KR20210002131U - A digital instrument for light energy - Google Patents

Abstract

The present invention relates to the field of digital instrument technology, and the light energy digital instrument has been disclosed, and the instrument includes a base plate, a case fixedly connected to one side of the base plate, a circuit board mounted in the case, a light energy plate, and a display screen. The energy plate and the display screen are both electrically connected to the circuit board, the display screen and the light energy plate are located on the same side or bottom plate of the case, and a first window for embedding the light energy plate is provided on one side or the bottom plate of the case. A second window for embedding the display screen is opened in the center of the light energy plate, the light energy plate surrounds the display screen, and the light energy plate includes a plating layer and a glass layer. The present invention can ensure the maximization of the area of the light energy plate and has the effect of easy reading of numerical values.

Description

A DIGITAL INSTRUMENT FOR LIGHT ENERGY

The present invention relates to the field of digital instrumentation technology, and more particularly to light energy digital instruments.

With the development of light energy technology, the power supply method by light energy as the power supply of the instrument is being adopted in more and more instruments. For example, an electronic thermometer that people often use to measure temperature digitally displays the measured temperature by adding an electronic display device to the thermometer. Compared to electronic thermometers powered by batteries, electronic thermometers powered by light energy do not need batteries and are advantageous in reducing environmental pollution. It is simple, convenient, and eco-friendly because it can be supplied.

The solar energy digital meter disclosed in the existing Chinese patent with patent number CN208872325U includes a housing, a circuit board mounted inside the housing, and a solar energy board and display screen mounted outside the housing, both the solar energy board and the display screen are on the circuit board. Electrically connected, the solar energy plate and the display screen are installed on opposite sides of the housing, and the mounting frame located on the side of the solar energy plate is fixedly connected to the housing, and the solar energy is not inclined toward the mounting frame. Install the plate to the housing at an angle.

The above-described prior art has the following problems. In the above-mentioned patent, the solar energy plate and the display screen are located on opposite sides, respectively, and when it is necessary to check the displayed value, the side where the solar energy plate is located faces the light source in order to facilitate power supply during use. Turn it over and check the numbers. Or, if the solar energy digital instrument needs to be installed in a fixed facility in order to use both hands freely, it is inconvenient to use it by covering the display screen. In general, the problem that exists in the digital instrument irradiating sunlight among the prior art also exists in other digital instruments receiving energy from the light energy source, and while reading the numerical value is easy, maximization of the light energy plate area cannot be guaranteed.

In consideration of the problems existing in the prior art, one of the objectives of the present invention is to provide a light energy digital instrument capable of ensuring the maximization of the light energy plate area and easy to read numerical values.

The present invention realizes the object of the above-mentioned design through the following technical solutions.

The light energy digital instrument includes a base plate, a case fixedly connected to one side of the base plate, a circuit board mounted in the case, and a light energy plate and a display screen, wherein both the light energy plate and the display screen are electrically connected to the circuit board, , the display screen and the light energy plate are located on the same side of the case or on the bottom plate, and a first window for embedding the light energy plate on one side or the bottom plate of the case is opened, and the light energy plate A second window for embedding the display screen is opened in the center of the , and the light energy plate surrounds the display screen, and the light energy plate includes a plating layer and a glass layer.

By adopting the above-described technical solution, the light energy plate is generally directed toward the light source when in use, so the data on the display screen is clearly visible and easy to read, and the display screen is located in the center of the light energy plate Because it is surrounded by the plate, the area for the light energy plate to receive irradiation from the light source is sufficient to ensure the maximization of the light receiving area of the light energy plate. In addition, it is advantageous to further reduce production costs, and when the display screen is located in the center of the light energy plate, it can be immediately captured by the user's eye, so it is easy to read the figures or when the first window is located on the bottom plate Under the premise of maximizing the light-receiving area of the light energy plate, it can be embedded in the inner wall of the mounting location so that it does not protrude from the mounting area when mounting the instrument, which is advantageous for space saving.

