JPH0428024Y2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to liquid level monitoring used in equipment, such as low pressure steam boilers and pressure vessels, and in particular:
This invention relates to a device for indicating the liquid level within a device.

The inventor of this invention has registered a utility model in Japan (Jikko 44-
11756) to the Chinese Patent Office in 1985.
The application was filed on August 13th. According to the principle of indicating the presence of water or air in the above Chinese patent, when water is present in the water intrusion space in the water level indicating device, light is illuminated on the green plate through prism transmission, and only the green color is visible through the viewing window. Ru. This improvement provides an observer with the ability to distinguish red or green colors displayed by the instrument and accurately measure water levels even from greater distances and over a wider range of angles; This makes it possible to detect whether the water container is empty or full. However, this type of equipment will require the use of high quality water in the boiler. Typically, steam boilers use untreated hard water that contains large amounts of impurities.
Such impurities often stain the glass surface (which serves as a viewing window) of the device. The main component of the impurity is
It appears in the form of iron rust (Fe ₂ O ₃ , Fe ₃ O ₄ ). It is known that iron rust is red and reddish-purple. If there is a large amount of iron rust in the water and the glass surface and green plate of the device are stained, a red color will be visible from the glass surface. The green color on the green plate blends in with the red, so normally only green light would be visible through the viewing window, but the green light that passes through the glass surface is mixed with red. . Therefore, this green light is very weak (intensity),
There is a possibility that it will cause a major disturbance to observers. If the contamination becomes severe, observation becomes impossible. The usual way to solve this problem is to clean it daily and disassemble and clean it regularly. Obviously, this solution is extremely inconvenient and has a negative impact on the efficiency of boiler utilization.

It is an object of the present invention to provide a new and improved device for indicating the liquid level in a device, thereby solving the problems mentioned above.

The present invention is a device for indicating the liquid level in the device, which includes a container 4, a base member 2 having an "L"-shaped cross section and a viewing window 7 in a part thereof.
The cross-sectional shape as a whole is a scalene right triangle, and the two surfaces 11a of the prism forming right angles,
It has a surface 11 parallel to the slope 6 disposed between 11b, and the two perpendicular surfaces face the inner surface of the base member, and the oblique side faces the slope inside the container, respectively. A prism 1 is fixed to the inner surface of the base member and the inner slope of the container, and the liquid is incident on a surface parallel to the slope of the prism, and enters a space defined by the inner surface of the container and the slope. A surface 1 of the same color as that which is transmitted into the space by the prism and arranged on the inner surface of the container when the container is inside.
means 15 for supplying a ray of a first color which illuminates 0 and which is then directed into the viewing window, and which is incident on one of the two perpendicular faces 11a of the prism and in which liquid is introduced into the space. A second color which is internally reflected by the prism when not in the space and is guided to the viewing window through the other of the two perpendicular surfaces 11b of the prism without entering the space. means 9 for supplying a light beam, and is characterized in that the liquid level is indicated by a boundary between the first color and the second color appearing in the viewing window.

Preferably, the first color is red, the surface of the member disposed on the inner surface of the container is red, and the second color is green, and the light beam of the second color is preferably red. The surface of the prism where the light is incident is colored green.

Furthermore, a red element made of glass or other light-transmitting material may be arranged between the light source and a surface parallel to the oblique surface to provide light of the first color.

Further, a portion of the light source that directly faces the surface parallel to the slope may be colored red to supply the light beam of the first color, and the portion of the light source that illuminates the surface parallel to the slope may be colored red to supply the light beam of the first color. A portion of the light source may be colored red, and a portion of the light source that illuminates the surface of the prism onto which the light beam of the second color is incident may be colored green.

The inventor has modified his older device so that it will function properly in all water conditions. The original arrangement of red and green was swapped and colored rays were used in place of the normal rays. When water is present in the water intrusion space within the device, the light directed from the light source to the prism is red light. Due to the transmission of the prism, the transmitted red light illuminates the red plate, thus greatly increasing the light intensity of the red light. Even in low water quality conditions or extremely turbid water, the red light is clearly visible due to sufficient light intensity. When the space is filled with air, the green portion illuminated by the light reflected by the base member is visible through the viewing window due to the internal reflection (action) of the prism. If both water and air are present in said space, both red and green colors will appear in the viewing window. The boundary between red and green is the designated water level.

Preferred embodiments of the invention are illustrated in the accompanying drawings.

Example 1 Example 1 is shown in FIGS. 1 to 3.

The angles between the adjacent main surfaces are 90° and 38°, respectively.
A prism 1 having an overall scalene triangular cross-section with an angle of 52° is fixed inside a base member 2 having a right angle (having an "L"-shaped cross-section).

The prism has an orthogonal surface 11 of the prism.
a small plane 11 parallel to the slope (the oblique side in FIGS. 2 to 4) 6 disposed between a and 11b;
There are small planes 11c and 11d perpendicular to the slope formed between the slope and the end of the orthogonal surface (the small planes 11, 11c and 11d are referred to as small sides in FIGS. 2 to 4). ). A spacer 3 is arranged between the base member 2 and two orthogonal surfaces 11a and 11b of the prism. The container 4 is fastened to the base member 2 with screws 5. container 4
The inner (slanted) surface of the prism and the hypotenuse 6
and are firmly pressed together with an airtight seal in between. Furthermore, the base member 2 has a viewing window 7 equipped with a lens hood 8 to prevent interference from external light. On one (perpendicular) surface 11a of the prism, a light-transmitting element 9 colored green is provided.
is located. The red plate 10 is the upper part of the hypotenuse 6,
It is fixed on the inner surface of the container 4. Lower position than the small side 11 of the prism, side cover plate 1
A 6 watt fluorescent lamp 13 is installed above the lamp 2. The fluorescent lamp is held in an appropriate position on the side cover plate 12 by an insulating lamp holder 14. Prism small side 11 and fluorescent lamp 1
3, a red glass plate 15 is arranged. When the power is turned on, the light emitted by the fluorescent lamp moves as shown in the figure. That is,
A portion of the light passes through the red glass plate 15 to become red light, and passes through the prism to illuminate the red plate 10 fixed to the inside of the container 4 (see FIG. 3). Another light is reflected by the inner surface of the side cover plate 12 and illuminates the green light-transmissive element 9, as shown in FIG. When the space defined by the inner surface of the container 4 and the oblique side 6 of the prism is filled with air, when viewed through the viewing window 7, the green light-transmitting element 9 illuminated by the reflected light will appear on the prism. (see Figure 2). When the space is filled with water, the light passes through the red glass plate 15 and becomes red light, then passes through the prism to illuminate the red plate 10, and only the red light is visible through the viewing window 7. be done. When both water and air are present in the space, red and green colors are visible. The boundary between red and green is the designated water level.

