JPH0411128Y2 - - Google Patents

Description

[Detailed Description of the Invention] Industrial Application Field The present invention relates to an analog meter, and more particularly, to an analog meter that displays altitude, etc. by rotating a pointer according to the displacement of a diaphragm.

Conventional technology Conventionally, analog meters have been used to convert the amount of displacement of a disc-shaped aneroid diaphragm that moves in response to changes in atmospheric pressure into the amount of rotation, rotate a pointer, and display altitude or atmospheric pressure based on the rotation angle of this pointer. There is. When an analog meter is used particularly as an altimeter, it is necessary to correct the indicated position of the pointer for zero setting at the beginning of use. Also, when using an analog meter as a barometer, setting work is required at the time of manufacturing.

Problems that the invention aims to solve: With conventional analog meters, when correcting the pointer indication, it is necessary to rotate the dial with scales,
The entire internal mechanism, including the diaphragm, was rotated. However, with the method of rotating the dial, the dial scale and numbers are tilted and difficult to read.
Another problem was that the mechanism for rotating the entire internal mechanism was complicated and large-scale. Furthermore, if this analog meter is a two-hand type having a long hand and a short hand, the indicated position of the long hand and short hand relative to the dial must be adjusted separately, which further complicates and enlarges the adjustment mechanism, increasing costs. There was a problem with connection.

Therefore, an object of the present invention is to provide an analog meter that solves the above problems by providing a mounting position correction mechanism.

Means for Solving the Problems In the present invention, a lever in contact with the diaphragm detects the displacement of the thickness of the diaphragm due to changes in atmospheric pressure, and the pointer is rotated according to the displacement detected by the lever to adjust the altitude or Display atmospheric pressure. The diaphragm fixing member has one end supported by the frame, and one side of the diaphragm is fixed.

The correction shaft is screwed into a screw hole passing through the frame, and the tip protruding from the screw hole is brought into contact with the other end of the diaphragm fixing member.

Function In this invention, the length of the projection from the screw hole of the frame is varied by rotating the correction shaft, and the mounting position of the diaphragm relative to the lever that is in contact with the other surface of the diaphragm is displaced in the thickness direction of the diaphragm. This allows the pointer to be rotated, thereby allowing the indicated position of the pointer to be corrected.

Embodiment FIG. 1 shows a side view of an embodiment of an analog meter according to the present invention. In the figure, 1 is a hollow disk-shaped aneroid diaphragm. Diaphragm 1
The thickness of the diaphragm 1 decreases when the atmospheric pressure increases, and increases when the atmospheric pressure decreases, and the amount of thickness displacement due to atmospheric pressure is greatest at the center of the diaphragm 1. A central portion of one surface (the upper surface in the figure) of the diaphragm 1 is fixed to a substantially central position of the leaf spring 2 in the longitudinal direction. Further, one end 2a of the leaf spring 2 in the longitudinal direction is fixed to the frame 3.
The leaf spring 2 is biased in a direction in which the other end 2b abuts against the frame 3 (arrow _A2 direction). A screw hole 3a is bored in the frame 3 at a position corresponding to the other end of the leaf spring 2.

The correction shaft 4 is loosely inserted into the frame 5 and is rotatably supported by the frame 5. One tip of the correction shaft 4 is threaded to correspond to the screw hole 3a to form a threaded portion 4a. This threaded portion 4a is screwed into a threaded hole 3a of the frame 3, and the tip of the threaded portion 4a projects downward from the frame 3 in the figure and comes into contact with the other end 2b of the leaf spring 2. A knob 6 is provided at the end of the correction shaft 4 that projects toward the display section above the frame 5. The above-mentioned leaf spring 2 and correction shaft 4 constitute a mounting position correction mechanism. For example, when the knob 6 is rotated clockwise, the length of the threaded portion 4a protruding downward from the frame 3 increases, the other end 2b of the leaf spring 2 is displaced in the direction of arrow A1, which is the thickness direction of the diaphragm ₁ , and the knob 6 is rotated clockwise. 6 is rotated counterclockwise, the protruding length of the threaded portion 4a becomes smaller, and the other end 2b is displaced in the direction of arrow _A2 , which is the thickness direction of the diaphragm 1.

A part of the frame 3 is bent to form legs 3b and 3c.
A shaft 8 is supported by the leg portions 3b and 3c. As shown in FIG. 2, the lever 10 has arm portions 10a, 10b, and 10c.
Holes 10d and 10e provided in each hole 0c are rotatably supported by a shaft 8, respectively. The tip of the pin 11 fixed to the arm portion 10a is in contact with the center of the other surface (lower surface) of the diaphragm 1. As a result, when the thickness of the diaphragm 1 is displaced in response to changes in atmospheric pressure, the pin 11 is displaced in the directions of arrows B ₁ and B ₂ in FIG.
The pins 12 fixed to the leg portion 10b are indicated by arrows C ₁ and C ₂
Displaced to.

The sector gear 13 is fixed to a shaft 14 rotatably supported by the frames 3 and 5, respectively. The sector gear 13 is substantially fan-shaped, and its gear portion 13a meshes with the gear 15. Further, a pin 16 is fixed to the sector gear 13 at a position corresponding to the pin 12. Further, 17 is a balancer. The shaft 18 of the gear 15 is rotatably supported by the frames 3 and 5, and projects upward from the frame 5, and a pointer 19 is fixed to the projecting tip. This shaft 18 is biased by a coil spring (not shown) to rotate, for example, counterclockwise, so that the pin 16 is always in contact with the pin 12. Here, due to atmospheric pressure fluctuations, the pin 12 moves towards arrow C ₁ (or
C ₂ ) direction, the pin 16 is pushed by the pin 12, thereby rotating the pointer 19 counterclockwise (or clockwise).