In one preferred embodiment of the present invention, the second window may be configured to be opened in the plating layer.

By adopting the above technical solution, the second window is opened only in the plating layer, which is advantageous for maintaining the integrity of the glass layer, and the observer can read the numerical value displayed on the liquid crystal through the glass layer of the light energy plate.

In one preferred embodiment of the present invention, the second window can be configured to be opened in the plating layer and the glass layer.

By adopting the above-described technical solution, the second window is opened in the entire plating layer and the glass layer, so that the display screen can be easily installed.

In one preferred embodiment of the present invention, it can be configured so that a transparent protective plate for shielding the first window is installed where the first window is one step further.

By adopting the above-described technical solution, the transparent protective plate protects the display screen and the light energy plate, and at the same time ensures the transmittance.

In one preferred embodiment of the present invention, a first sealing member may be installed between the first window and the light energy plate.

By adopting the above-described technical solution, the sealing property between the first window and the light energy plate is increased by the first sealing member.

In one preferred embodiment of the present invention, a second sealing member may be provided between the second window and the display screen.

By adopting the above technical solution, the sealing property between the second window and the display screen by the second sealing member is increased.

In one preferred embodiment of the present invention, a fixing bolt for fixing the case to the bottom plate can be configured to be threaded to the edge of the case further.

By adopting the above-described technical solution, the case is connected to the bottom plate through the fixing bolt, so that it is easy to mount or separate the case, and it is also easy to check and repair the case later.

In one preferred embodiment of the present invention, a vibration-proof pad is installed between the case and the bottom plate, and the fixing bolt can be configured to pass through the vibration-proof pad.

By adopting the above-described technical solution, the anti-vibration pad is used to cushion the vibration between the case and the bottom plate, while the fixing bolt penetrates the vibration-proof pad so that the fixing bolt does not loosen easily, so that the space between the case and the base plate is more stable. is connected to

In one preferred embodiment of the present invention, the lower end of the fixing bolt can be configured so that the lower end of the fixing bolt does not protrude from the surface facing the case of the base plate.

By adopting the above-described technical solution, the operator can easily fix the light energy digital instrument because the fixing bolt does not easily affect when the bottom plate is mounted.

In one preferred embodiment of the present invention, a wiring hole is opened on the side of the case, so that a wiring terminal can be installed in the wiring hole.

By adopting the above technical solution, the wiring terminal is used for signal transmission.

The light energy digital instrument includes a cylindrical case, in which a circuit board and a light energy plate electrically connected to the circuit board and a display screen are mounted, the display screen and the light energy plate are located on the same side of the case and a circular first window for embedding the light energy plate is opened at one side of the case, and a second window for embedding the display screen is opened at the center of the light energy plate, and the light An energy plate surrounds the display screen, the light energy plate includes a plating layer and a glass layer, a probe cable for inspection is drawn out from the case, and a detection rod for arranging the probe cable is fixedly connected to the case.

By adopting the above-described technical solution, the display screen and the light energy plate are located on the same side of the case, so that the case is irradiated with light while reading the numerical value, and the display screen is located in the center of the light energy plate and the light energy plate Because it is surrounded by the light energy plate, the area for receiving light source irradiation is sufficient to ensure the maximization of the light receiving area of the light energy plate. It can be freely placed, increasing flexibility in use.

In one preferred embodiment of the present invention, the detection rod is threadedly connected to the case, and the detection rod is hollow.

By adopting the above-described technical solution, the detection rod is threaded to the case so that the detection rod can be easily separated, and the detection rod also exerts an advantageous effect on the protection of the probe cable.

In one preferred embodiment of the present invention, the detection rod is hinged to the case, and the detection rod is hollow.

