantly reduced, and the installation space can be reduced due to the miniaturization. In addition, the material cost can be reduced due to the reduction of the number of parts, the miniaturization of the installation cabinet, and the production labor cost due to the simplified product. In addition, it is possible to pursue the miniaturization and weight reduction of the entire system in the case of mounting several to several tens of flow level measuring devices.

1 is an air purge type level gauging system diagram.
2 is a cross-sectional view of a hybrid fluid level measuring device according to an embodiment of the present invention.
3 is an exploded perspective view of the hybrid fluid level measurement device according to an embodiment of the present invention.
Figure 4 is a rear perspective view of the second body constituting the hybrid flow rate measuring apparatus according to the present invention.
5A and 5B are front and side views of a fluid level measuring device according to an embodiment of the present invention.

Hereinafter, the present invention will be described with reference to the drawings. In the following description of the present invention, a detailed description of related arts or configurations will be omitted when it is determined that the gist of the present invention may be unnecessarily obscured will be.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to be exemplary, self-explanatory, allowing for equivalent explanations of the present invention.

2 is a cross-sectional view of a hybrid fluid level measurement device according to an embodiment of the present invention, Figure 3 is an exploded perspective view of the hybrid fluid level measurement device according to an embodiment of the present invention, Figure 4 is a present invention 5 is a front view of a fluid level measuring apparatus according to an embodiment of the present invention, and FIG. 5B is a side view.

As shown in FIG. 2, the hybrid fluid level measuring apparatus according to the exemplary embodiment of the present invention includes a first body A, a second body, and a third body C. Inside the first body (A) to the third body (B) is provided with the air conditioner unit 100 and the gauge saver 200. In addition, the hybrid fluid level measuring apparatus according to the present invention comprises an indicator (not shown) and one or more internal conduits indicating the back pressure to the head pressure of the fluid in the tank in the third body (C), the fluid It consists of a transmission unit for transmitting the back pressure for the head pressure of the indicator. The delivery unit configuration includes a first inner pipe, a second inner pipe, and a third inner pipe, which will be described later.

The first body A is a body placed on the lowermost layer of the hybrid fluid level measurement device, and the first chamber 110 and the second chamber 130 are formed therein. The first chamber 110 and the second chamber 130 are sequentially formed from the bottom and partitioned by a relief valve 120 accommodated therein. Compressed air introduced from the air supply device through the air inlet 112 is stored in the first chamber 110.

Next, the second body B is a body placed in the middle of the hybrid fluid level measuring device, and a third chamber 150 is formed therein. Since the second body B is stacked on the first body A, the third chamber 150 is provided above the second chamber 130, and the second chamber 130 and the third chamber 150 are It is partitioned by the modulator diaphragm 140. The second chamber 130 and the third chamber 150 are connected by the first inner conduit 132. Air having a back pressure with respect to the head pressure of the fluid in the tank is stored in the second chamber 130, and the third chamber 150 has a flow control valve 156 separate from the second inner pipe 152 connected to the fluid tank. Is connected, and the air of the flow rate controlled by the flow control valve 156 is stored in the third chamber 150.

The third body (C) is a body placed on the top of the hybrid fluid level measurement device, the fourth chamber 160 is formed therein, and the third body (C) is stacked on the second body (B) The four chambers 160 are provided on the third chamber 150, and the third chambers 150 and the fourth chambers 160 are divided by the gauge saber diaphragm 220.

Next, the air conditioner unit 100 constituting the fluid level measuring apparatus according to the present invention is the first chamber 110, the second chamber, the third chamber 150, and the relief valve 120 accommodated in these chambers ), Including a modulator diaphragm 140 and a modulator spring 142. On the other hand, the gauge saber 200, which is another component constituting the fluid level measuring apparatus according to the present invention, the gauge saber lower plate 210, the gauge saber diaphragm 220, the gauge saber upper plate 230, and the gauge saber spool 240 )

Referring to Figure 3 will be described in detail the configuration of the hybrid fluid level measurement apparatus according to the present invention. As described above, the first body A is provided on the lowermost layer, and the first chamber 110 and the second chamber are provided inside the first body A. The first chamber 110 is provided at the bottom and the second chamber is provided at the top based on the relief valve 120. The relief valve 120 is formed by sequentially stacking the relief valve spring 120b and the relief valve block 120c on the relief valve spool 120a, and at the time of coupling, the uppermost part of the relief valve spool 120a is relief valve block. It is desirable to protrude more than 120c.

