JP3998356B2 - Liquid level gauge with inspection mechanism - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a liquid level gauge with an inspection mechanism capable of inspecting components disposed in a container.
[0002]
[Prior art]
For example, a consumer bulk supply system as shown in FIG. 3 is known as a system for supplying LP gas (fluid) to each consumer side. This system includes a large storage tank (sealed container) GB for storing LP gas. The amount of LP gas in the storage tank GB can be examined by a liquid level gauge 1 that detects the upper surface of the liquefied LP gas, that is, the position of the liquid level. The storage tank GB has a cylindrical peripheral wall surface GB1.
[0003]
The level gauge 1 includes a float 2 that moves in accordance with the position of the liquid level, an arm that is in the storage tank GB, has a distal end connected to the float 2 and a base end that is swingably supported. 3, a support member 4 extending from the peripheral wall surface GB1 of the storage tank GB toward the center of the storage tank GB, and supporting the base end portion of the arm 3 in a swingable manner at the distal end portion thereof, and the base of the support member 4 A boss portion 5 welded to the peripheral wall surface GB1 of the storage tank GB so as to surround the end portion and communicate with the inside and outside of the storage tank GB, the boss portion 5 is closed from the outside, and the base end portion of the support member 4 is A base member 6 to be supported and a display unit 7 provided on the base member 6 and displaying a rotation angle corresponding to the swing angle of the arm 3 with a pointer (not shown).
[0004]
The support member 4 is formed in a pipe shape, and a shaft (not shown) is provided in the support member 4. The front end of the shaft is connected to the arm 3 via a gear mechanism (not shown), and the base end of the shaft is connected to the pointer of the display unit 7, and the shaft rotates according to the swing angle of the arm 3. The angle is transmitted to the pointer.
[0005]
[Problems to be solved by the invention]
However, in the conventional liquid level gauge 1, since the float 2, the arm 3, etc. are contained in the storage tank GB, the operation of the float 2, the arm 3, etc. cannot be directly confirmed visually. For this reason, in order to check whether the float 2 and the arm 3 etc. are operating normally, it was necessary to check the deflection of the pointer by filling or removing the LP gas into the storage tank GB. . Therefore, there is a problem that it is difficult to check the quality of the liquid level gauge 1.
[0006]
Further, when a foreign matter is caught in the swinging portion of the arm 3 and the malfunction occurs, there is no method for immediately improving the malfunction. For example, after the LP gas is completely exhausted, the float 2 and the arm 3 had to be taken out to remove the foreign matter or wait for the foreign matter to fall off naturally.
[0007]
The present invention has been made in view of the above circumstances, and can easily confirm from the outside of the container whether or not the float or the like operates normally, and easily remove foreign substances that cause malfunction. It is an object to provide a level gauge with an inspection mechanism that can be used.
[0008]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, the invention described in claim 1 is a float (2) that is provided in a container (GB) and moves according to the position of the liquid level of the fluid stored in the container (GB). And an arm (3) provided in the container (GB) and having a distal end portion connected to the float (2) and a base end portion supported to be swingable, and a distal end portion being a gear mechanism ( 22) and a shaft (21) connected to the arm (3) via a swing drive means (forcibly swinging the arm (3) from the outside of the container (GB)). 12), and the swing drive means (12) meshes with the first gear (13) that rotates according to the swing angle of the arm (3), and the first gear (13). A second gear (14) capable of being connected to the second gear (14) and a proximal end side A rotation drive shaft (15) formed with a spanner hook (18b) and provided at the upper part of the liquid level, and the first gear (13) is provided at the base end of the shaft (21). It is characterized by being fixed .
[0009]
According to a second aspect of the present invention, in the first aspect of the invention, the second gear (14) is maintained in a state of being separated from the first gear (13) in a normal state, and the rotational drive shaft ( 15) is configured to mesh with the first gear (13) by moving in the axial direction .
[0010]
A third aspect of the invention is characterized in that, in the first or second aspect of the invention, the base end side of the rotational drive shaft (15) is covered by a cover (16) .
[0012]
And in invention of Claim 1 comprised as mentioned above, since the rocking drive means (12) which forcibly rocks | arms an arm (3) from the outer side of a container (GB) is provided, The float (2) and the arm (3) can be moved by forcibly swinging the arm (3) using the swing drive means (12) without putting the fluid into or out of the container (GB). It is possible to easily confirm whether or not the above functions normally. Further, even when the float (2), the arm (3), etc. malfunction due to the biting of foreign matter, etc., by forcibly swinging the arm (3) by the swing drive means (12), Foreign substances can be easily and immediately removed.