Embodiment 2 Embodiment 2 is illustrated in FIG. 4 (members given the same reference numerals as in FIGS. 1 to 3 correspond to those in Embodiment 1).

The difference between Example 2 and Example 1 is that the light source itself is colored.

The portion 16 of the light source facing the facet 11 is colored red. When the power is turned on, the light that illuminates the prism (directly) is red, while the light that illuminates the inner surface of the side cover plate is normal light (white light). When the portion of the light source facing the side cover plate 12 is colored green, the light irradiating the inner surface of the side cover plate 12 is green. Therefore, the transmitted light (through the prism facets 11) illuminates the surface of the red plate 10, and the reflected light (of the side cover plate 12) is white or green. Thereby, the light intensity of the (visible) red and green lights increases significantly. When the space defined by the inner surface of the container 4 and the slope 6 of the prism is filled with water, the red color can be clearly seen. When the space is filled with air, the green color is clearly visible.

Having shown two preferred embodiments of the invention,
The present invention is not limited to the embodiments, but may include changes in elements, components, assemblies, and
Modifications within the scope of the invention will be apparent to those skilled in the art after reading the above description. For example, the color of the light beam may be selected appropriately depending on the color of the liquid to be measured, and at least the color of the light beam directly incident on the prism and the colored member fixed to the inner surface of the container can be selected as appropriate. have the same color,
It is sufficient that the color of the reflected light from the side cover plate that enters the prism from a different direction is different from the color of the directly incident light. Therefore, the present invention includes any changes and modifications within the scope of the claims for utility model registration.

The liquid level indicating device of the present invention expands the usage conditions of conventional devices and reduces the frequency of cleaning of water level indicating devices of steam boilers used under conditions where water treatment is not performed. Permanent use in steam boilers of steam locomotives without cleaning equipment is also possible. It can also be used in pressure vessels for toxic or flammable liquids.

[Brief explanation of the drawing]

Figure 1 is a front view of the device of the present invention; Figure 2 schematically shows the movement of light emitted from the light source inside the device when the space into which the liquid to be measured enters is filled with air. Figure 3 is a cross-sectional view schematically showing the movement of light emitted from the light source inside the device when the space into which the liquid to be measured enters is filled with water; Figure 4 is FIG. 3 is a sectional view showing another embodiment of the present invention in correspondence with FIG. 2; DESCRIPTION OF SYMBOLS 1... Prism, 2... Base member, 3... Spacer, 4... Container, 5... Screw, 6... Slope (hypotenuse) of prism, 7... Peephole, 8... Lens hood, 9... ...light-transmitting element colored green, 10... red plate, 11... small planes (small sides) of prism, 11a, 11b... orthogonal surfaces (sides) of prism, 11c, 11d... prism small plane (small side), 12... side cover plate, 13... fluorescent lamp, 14... lamp holder, 15... red glass plate.

Claims (1)

[Claims for Utility Model Registration] (1) A device for indicating the liquid level in the device, which includes a container 4 and a base having an “L”-shaped cross section and a viewing window 7 in a part thereof. The member 2 has an overall cross-sectional shape of a scalene right triangle,
Two perpendicular surfaces 11a, 11 of the prism
It has a surface 11 parallel to the slope 6 disposed between a prism 1 fixed to the inner surface of the base member and the inner inclined surface of the container;
When the liquid is incident on a surface parallel to the slope of the prism and is contained in a space defined by the inner surface of the container and the slope, the liquid is transmitted into the space by the prism and appears on the inner surface of the container. means 15 for providing a ray of a first color which illuminates a surface 10 of the same color arranged thereon and which is then directed into the viewing window and incident on one of the two perpendicular faces 11a of the prism; is reflected internally by the prism when no liquid enters the space, and the other of the two surfaces forming a right angle to the prism 11b does not enter the space.
means 9 for providing a beam of light of a second color which is directed through the viewing window into the viewing window, the liquid having a boundary between the first color and the second color appearing at the viewing window; A device that displays the position. (2) the first color is red, and the member arranged on the inner surface of the container has a red surface;
2. The device according to claim 1, wherein the second color is green, and the side of the prism through which the light beam of the second color is incident is colored green. (3) A utility model application in which a red element of glass or other light-transmitting material is disposed between a surface parallel to the slope and the light source to provide a beam of light of the first color. Equipment described in scope 2. (4) The device according to claim 2 of the utility model registration claim, wherein a portion of the light source directly facing a surface parallel to the slope is colored red to supply the light beam of the first color. . (5) A portion of the light source that irradiates a surface parallel to the slope is colored red, and a portion of the light source that irradiates the surface of the prism into which the light beam of the second color is incident is colored green. The device according to claim 2 of the utility model registration claim.