In addition, the blow valve 116 is connected to the first chamber 110 of the first body, by injecting air through the blow valve 116 to remove foreign substances in the fluid level measuring device including the conduit. Meanwhile, the blow valve 116 communicates with the second inner conduit 152 to intentionally generate an abnormal pressure in the third chamber 150 during the blowing operation to operate the gauge saver 200 to prevent the device from being damaged. Is preferred.

In addition, an additional stop valve 114 may be connected to the first chamber 110 of the first body. The stop valve 114 serves to control the inflow of compressed air through the air inlet 112.

A modulator diaphragm 140 is provided at an upper portion of the second chamber provided above the first chamber 110, and the modulator diaphragm 140 is a second chamber provided at a lower portion thereof and a third chamber provided at an upper portion thereof. It is preferable that it is an elastic material, such as rubber | gum, which can flow by air pressure by dividing 150. As shown in FIG.

The modulator spring 142 is provided on the modulator diaphragm 140, and the fixing groove 144 is preferably formed on the upper surface of the modulator diaphragm 140 so that the modulator spring 142 may be fixed. . The modulator spring 142 is supported by the upper gauge saber spool 240 and the lower modulator diaphragm 140, wherein the modulator diaphragm 140, the modulator spring 142, and the gauge saber spool 240 ) Is accommodated in the third chamber 150 of the second body (B).

Next, the gauge saver 200, which is another component of the present invention, has a gauge saver spool 240 provided at a lower inner side and a gauge saver lower plate 210 provided at an upper side of the second body, and a gauge saver. It comprises a diaphragm 220, gauge saber top plate 230, gauge saber nut 250, and gauge saber spring 270.

The gauge saber lower plate 210, the gauge saber diaphragm 220, and the gauge saber upper plate 230 are sequentially stacked from the lower side to the upper side, and they are coupled by separate fastening means. In the present embodiment, the gauge saber spool 240 and the nut 250 are used as fastening means, but the present invention is not limited thereto, and other well-known fastening means may be used.

The gauge saber spool 240 accommodated in the third chamber 150 of the second body has a disc-shaped plate 244 formed at the lower portion of the rod-shaped member 242, and a nut 250 at the upper portion of the rod-shaped member 242. Screw groove 246 is formed and the disc-shaped plate 244 is arranged to contact the upper end of the modulator spring 142 in the third chamber 150, the third chamber 150 It can flow up and down by pressure and spring flow in). In addition, the disc-shaped plate 244 of the gauge saber spool 240 is made of a metal, it is preferable that the rubber plate 248 is attached to the upper surface of the disc-shaped plate 244.

Meanwhile, a third chamber 150 is formed in the second body constituting the intermediate body of the hybrid fluid level measuring apparatus according to the present invention, and the third chamber 150 is connected to the fluid tank. The second inner conduit 152 connected to the second inner conduit 152 and the indicator is connected. The second inner conduit 152 is a signal line and the regulated flow rate in the third chamber 150 is introduced into the tank through the second inner conduit 152. The gauge saber nipple 260 which is opened and closed by the gauge saber spool 240 is provided on the upper surface of the third chamber 150 of the second body, which will be described later.

The third body C placed on the top serves as a cover, and a fourth chamber 160 in which the gauge saver 200 is accommodated is formed. In the fourth chamber 160, as described above, the gauge saber lower plate 210, the gauge saber diaphragm 220, the gauge saber upper plate 230, the gauge saber spring 270, and the O-ring are sequentially stacked to measure the gauge saber 200. ).

