KR200361769Y1 - A measuring instrument of flux used float material - Google Patents

Abstract

The present invention is a device for measuring the flow rate in the fuel tank is attached to the fuel tank, more specifically, in the flow meter for measuring the flow rate using the buoyancy attached to the fuel tank, it is installed inside the fuel tank to the height of the oil level It is composed of a buoyant receiving a buoyant force by the buoyancy and a displacement transmission means for the displacement according to the movement of the support body and a display means for representing the rotational movement displaced by the displacement transmission means.

Flow meter using the flotation according to the present invention has the advantage that can safely and conveniently measure the amount of fuel in the high pressure fuel tank.

In addition, there is an advantage of accurately measuring the displacement of the fuel tank in the minimum and maximum amount of fuel tank by using the float, and it is possible to reduce the manufacturing cost to manufacture due to the simple configuration such as the float and the magnet. Due to the structure there is an advantage that the failure does not occur even in high temperature or high humidity area.

Description

A measuring instrument of flux used float material

The present invention relates to a device for measuring the water level in the fuel tank is attached to the fuel tank, and more particularly relates to a device for measuring the water level in the fuel tank using a flotation.

In general, the way in which the fuel is traded is to trade in a way that sees that the fuel tank is numerically displayed by the flow meter attached to the fuel tank.

The method of measuring the amount of fuel in the liquid state in the fuel tank is to connect the hose to the outside of the fuel tank so that the change in the internal fuel level can be shown directly on the external hose.However, in the case of LPG gas, the high pressure inside the fuel tank Due to the above method, the hose could not withstand high pressure and could explode because it could not be used.

Therefore, LPG gas used for home or industrial use is traded in such a way that the supply is made uniformly by the supplier who does not display the amount of gas to the outside. There is no way to confirm.

In order to overcome this problem, Utility Model Registration No. 20-0170025 proposes to measure the amount of fuel in a fuel tank, especially an LPG gas cylinder, using an electric device. However, when the height of the fuel tank is larger than its diameter, the fuel tank There was a problem that the level of the lowest point and the highest point according to the amount of fuel can not be accurately measured.

In addition, when the high temperature to high humidity using the electronic equipment by this configuration, there was a problem that the error or failure of the numerical value due to the continuous use.

The present invention is to overcome the above problems, an object of the present invention is to provide a flow meter using a buoyant that can accurately and safely measure the amount of the contents when the fuel tank is a high pressure, such as LPG gas.

In addition, the existing fuel tanks, particularly LPG gas cylinders to provide a flow meter using a flotation to measure and supply the exact amount of gas to build a trust between the gas supplier and the consumer.

1 is an exploded perspective view of the main configuration according to an embodiment of the present invention.

Figure 2 is a partial cross-sectional perspective view according to the operation of one embodiment of the present invention.

Figure 3 is an exploded perspective view of the main configuration according to another embodiment of the present invention.

4 is an operation cross-sectional view according to another embodiment of the present invention.

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

100: fuel tank 10: floating body

22: chain 32: frame

40: displacement transfer means 60: display means

61: lower magnet 63: upper magnet

65: nonmagnetic material

Flow rate measurement device using the present invention to solve the technical problem as described above is a device for measuring the flow rate in the fuel tank is attached to the fuel tank in more detail flow rate for measuring the flow rate using the buoyancy attached to the fuel tank A measuring device, comprising: a buoyant mounted inside the fuel tank and receiving buoyancy by the height of an oil level; Located at the top and bottom of the fuel tank is connected to the upper and lower pulley and the upper and lower pulley which rotates according to the change of the position of the support body and is coupled to one side of the chain and the upper pulley attached to the support body on one side of the pulley Displacement transmission means consisting of a jaw and a worm gear for displacing to another orthogonal axis by varying the rotation ratio of rotation; The upper and lower magnets have a lower magnet and an upper magnet above and below the nonmagnetic plate to display the rotational motion transmitted by the displacement transfer means, and the upper part has the same diameter according to the rotation of the lower magnet attached to the straight worm gear arm of the wheel gear. It relates to a flow meter using a float, characterized in that the magnet is rotated, the indicator is attached to the upper magnet upper portion consisting of a display means for showing the flow rate.