By adopting the above technical solution, when using the instrument, the light energy plate needs to be irradiated with light in order to supply power to the instrument, and the case is hinged to the detection rod, and the light is irradiated as much as possible. The angle of the light energy plate can be adjusted by rotating the case after fixing the probe rod so as to receive it, so the flexibility of the instrument is increased, and the detection rod has the effect of protecting the probe cable.

In one preferred embodiment of the present invention, a bellows protecting the probe cable can be fixedly connected to a position where the detection rod and the case are hinged.

By adopting the above-described technical solution, when the case rotates, the bellows is advantageous in protecting the probe cable from being excessively bent and in extending the service life of the probe cable.

In summary, the present invention includes at least one of the following advantageous technical effects.

1. The display screen and the light energy plate are on the same side of the case, and the light energy plate does not need to turn the instrument upside down toward the light source or look at the display screen from the other side of the instrument, so it is easy to read the figures. There is enough light to see the data on the display screen more clearly. It is suitable for large-scale production because it only needs to open the first window for arranging the light energy plate in the case, and furthermore, it is advantageous for maximizing the area of the light energy plate, and it can further reduce the production cost, and the display screen is suitable for the light energy plate. It is located in the center and can be captured directly by the gaze.

2. By fixing the bottom plate to the external equipment through the mounting hole, both hands can be used freely, so inspection can be carried out easily.

3. The fixing bolt has a simple structure, materials are easily obtained, and it is easy to separate, so it is easy to install the case and check and repair the instrument later.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is an overall structural schematic diagram of Embodiment 1.
Fig. 2 is an exploded structural schematic diagram of Example 1.
Fig. 3 is an overall structural schematic diagram of Embodiment 2;
Fig. 4 is an overall structural schematic diagram of Embodiment 3;
5 is a schematic view of the overall structure of the detection rod according to the third embodiment.
Fig. 6 is an overall structural schematic diagram of Embodiment 4;
Fig. 7 is an overall structural schematic diagram showing the bellows according to the fourth embodiment.

Hereinafter, the present invention will be described in further detail with reference to the drawings.

Example 1

Referring to Figure 1, in the light energy digital instrument disclosed in the present invention, light energy is preferably solar energy or indoor light, and includes a square base plate (1), and four mounting holes (8) at the corners of the base plate (1). ) is opened. On one side of the base plate 1, a rectangular columnar case 2 is mounted as a whole. A fixing bolt 9 for fixing the case 2 to the bottom plate 1 is threaded to the edge of the case 2 . A square ring-shaped anti-vibration pad 10 is installed between the case 2 and the bottom plate 1, the anti-vibration pad 10 is made of rubber, and a fixing bolt 9 passes through the corner of the anti-vibration pad 10. A cylindrical fixing hole is opened to make it possible. The fixing bolt 9 penetrates the vibration-proof pad 10 and fits the fixing bolt 9 into the fixing hole. The end farther from the case 2 of the fixing bolt 9 does not protrude on the surface facing away from the case 2 of the base plate 1 , so it does not affect the mounting of the base plate 1 . Two cylindrical wiring holes 13 are opened on one side of the case 2, and wiring terminals 14 for signal transmission are mounted in the wiring holes 13. As shown in FIG.

1 and 2 , a circuit board 3 and a light energy plate 4 and a display screen 5 electrically connected to the circuit board 3 are mounted inside the case 2 . A square first window 6 for displaying the light energy plate 4 is opened on one side of the case 2 away from the base plate 1 . The size of the opening of the first hatch 6 is smaller than the size of the corresponding side of the case 2 , and the edge of the opening of the first hatch 6 is close to the edge of the corresponding side of the case 2 . A first sealing member 11 is installed between the first window 6 and the light energy plate 4 to increase sealing properties where the case 2 and the light energy plate 4 are connected. The sealing member 11 has a rectangular annular shape and is made of a silicone material. A second window 7 for displaying the display screen 5 is opened in the center of the light energy plate 4 . A second sealing member 12 is installed between the second window 7 and the display screen 5 to increase the sealing property where the light energy plate 4 and the display screen 5 are connected. The sealing member 12 is made of a silicone material.