Next, FIG. 4 shows a rear view of the above-described second body. The third chamber 150 formed inside the second body is connected to the indicator through the third internal conduit 154, one end of the third internal conduit 154 connected to the third chamber 150 is a third It may be formed on the upper surface 151 of the chamber 150. Meanwhile, one end of the third inner conduit 154 formed on the upper surface 151 of the third chamber 150 is coupled to the gauge saber nipple 260, and the third inner conduit 154 to which the gauge saber nipple 260 is coupled. In the groove 153 having a predetermined depth is formed, it is preferable that the gauge saber nipple 260 is provided in the groove 153. The through hole 155 is formed in the center of the upper surface 151 of the third chamber 150, and the gauge saber spool 240 is inserted through the through hole 155, and the gauge saber spool 240 descends. When the gauge saber nipple 260 is opened, and when the gauge saber spool 240 is raised, the disc-shaped plate 244 closes the gauge saber nipple 260. Accordingly, the gauge saver nipple 260 is arranged to be opened and closed by a gauge saber spool 240 that moves up and down, and the groove 153 in which the gauge saver nipple 260 is accommodated has a disc shape of the gauge saver spool 240. It is preferable to comprise so that it may fully be covered by the plate 244.

Next, FIG. 5A is a front view of the hybrid fluid level measuring device according to one embodiment of the present invention. As described above, the first body, the second body, and the third body are sequentially stacked to form a complex fluid level measuring apparatus according to the present invention. The first body includes a stop valve 114 and a blow valve 116. do. In addition, the second body is provided with a signal terminal connected to the third chamber 150 through the second internal pipe 152 and an indicator terminal connected to the third chamber 150 through the third internal pipe 154. There is also provided a flow control valve 156 that can adjust the flow rate. A signal output device 180 including a PCB substrate may be formed in the third body, and an input / output terminal 183 connected thereto may also be formed. The signal output device 180 measures the head pressure of the fluid in the tank and serves to convert it into an electrical signal.

On the other hand, as shown in Figure 5b, the hybrid fluid level measurement apparatus according to the present invention may further include a pressure sensor 170, the pressure sensor 170 is connected to the third internal pipe 154 is made The air pressure in the three chambers 150 is sensed and transmitted to the signal output device 180. At this time, the pressure sensor 170 is preferably wrapped in a silicon material.

Next, the fluid level measurement and gauge saving operation according to the present invention will be described. The air conditioner unit 100 receives the compressed air from the air supply device to generate a stabilized air pressure to measure the level of the fluid in the tank. That is, compressed air is introduced into the air inlet 112 of the air conditioner unit 100, and the controlled air is discharged from the outlet side to the tank containing the fluid. In detail, an air inlet 112 is connected to the first chamber 110 positioned below the air control unit 100, and compressed air is supplied from a separate air supply device through the air inlet 112. The supply of air may be controlled using the stop valve 114 connected to the one chamber 110.

Meanwhile, as described above, a relief valve 120 is provided between the first chamber 110 and the second chamber to partition these spaces, and the first chamber 110 is compressed air supplied from an air supply device (this embodiment). 4.5kg / cm ² ) is stored in the second chamber, and air having a back pressure with respect to the head pressure of the fluid is stored in the second chamber. ) Is opened and closed. That is, the air is first moved by the pressure difference from the first chamber 110 to the second chamber through the relief valve 120 that is opened, and then the modulator diaphragm 140 is compressed according to the air pressure in the second chamber. The valve 120 is closed to stop the movement of air from the first chamber 110 to the second chamber and achieve an equilibrium state.

On the other hand, the third chamber 150 of the air conditioner 100 is in communication with the second chamber through the first inner conduit 132, is connected to the fuel tank through the second inner conduit 152, the third It is connected to the indicator through the inner conduit 154. The third chamber 150 is connected to the flow rate control valve can be used to adjust the flow rate. That is, the air collected in the third chamber 150 is adjusted to a predetermined amount through the flow control valve to be introduced into the fuel tank through the second inner conduit 152 and also to the indicator through the third inner conduit 154. .

Since the specific operation of measuring the flow rate of the air conditioner unit is specifically disclosed in Korean Utility Model Registration No. 239839, the description thereof will be omitted.

On the other hand, the gauge saver 200 constituting the fluid level measuring apparatus according to the present invention usually transmits the back pressure formed by the head pressure of the fluid in the tank to the indicator and the pressure sensor. If an abnormal pressure occurs in the tank, the abnormal pressure is sensed in the third chamber 150 through the second inner pipe 152 and the gauge is caused by the pressure difference between the third chamber 150 and the fourth chamber 160. The saber spool 240 rises to close the gauge saber nipple 260. Accordingly, the third internal pipe 154 connected to the gauge saver nipple 260 may be blocked to protect the indicator and the pressure sensor.