The method according to claim 1, characterized in that the frame in which the guideline is coupled to the fuel tank and coupled to the upper and lower pulleys so that the support body can rise or fall vertically in a predetermined section in the fuel tank. It relates to a flow meter.

In addition, the flow rate measuring device is attached to the fuel tank for measuring the flow rate using buoyancy, comprising: a buoyant is installed inside the fuel tank receiving the buoyancy by the height of the oil surface; A guide arm attached to one side of the support body and a guide arm capable of receiving and varying the support arm and attached to one side of the guide arm are displaced to another axis orthogonal to each other by varying the rotational ratio according to the position change of the support body. A displacement transmission means consisting of a bevel gear; The lower magnet and the upper magnet are placed above and below the nonmagnetic plate to display the rotational motion transmitted by the displacement transfer means, and the upper part is the same diameter according to the rotation of the lower magnet attached to the bevel gear arm in a straight line of the bevel gear. It relates to a flow meter using a float, characterized in that the magnet is rotated, the indicator is attached to the upper magnet upper portion consisting of a display means for showing the flow rate.

Hereinafter, with reference to the accompanying drawings an embodiment of the present invention in more detail as follows.

1 is an exploded perspective view of the main configuration according to an embodiment of the present invention, Figure 2 is a partial cross-sectional perspective view according to the operation of one embodiment of the present invention, Figure 3 is an exploded view of the main configuration according to another embodiment of the present invention 4 is a perspective view illustrating an operation according to another embodiment of the present invention.

One embodiment of the flow rate meter using the support according to the present invention, as shown in Figure 1, the main configuration of the present invention is largely composed of the support 10, the displacement transmission means 40 and the display means 60 have.

The buoy 10 is composed of an object having buoyancy to the liquid fuel, and the buoyancy rises or falls vertically in the fuel tank according to the amount of fuel. In addition, the support body is formed on one side for coupling with the displacement transmission means (40).

The displacement transfer means 40 is coupled to the support arm to transfer the displacement of the support to the display means 60, the upper pulley 24 and the lower pulley 25 is installed in the fuel tank, and Chain 22 connecting the upper and lower pulleys 24 and 25, a support body 21 for coupling the chain 22 and the support arm, and a pin 26 formed on one side of the upper pulley 24. A guide for guiding the support body 10 coupled to the chain 22 to cover the worm gear 27 and the upper and lower pulleys 24 and 25 which are coupled to the wheel to transmit rotation of the wheel. It consists of the frame 32 in which the line 33 was formed.

The chain 22 may be configured in various ways, but as shown in the drawing, the bit 23 is continuously connected.

The support body 10 is coupled to one side of the chain 22 to bind the support body to the support body 10 so that the chain 22 rotates according to the displacement of the support body 10, and the chain ( 22, the support body 21 is bound to bind the support arm and the support body 21.

As shown, the support body 10 may be used in two right and left, but may be used as one according to the use state.

The upper and lower pulleys 24 and 25 are fixed to the top and bottom of the fuel tank 100, respectively, and are formed to accommodate the bits 23 constituting the chain 20, respectively, by buoyancy. It rotates while receiving the bit 23 of the chain 22 according to the displacement of the support 10.

The frame 32 is coupled to cover the outer side of the upper and lower pulleys 24 and 25, and guide lines 33 for guiding the buoy 10 are formed on both sides.

The pin 26 is engaged in a straight line of the upper pulley 24 to rotate the pin gear 27.

The wheel gear 27 transmits the amount of rotation transmitted to the wheel 26 to the wheel gear 28 by varying an axis and a rotation rate.