Here, the light energy plate 4 includes a plating layer and a glass layer, and the second window 7 is opened only in the plating layer, which is advantageous for ensuring the integrity of the glass layer. In addition, only the displayed numerical portion may be exposed by removing only the plating layer corresponding to the numerical position on the display screen 5 . In addition to connecting the scattered areas other than the area displaying the numerical value in the second window 7 with a single line, it is also possible to connect with a thin line composed of a conductive plating layer, thereby simplifying the production process. In addition, the power generation area of the light energy plate 4 can be maximized by maximally using the light energy plate 4 . Compared to other light energy digital instruments on the market, for example, Sika's SolarTemp850 series, the light receiving area of the light energy plate 4 is increased. On the side where the second window 7 of the case 2 is opened, the light receiving area of the light energy plate 4 occupies the other part except for the second window 7, so that the light energy plate 4 and the display screen When (5) is located on the same side, the light-receiving area of the light energy plate (4) is maximized.

Referring to FIG. 2 , one side of the light energy plate 4 and the display screen 5 is covered with a transparent protective plate 15 that protects the display screen 5 and the light energy plate 4 , and the transparent protective plate 15 ) is a square. The temperature measurement unit of the display screen (5) may be printed on the transparent protective plate (15) or on the far side from the plating layer of the light energy plate (4), and is located on the liquid crystal side displaying the numerical value in the second window (7). , which is usually right and conforms to avid reading habits. Alternatively, the temperature measurement unit symbol can be directly engraved on the plating layer of the light energy plate 4 .

The principle of implementation of this embodiment is as follows. The display screen 5 and the light energy plate 4 are located on the same side of the bottom plate 1, so there is no need to turn the instrument over to read the displayed value, so it is easy to read. And when the instrument is in use, since the light energy plate 4 faces the light source irradiation side, there is enough light to read the numerical value, so that the data on the display screen 5 is clearly visible and easy to read, and power can also be supplied. The display screen 5 located in the center of the light energy plate 4 can immediately draw the reader's attention. Since the light energy plate 4 surrounds the display screen 5, it is advantageous to maximize the area of the light energy plate 4 to fully utilize the area of the instrument surface. In order to arrange the light energy plate 4 in the production process, only one square first window 6 needs to be installed in the case 2, which simplifies the production process and is suitable for large-scale production, and also saves production materials. It is also advantageous for cost reduction. And the anti-vibration pad 10, on the one hand, cushions the vibration between the case 2 and the base plate 1 to prevent the fixing bolt 9 from loosening, and on the other hand, the fixing bolt 9 prevents the vibration-proof pad 10 from being loosened. ), the stability of the fixing bolt 9 was further increased to ensure the stability of the entire instrument structure. In addition, since the transparent protection plate 15 is installed in the corresponding instrument, there is no need to additionally install a separate protection device.

Example 2

1 and 3, in the light energy digital instrument disclosed in the present invention, the light energy is preferably solar energy or indoor light, and the difference from Example 1 is a light energy plate ( 4) is that the first square window 6 for exhibiting is opened. The edge of the opening of the first hatch 6 is close to the edge of the corresponding side of the base plate 1 .

The second window 7 is opened in the plating layer and the glass layer of the light energy plate 4, and the display screen 5 is exposed to the glass layer so that the numerical value can be displayed more clearly.

The principle of implementation of this embodiment is as follows. The first window 6 is located on the base plate 1, and on the premise that the light-receiving area of the light energy plate 4 is maximized, it is advantageous to display the numerical values more clearly and to make the numerical readings easier. In addition, it is advantageous to save work space because it can be embedded in the inner wall of the mounting position so that it does not protrude from the mounting part when mounting the instrument.