[0013]
According to the first aspect of the present invention, by rotating the proximal end portion of the rotation drive shaft (15), the arm (the second gear (14) and the first gear (13) are interposed). 3) can be reliably swung. And the malfunction at the time of rotating a rotation drive shaft (15) can confirm the malfunction by the biting of a foreign material, and can also confirm that the foreign material was removed.
[0014]
In the invention described in claim 2 , since the second gear (14) is normally separated from the first gear (13), the second gear ( 14) There is an advantage that the component on the side does not become a load for swinging the arm (3).
[0015]
In the invention according to claim 3 , since the cover (16) covering the base end side of the rotation drive shaft (15) is provided, it is possible to prevent erroneous operation of the rotation drive shaft (15).
[0016]
DETAILED DESCRIPTION OF THE INVENTION
DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of the present invention will be described below with reference to FIGS. However, the same reference numerals are given to elements common to the constituent elements of the conventional example shown in FIG. 3, and the description is simplified.
[0017]
As shown in FIGS. 1 and 2, the level gauge 11 with an inspection mechanism shown in this embodiment is provided in a storage tank (sealed container) GB for storing LP gas in a consumer bulk supply system. The float 2 moves according to the position of the liquid level of the LP gas (fluid) stored in the tank, and is provided in the storage tank GB. The distal end is connected to the float 2 and the base end is swingable. And a swing driving means 12 for forcibly swinging the arm 3 from the outside of the storage tank GB.
[0018]
The swing drive means 12 includes a first gear 13 that rotates according to the swing angle of the arm 3, a second gear 14 that can mesh with the first gear 13, and a tip portion that is second. And a rotation drive shaft 15 arranged so that the base end side is located on the atmosphere side. The second gear 14 is normally kept away from the first gear 13 and is configured to mesh with the first gear 13 by moving the rotational drive shaft 15 in the axial direction. Further, the base end side of the rotation drive shaft 15 is covered with a cover 16.
[0019]
Hereinafter, the above configuration will be described in more detail. That is, the arm 3 is swingably held at the tip end portion of the support member 4. The support member 4 is formed in a pipe shape, and a shaft 21 is provided in the support member 4. The shaft 21 has a distal end connected to the arm 3 via a gear mechanism 22 and a proximal end connected to a pointer (not shown) of the display unit 7. The rotation angle according to the is transmitted to the pointer.
[0020]
The base end portion of the support member 4 is fixed to the inner closing member 61 of the base member 6, and the base end portion of the shaft 21 protrudes into the space 6 a of the base member 6 formed by the inner closing member 61. Yes. The first gear 13 is coaxially fixed to the base end portion of the shaft 21.
[0021]
The base member 6 is formed with a through hole 6b penetrating in the space 6a from the atmosphere side so as to be orthogonal to the shaft 21, and a female screw part 6c is formed at a portion of the through hole 6b on the atmosphere side. ing. A cylindrical sliding support member 17 is attached to the female screw portion 6c by screwing.
[0022]
The sliding support member 17 has a small-diameter portion 17a on the inner peripheral surface on the space 6a side, and a large-diameter portion 17b on the inner peripheral surface on the atmosphere side. The shaft 15 is supported so as to be slidable in the axial direction and to be rotatable about the shaft center, and is kept airtight. Further, on the outer peripheral surface of the sliding support member 17, a hexagonal spanner hanging portion 17 c and a male screw portion 17 d are formed.
[0023]
A second gear 14 is coaxially fixed to the rotational drive shaft 15 at a tip end protruding into the space 6a. A rotating head 18 for rotating the rotation drive shaft 15 is coaxially fixed to the base end portion of the rotation drive shaft 15. The rotating head 18 is integrally formed by a cylindrical portion 18a and a spanner hanging portion 18b. The cylindrical portion 18a is fitted to the large-diameter portion 17b of the sliding support member 17 so as to be slidable in the axial direction and rotatable about the axis. The spanner hanging portion 18b is formed by a hexagonal peripheral surface. The large-diameter portion is provided with a coil spring 19 that maintains the second gear 14 away from the first gear 13 by urging the rotary head 18 toward the atmosphere.
[0024]
The cover 16 is constituted by a cap nut having a hexagonal peripheral surface, and is attached to the male screw portion 17d of the sliding support member 17 by screwing, whereby the rotating head 18 and the large diameter portion 18b. And the base end of the rotation drive shaft 15 are covered. In the figure, B is a bolt for fixing the base member 6 to the boss portion 5.