A shaft support 29 is rotatably coupled to both sides of the wheel 26 and is formed in a hollow shape so that the wheel gear arm 28 can be inserted and rotated.

The upper portion of the shaft support 29 should be rotatable portion of the upper magnet 63 is coupled.

The display means 60 is composed of a lower magnet 61, an upper magnet 63, a nonmagnetic plate 65, a rubber ring 73, a guide system 67, a protective plate 69, a cover plate 71 have.

The lower magnet 61 rotates at the same displacement as the wheel gear 28 rotates, and the upper magnet 63 also rotates at the same displacement as the lower magnet 61 rotates.

The lower magnet 61 is installed upright in the form of a half moon, as shown in Figure 1, the non-magnetic plate 65 should be composed of a non-magnetic material, it is preferable to use an aluminum plate.

The nonmagnetic plate 65 partitions the upper magnet and the lower magnet and prevents the fuel in the fuel tank 100 from leaking. The non-magnetic plate 65 represents a displacement in which the guide system 67 attached to the upper magnet is rotated by engraving the scale in an annular shape. .

The protective plate 69 is preferably made of glass so that the scales of the guide system 67 and the nonmagnetic plate 65 can be read and foreign substances can not enter.

The cover plate 71 covers the protective plate 69 and is coupled to the nonmagnetic plate 65 to couple the protective plate 69 to the nonmagnetic plate 65.

The rubber ring 73 is placed under the nonmagnetic material to bind the nonmagnetic plate 65 and the fuel tank 100 so that the contents of the high pressure in the fuel tank 100 do not leak.

The binding method may be in various forms, but the male thread portion is provided on the upper side of the fuel tank 100 so that the non-magnetic plate 65 may be coupled to the lower portion of the rubber ring 73 and the non-magnetic plate 65. It is preferable to form and bind.

In the fuel measuring method using the flow meter using the present invention according to the configuration as described above, as shown in Figure 2, when the support body 10 rises or falls according to the level of the fuel amount chain 22 is rotated And the pulleys 24 and 25 rotate according to the rotation of the chain 22, and the lower 26 attached to the upper gear arm 28 rotates with the wheel 26 and the wheel gear 27 coupled to the upper pulley 24. As the magnet 61 rotates and the upper magnet 63 rotates according to the rotation of the lower magnet 61, the guide system 67 attached to the upper magnet 63 directs the scale engraved on the non-magnetic plate 65. To measure the fuel level.

As shown in Figure 3 according to another embodiment of the present invention the main configuration of the present invention can be largely divided into a support body 10, the displacement transmission means 40 and the display means (60).

The float 10 is vertically lowered or floated depending on the amount of fuel by buoyancy.

The displacement transmission means 40 includes a support arm 34, a guide arm 36, a first gear support 38, a first gear part 42, a second gear 44, a bevel gear arm 46, and a shaft. It is composed of a support (29).

When the support body 10 is vertically lowered or raised depending on the amount of fuel, the support arm 34 coupled to the support body 10 is changed while being accommodated or separated according to the guide arm 36.

The shape of the fuel tank 100 is a little different, but the length of the home LPG gas cylinder is larger than the diameter.

Therefore, the guide arm 36 has a guide therein so that the support arm 34 can be variable, and the support arm has a protruding portion at the end so that the support arm 34 can be variable inside the guide arm 36. desirable.

In FIG. 3, one guide arm 36 is provided, but even when the fuel tank has a large length difference from the diameter due to a plurality of guide arms, all displacements of the support according to the amount of change in the amount of fuel inside the fuel tank can be measured. Can be.

The guide arm 34 is rotated according to the change in the height of the support body.

The first gear support 38 binds the first gear portion 42 and the guide arm 36.

The gear attached to the first gear portion 42 rotates to the same diameter as the guide arm 36 rotates, and the second gear 44 is proportional to the size of the gear attached to the first gear portion 42. By changing the rotation rate, the rotation is displaced to another axis.