Example 3

4 and 5, in the light energy digital instrument disclosed in the present invention, light energy is preferably solar energy or indoor light, and includes a cylindrical case (2), and a circuit board (3) inside the case (2) ) and a light energy plate 4 and a display screen 5 electrically connected to the circuit board 3 are mounted. A circular first window 6 for displaying the light energy plate 4 is opened on one side of the case 2 . The edge of the opening of the first hatch 6 is close to the edge of the corresponding side of the case 2 . A first sealing member 11 (not shown) is installed between the first window 6 and the light energy plate 4 to increase the sealing property where the case 2 and the light energy plate 4 are connected. and the first sealing member 11 has a circular annular shape and is made of a silicone material. In the center of the light energy plate 4 is opened a square second window 7 for showing the display screen 5 . A second sealing member 12 (not shown) is installed between the second window 7 and the display screen 5 to increase the sealing property where the light energy plate 4 and the display screen 5 are connected. and the second sealing member 12 is made of a silicone material.

A probe cable for inspection is drawn out from the case (2), a temperature sensing element is installed at the end far from the case (2) of the probe cable, and a hard detection rod (16) for placing the probe cable is threaded to the case (2). has been The detection rod 16 is a hollow tube and extends straight outward along a direction away from the case 2 .

Here, the light energy plate 4 includes a plating layer and a glass layer, and the second window 7 is opened only in the plating layer, which is advantageous for ensuring the integrity of the glass layer. In addition, only the displayed numerical portion may be exposed by removing only the plating layer corresponding to the numerical position on the display screen 5 . In addition to connecting the scattered areas other than the area displaying the numerical value in the second window 7 with a single line, it is also possible to connect with a thin line composed of a conductive plating layer, thereby simplifying the production process. In addition, the power generation area of the light energy plate 4 can be maximized by maximally using the light energy plate 4 . Compared to other light energy digital instruments on the market, for example, Sika's SolarTemp850 series, the light receiving area of the light energy plate 4 is increased. On the side where the second window 7 of the case 2 is opened, the light receiving area of the light energy plate 4 occupies the other part except for the second window 7, so that the light energy plate 4 and the display screen When (5) is located on the same side, the light-receiving area of the light energy plate (4) is maximized.

One side of the light energy plate 4 and the display screen 5 is covered with a transparent protective plate 15 that protects the display screen 5 and the light energy plate 4, and the transparent protective plate 15 is square. The temperature measurement unit of the display screen (5) may be printed on the transparent protective plate (15) or on the far side from the plating layer of the light energy plate (4), and is located on the liquid crystal side displaying the numerical value in the second window (7). , which is usually right and conforms to avid reading habits. Alternatively, the temperature measurement unit symbol can be directly engraved on the plating layer of the light energy plate 4 .

The principle of implementation of this embodiment is as follows. The display screen (5) and the light energy plate (4) are located on the same side of the bottom plate (1), so there is no need to turn the instrument over to read the displayed value, so it is easy to read. And when the instrument is in use, since the light energy plate 4 faces the light source irradiation side, there is enough light to read the numerical value, so that the data on the display screen 5 is clearly visible and easy to read, and also power can be supplied. The display screen 5 located in the center of the light energy plate 4 can immediately draw the reader's attention. Since the light energy plate 4 surrounds the display screen 5, it is advantageous to maximize the area of the light energy plate 4 to fully utilize the area of the instrument surface. In order to arrange the light energy plate 4 in the production process, only one square first window 6 needs to be installed in the case 2, which simplifies the production process and is suitable for large-scale production, and also saves production materials. It is also advantageous for cost reduction. And the anti-vibration pad 10, on the one hand, cushions the vibration between the case 2 and the base plate 1 to prevent the fixing bolt 9 from loosening, and on the other hand, the fixing bolt 9 prevents the vibration-proof pad 10 from being loosened. ), the stability of the fixing bolt (9) is further increased, thereby ensuring the stability of the overall structure of the instrument. In addition, since the transparent protection plate 15 is installed in the corresponding instrument, there is no need to additionally install a separate protection device.