[0025]
In the liquid level gauge 11 with the inspection mechanism configured as described above, the float 2 and the arm 3 can be forcibly operated from the outside as follows. First, the cover 16 is removed and the rotating head 18 is exposed. Then, a jig such as a box wrench is fitted into the spanner hooking portion 18b of the rotating head 18, and the rotating head 18 is pressed inward. Then, the rotation drive shaft 15 moves to the front end side, and the second gear 14 meshes with the first gear 13. Therefore, when the rotation head 18 is rotated in this state, the rotation displacement is second. Is transmitted to the arm 3 via the gear 14, the first gear 13, the shaft 21, and the gear mechanism 22, and the arm 3 swings and displaces, and the float 2 moves up and down.
[0026]
Thus, the arm 3 can be forcibly swung from the outside of the storage tank GB, so that the float 2, the arm 3 and the like operate normally even if LP gas is not put into and out of the storage tank GB. It can be easily confirmed whether or not. Further, for example, even when a foreign object is caught in the gear mechanism 22 or the like and a malfunction occurs in the float 2 or the arm 3, the arm 3 is forcibly swung by the swing driving means 12, thereby easily removing the foreign object. And can be removed immediately.
[0027]
Then, it is possible to confirm an operation failure due to the biting of the foreign material and to confirm that the foreign material has been removed by the weight when the rotating head 18 is rotated.
[0028]
Moreover, since the second gear 14 is separated from the first gear 13 in a normal state, when the liquid level position is detected by the float 2, the component on the second gear 14 side is the arm 3. There is no swing load. Furthermore, since the cover 16 that covers the rotating head 18 and the base end side of the rotating drive shaft 15 is provided, erroneous operation of the rotating head 18 can be prevented, and a 0-ring (packing) is provided. Double seal with 25 seals.
[0029]
In the above embodiment, the storage tank GB for storing LP gas is shown as the container. However, the container may be a container for storing other gas or liquid.
[0030]
【The invention's effect】
According to the first aspect of the present invention, the swing drive means (12) for forcibly swinging the arm (3) from the outside of the container (GB) is provided. Whether or not the float (2), the arm (3), etc. operate normally by forcibly swinging the arm (3) using the swing drive means (12) without being inserted or removed. Can be easily confirmed. Further, even when the float (2), the arm (3), etc. malfunction due to the biting of foreign matter, etc., by forcibly swinging the arm (3) by the swing drive means (12), Foreign substances can be easily and immediately removed.
[0031]
Further, according to the first aspect of the present invention, by rotating the proximal end portion of the rotary drive shaft (15), via a second gear (14) and the first gear (13), the arms (3) can be reliably swung. And the malfunction at the time of rotating a rotation drive shaft (15) can confirm the malfunction by the biting of a foreign material, and can also confirm that the foreign material was removed.
[0032]
According to the invention described in claim 2 , since the second gear (14) is normally separated from the first gear (13), the second gear is detected when the normal liquid level position is detected. There is an advantage that the component on the (14) side does not become a load for swinging the arm (3).
[0033]
According to the third aspect of the present invention, since the cover (16) that covers the base end side of the rotation drive shaft (15) is provided, erroneous operation of the rotation drive shaft (15) can be prevented. In addition, double airtightness can be secured.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view of a liquid level gauge with an inspection mechanism shown as an embodiment of the present invention.
FIG. 2 is a cross-sectional view of the main part showing the operation of the liquid level gauge with the inspection mechanism.
FIG. 3 is a cross-sectional view showing a liquid level gauge used in a consumer bulk supply system shown as a conventional example.
[Explanation of symbols]
2 Float 3 Arm 11 Liquid Level Meter with Inspection Mechanism 12 Oscillation Drive Means 13 First Gear 14 Second Gear 15 Rotation Drive Shaft 16 Cover GB Storage Tank (Container)

Claims (3)

A float (2) that is provided in the container (GB) and moves according to the position of the liquid level of the fluid stored in the container (GB);
An arm (3) provided in the container (GB) and having a distal end connected to the float (2) and a proximal end supported in a swingable manner;
A tip (21) connected to the arm (3) via a gear mechanism (22) ;
A swing drive means (12) for forcibly swinging the arm (3) from the outside of the container (GB) is provided ,
The swing driving means (12) is engaged with a first gear (13) that rotates in accordance with a swing angle of the arm (3) and a second gear that can mesh with the first gear (13). And a rotation drive shaft (15) having a distal end portion connected to the second gear (14) and a spanner hooking portion (18b) formed on the base end side. At the top,
The liquid level gauge with an inspection mechanism , wherein the first gear (13) is fixed to a proximal end portion of the shaft (21) . The second gear (14) is normally kept away from the first gear (13), and the first gear is moved by moving the rotary drive shaft (15) in the axial direction. The liquid level meter with an inspection mechanism according to claim 1, wherein the liquid level meter is configured to mesh with (13) . The liquid level gauge with an inspection mechanism according to claim 1 or 2, wherein a base end side of the rotation drive shaft (15) is covered with a cover (16) .

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