The gear of the 1st gear part 42 and the 2nd gear 44 are comprised by the bevel gear.

The second gear 44 is connected to the bevel gear arm 46 on one side, the bevel gear arm 46 is coupled to the lower magnet 61 to rotate the second gear by the displacement of the same diameter lower magnet 61 Rotate).

The first gear part 42 is inserted into both lower sides of the shaft support 29, and the bevel gear arm 46 is inserted into the hollow shape to rotate.

The display means has the same configuration as described with reference to FIG. 1 and is attached in the same manner to the fuel tank 100 and the measurement of the rotation amount according to the rotation of the upper magnet 63 and the rotation of the upper magnet in accordance with the same manner. do.

In the fuel measuring method using the flow meter using the present invention according to the configuration as described above, as shown in Figure 4, when the support body rises or falls according to the level of the fuel amount while receiving or extending the support body 34 (34) The guide arm 36 rotates, the gear of the first gear part 42 attached to the guide arm 36 rotates, and the second gear 46 is rotated due to the rotation of the gear of the first gear part 42. It rotates by varying the axis and the rotation amount, the lower magnet 61 attached to the bevel gear arm 46 rotates due to the rotation of the second gear 46 and the upper magnet 63 in accordance with the rotation of the lower magnet 61 ) Rotates and the indicator (67) attached to the upper magnet to indicate the graduation engraved on the non-magnetic plate 65 to measure the fuel amount.

As described above, the present invention has the advantage that it is possible to safely and conveniently measure the amount of fuel in the high pressure fuel tank.

In addition, there is an advantage of accurately measuring the displacement of the fuel tank in the minimum and maximum amount of fuel tank by using the float, and it is possible to reduce the manufacturing cost to manufacture due to the simple configuration such as the float and the magnet. Due to the structure there is an advantage that the failure does not occur even in high temperature or high humidity area.

Claims (3)

In the flow meter attached to the fuel tank to measure the flow rate using buoyancy, A buoyant body installed inside the fuel tank to receive buoyancy by the height of the oil surface; Located at the top and bottom of the fuel tank is connected to the upper and lower pulley and the upper and lower pulley which rotates according to the change of the position of the support body, the chain is attached to one side of the upper pulley and the chain attached to the support body on one side and the upper pulley Displacement transmission means consisting of a worm gear and a worm gear for displacing to another orthogonal axis by varying the rotation ratio of the rotation of the; The lower magnet and the upper magnet are placed above and below the non-magnetic plate to display the rotational movement transmitted by the displacement transfer means, and the same diameter is generated by rotation of the lower magnet attached to the linear gear arm of the wheel gear. The upper magnet is rotated, the flow meter using the support body, characterized in that composed of a display means for displaying the flow rate of the indicator attached to the upper portion of the upper magnet. In the flow meter attached to the fuel tank to measure the flow rate using buoyancy, A buoyant body installed inside the fuel tank to receive buoyancy by the height of the oil surface; A guide arm attached to one side of the support body and a guide arm capable of receiving and varying the support arm and attached to one side of the guide arm are displaced to another axis orthogonal to each other by varying the rotational ratio according to the position change of the support body. A displacement transmission means consisting of a bevel gear; The lower magnet and the upper magnet are placed above and below the non-magnetic plate to display the rotational movement transmitted by the displacement transfer means, and the same diameter is generated according to the rotation of the lower magnet attached to the bevel gear arm in a straight line of the bevel gear. The upper magnet is rotated, the flow meter using the support body, characterized in that composed of a display means for displaying the flow rate of the indicator attached to the upper portion of the upper magnet. The flow rate using the support body according to claim 1, wherein a frame formed with a guideline is coupled to the fuel tank and coupled to the upper and lower pulleys so that the support body can be vertically raised or lowered in a predetermined section in the fuel tank. Measuring instrument.