Example 4

6 and 7, in the light energy digital instrument disclosed in the present invention, light energy is preferably solar energy or indoor light. The difference from Embodiment 3 is that the detection rod 16 is hinged to the case 2 and a bellows 17 protecting the probe cable is mounted at a position where the detection rod 16 and the case 2 are hinged. . A cylindrical mounting plate is welded to the side wall of the detection rod 16 .

The principle of implementation of this embodiment is as follows. Under the premise of ensuring the maximization of the light receiving area of the light energy plate 4, the light energy plate 4 is fixed to the external equipment through the mounting plate, and the angle of the case 2 is adjusted. The light energy plate 4 is adjusted according to the direction of light irradiation so as to receive as much light as possible. The adjustable case (2) increases the flexibility of the instrument and makes reading the figures easier. The detection rod 16 has an effect of protecting the probe cable. And when the case 2 rotates, the bellows 17 is advantageous in protecting the probe cable from being excessively bent and also in extending the service life of the probe cable.

Examples of the present specific embodiment are all preferred embodiments of the present invention, but the protection scope of the present invention is not limited thereto. Therefore, all equivalent changes made according to the structure, form, and principle of the present invention should be included within the protection scope of the present invention.

1. Bottom plate 2. Case 3. Circuit board 4. Light energy plate 5. Display screen
6. First hatch 7. Second hatch 8. Mounting hole 9. Fixing bolt 10. Anti-vibration pad
11. First sealing member 12. Second sealing member 13. Wiring hole 14. Wiring terminal
15. Transparent protection plate 16. Detection rod

Claims (10)

a base plate, a case fixedly connected to one side of the base plate, a circuit board mounted in the case, and a light energy plate and a display screen, wherein the light energy plate and the display screen are both electrically connected to the circuit board In energy digital instruments,
The display screen and the light energy plate are located on the same side of the case or on the bottom plate, and a first window for embedding the light energy plate is opened on one side of the case or on the bottom plate, A second window for embedding the display screen is opened in the center of the energy plate, the light energy plate surrounds the display screen, and the light energy plate includes a plating layer and a glass layer,
Light energy digital instrument. According to claim 1,
The second window is a light energy digital instrument opened in the plating layer. According to claim 1,
The second window is a light energy digital instrument that is opened in the plating layer and the glass layer. According to claim 1,
A light energy digital instrument in which a transparent protective plate for shielding the first window is installed where the first window is located. According to claim 1,
A first sealing member is installed between the first window and the light energy plate, and a second sealing member is installed between the second window and the display screen,
Light energy digital instrument. According to claim 1,
a fixing bolt for fixing the case to the bottom plate is threaded to the edge of the case;
a vibration-proof pad is installed between the case and the bottom plate, and the fixing bolt passes through the vibration-proof pad;
The lower end of the fixing bolt does not protrude from the surface facing the case of the bottom plate,
Light energy digital instrument. According to claim 1,
A wiring hole is provided on a side side of the case, and a wiring terminal is provided in the wiring hole,
Light energy digital instrument. a cylindrical case, wherein a circuit board and a light energy plate and a display screen electrically connected to the circuit board are mounted in the case, the display screen and the light energy plate being located on the same side of the case, the case A circular first window for embedding the light energy plate is opened on one side of the light energy plate, and a second window for embedding the display screen is opened at the center of the light energy plate, and the light energy plate is opened for the display. Surrounding the screen, the light energy plate includes a plating layer and a glass layer, a probe cable for inspection is drawn out from the case, and a detection rod for arranging the probe cable is fixedly connected to the case,
Light energy digital instrument. 9. The method of claim 8,
wherein the detection rod is threadedly connected to the case, and wherein the detection rod is hollow. 9. The method of claim 8,
the detection rod is hinged to the case, and the detection rod is hollow; A bellows protecting the probe cable is fixedly connected to a position where the detection rod and the case are hinged,
Light energy digital instrument.

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