Here, when the knob 6 is rotated clockwise when correcting the indication of the pointer, the pin 11 is displaced in the direction of arrow B ₂ due to the displacement of the other end 2b of the leaf spring ₂ in the direction of arrow A, and the pointer 19 is rotated clockwise. Dynamic displacement. Also, when the knob 6 is rotated counterclockwise, the other end 2b of the leaf spring 2
Due to the displacement in the _two directions of arrow A, the pin 11 is displaced in the _one direction of arrow B, and the pointer 19 is rotationally displaced in the counterclockwise direction. With this simple configuration, the indicated position of the pointer 19 can be corrected by operating the knob on the display surface side. Even if the analog meter shown in Figure 1 is a two-hand type, it is possible to correct the indicated positions of the long and short hands in the same manner as above, and the simple configuration allows for miniaturization and low cost. Being held down.

FIG. 3 shows a modification of the correction axis in the analog meter of the present invention. In the figure, a notch 21a is provided at the tip of the correction shaft 21, and leg portions 21b and 21c are left in place. Further, the tip of the correction shaft 22 is notched on both sides of the outer periphery to form a convex portion 22a, and a threaded portion 22b corresponding to a screw hole in the frame 3 is provided near the tip. This convex portion 22a
is loosely fitted into the notch 21a, and the rotation of the correction shaft 21 is transmitted to the correction shaft 22.

As shown in FIGS. 4A and 4B, the correction shaft 21 has its small diameter portion 21d protruding above the frame 5, and is biased in the direction of arrow D by a coil spring 23.
A knob is provided at the tip of the small diameter portion 21d. Further, the other end 2b of the leaf spring 2 is provided with a hole 2c into which the correction shaft 22 is loosely fitted.
2a and threaded portion 22b are inserted into the hole 2c with the screw portion 22b protruding from the top of the leaf spring 2, and at least the convex portion 2
2a is inserted through the screw hole 3a of the frame 3 and protrudes from the top of the frame 3. The correction shaft 22 is biased in the direction of arrow E by a coil spring 24, and the convex portion 22a of the correction shaft 22 is aligned with the notch 21 of the correction shaft 21.
It is fitted into a.

Here, when the correction shaft 21 is rotated counterclockwise, the correction shaft 22 is rotated, and the screw portion 22b of the correction shaft 22 is inserted into the screw hole of the frame 3 as shown in FIG. 4A.
It comes off upward from point a and comes into contact with the frame 3 of the leaf spring 2. When the correction shaft 21 is rotated clockwise from this state, the correction shaft 22 is biased and rotated in the direction of arrow E, so the threaded portion 22b is screwed into the screw hole 3a, and the leaf spring 3 is rotated in the direction of arrow _A1 . Displaced and pointer 1
9 rotates clockwise. When the threaded portion 22b and the threaded hole 3a are engaged, the counterclockwise rotation of the correction shaft 21 causes the pointer 19 to rotate counterclockwise, which is the same as in the analog meter shown in the first figure. When the correction shaft 21 is further rotated clockwise, the screw portion 22b is inserted into the screw hole 3 as shown in FIG. 4B.
It comes off at the bottom of a, and the leaf spring 2 is no longer attached to the frame 3.
They will not be further apart. In addition, since the leaf spring 2 applies an upward force to the correction shaft 22, the correction shaft 21
When rotated counterclockwise, the threaded part 22b
is screwed into the screw hole 3a.

In this way, the height position of the knob 6 from the frame 5 is displaced by rotation of the correction shaft 4 shown in the first diagram, whereas when the correction shafts 21 and 22 are used, the knob provided on the correction shaft 21 is The height position from the frame 5 does not change even if the correction shaft 21 is rotated.

Note that, instead of the leaf spring 2, the diaphragm 1 may be fixed to a substantially central position of a rigid member whose one end is pivotally supported by a frame and whose other end is provided with a screw hole, and is not limited to the above embodiment. .

Effects of the invention As mentioned above, the analog meter of the invention has the following advantages:
Since it is equipped with a mounting position correction mechanism, the indicated position of the pointer can be corrected by operating the knob on the display surface with a simpler configuration than before, and even if the analog meter has two hands, the indicated position of the long and short hands can be adjusted. It has features such as being able to modify the structure, making it possible to downsize due to its simple configuration, and keeping costs low.

[Brief explanation of the drawing]

Figure 1 is a side view of one embodiment of the analog meter of the present invention, Figure 2 is a perspective view of some parts of the analog meter shown in Figure 1, and Figures 3 and 4 are partial modifications of the analog meter of the present invention. FIG. 3 is a diagram for explaining an example. 1...diaphragm, 2...plate spring, 3, 5...
...Frame, 3a...Screw holes, 4, 21, 22...
...Correction shaft, 4a, 22a...screw part, 10...lever, 19...pointer.

Claims (1)

[Scope of utility model registration request] An analog meter that uses a lever in contact with the diaphragm to detect changes in the thickness of the diaphragm due to changes in atmospheric pressure and rotates a pointer whose shaft is supported by the frame to display altitude or atmospheric pressure.One end is supported by the frame. a diaphragm fixing member to which one surface of the diaphragm is fixed;
The correction shaft is screwed into a screw hole that penetrates the frame, and has a correction shaft whose tip protruding from the screw hole is in contact with the other end of the diaphragm fixing member, and protrudes from the display surface of the correction shaft. The other end is rotated to vary the length of the protrusion from the screw hole of the frame, and the mounting position of the diaphragm relative to the lever in contact with the other surface of the diaphragm is displaced in the thickness direction of the diaphragm. analog meter.