Due to the above configuration, when abnormal pressure air flows into the third chamber 150 through the second inner conduit 152 due to the occurrence of abnormal pressure in the fluid tank, the conduit connected to the indicator and the pressure sensor is immediately blocked. To protect devices such as indicators that are vulnerable to damage.

In addition, since the abnormal pressure is sensed in the third chamber 150 through the second inner pipe 152 during the blowing operation, the gauge saver 200 may operate to protect the indicator and the pressure sensor.

Embodiments shown for the purpose of the present invention described above are only one embodiment in which the present invention is embodied, and as shown in the drawings, it can be seen that various forms of combinations are possible to realize the gist of the present invention.

Therefore, the present invention is not limited to the above-described embodiments, and various changes can be made by any person having ordinary skill in the art without departing from the gist of the present invention as claimed in the following claims. It will be said that the technical spirit of this invention is to the extent possible.

100: air conditioning unit 110: the first chamber
112: air inlet 114: stop valve
116: blow valve 120: relief valve
130: second chamber 132: first internal pipeline
140: modulator diaphragm 142: modulator spring
144: fixed groove 150: third chamber
152: Second internal pipe 153: Home
154: third internal pipe 156: flow control valve
160: fourth chamber 170: pressure sensor
180: signal output device 183: I / O terminal
200: gauge saber 210: gauge saber bottom
220: gauge saber diaphragm 230: gauge saber top
240: gauge saber spool 242: rod member
244: disc plate 246: screw groove
248: rubber plate 250: nut
260: gauge saber nipple 270: gauge saber spring

Claims (8)

delete A complex fluid level measurement device for measuring the level of fluid in a tank,
An air conditioner unit receiving compressed air from an air supply device to generate air having a stable gas pressure to the tank;
An indicator indicating a back pressure relative to the head pressure of the fluid in the tank;
A transmission unit including one or more inner pipes and transmitting a back pressure to the indicator of the head pressure of the fluid; And
It is provided on the upper part of the air conditioner, and comprises a gauge saver part for blocking the internal passage to the indicator when abnormal pressure is generated,
The air control unit is provided between the first chamber for storing the compressed air introduced, the second chamber for storing the air having a back pressure with respect to the head pressure of the fluid, and is provided between the first chamber and the second chamber A relief valve opened and closed by a pressure difference between the first chamber and the second chamber, and the second chamber and the first internal pipe are connected to each other, and are connected to a flow control valve to control the air of the flow rate controlled by the flow control valve. It comprises a third chamber for storing the fluid level measuring device, characterized in that the third chamber is connected to the tank through a second inner conduit.
The method of claim 2,
The gauge saver portion includes a gauge saber bottom plate, a gauge saber diaphragm, a gauge saber top plate, and a gauge saber spool having a disc-shaped plate formed at the bottom thereof, wherein the disc-shaped plate is located inside the third chamber. A fluid level measuring device, characterized in that it flows up and down by the pressure change in the three chambers.
The method of claim 3, wherein
The third chamber is connected to the indicator through a third inner conduit, and a groove having a predetermined depth is formed on one side of the third inner conduit on an upper surface of the third chamber, and a gauge saver nipple is formed in the groove. Is coupled to one end of the inner passage, the fluid level measuring device characterized in that the gauge saber nipple is opened and closed by the up and down flow of the gauge saber spool.
The method of claim 4, wherein
The fluid level measuring device may further include a blow valve in communication with the first chamber and the second inner conduit, and may remove foreign substances in the fluid level measuring device by injecting air through the blow valve. Fluid level measuring device.
The method of claim 5, wherein
And the gauge saver spool closes the gauge saver nipple when injecting air through the blow valve.
The method according to any one of claims 4 to 6,
The fluid level measuring device further includes a pressure sensor connected to the third internal conduit to sense air pressure in the third chamber, wherein the pressure sensor is coupled to the inside using a silicon tube packing. Measuring device.
The method according to any one of claims 2 to 6,
The fluid level measuring device further includes a signal output device connected to the gauge saver unit and measuring the head pressure of the fluid and converting the fluid level into an electrical signal or an electronic signal.

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