JPH035849Y2 - - Google Patents

Description

[Detailed Description of the Invention] The present invention relates to an improvement of a zero adjustment device for a meter such as a wide-angle meter in which the movable element axis and the rotation center of the zero adjustment device are concentric.

FIG. 1 is an explanatory diagram of the main part of a wide-angle meter using a conventional zero position adjustment device. In FIG. 1, 10 is a front cover of the meter, 20 is a zero adjustment device, and 30 is a zero adjustment mechanism for the internal instrument. The front cover 10 is made of transparent plastic, and a spiral-shaped notch 11 is formed on the back side of the central portion, and this notched portion is semitransparent. This notch is formed to hide the zero adjustment mechanism 30 portion of the instrument internal device from being seen from the outside of the cover 10.

In the zero adjustment device 20, 21 is a zero adjustment element;
22 is a disc spring, and 23 is a U-shaped engagement piece made of metal. The zero adjustment element 21 is inserted into the through hole 12 formed in the center of the cover 10, and the engagement piece 23 is fitted from the back side of the cover via the disc spring 22, so that the engagement piece and the zero adjustment element 21 are connected to each other. The engaging piece 23 is attached to the zero adjustment element 21 by ultrasonic welding (plastic welding) to the tip 24 or by caulking the engaging piece 23. Thus, the zero adjustment element 21 is crimped and fixed to the cover 10 so as to be rotatable.

In the instrument zero adjustment mechanism 30, 31 is a boss stopper. The boss stopper 31 is composed of a cylindrical body with a T-shaped cross section, and notches 32 and 33 are formed in both arms in the length direction. Both legs of the engagement piece 23 of the zero position adjustment device 20 are engaged with the notches 32 and 33.
The boss stopper 31 has its body 34 rotatably crimped and fixed to a fixing member 35 of the instrument internal device.
40 is a boss to which a movable element consisting of a moving coil, a pointer, etc. (both not shown) is attached; 41 is a tension spring attached to the top of the boss stopper 31; 42 has one end connected to the tension spring 41 and the other end; is a tension band attached to the boss 40 of the movable element.

When a current to be measured is supplied to the movable coil, the movable element including the movable coil, the pointer, the movable part boss 40, etc. rotates about the tension band 42 as an axis. The zero position adjustment device 20 is arranged so that its center of rotation is concentric with the tension band 42 which is the movable element axis, and both legs of the engagement piece 23 are aligned with the notch 3 of the boss stopper 31.
2 and 33. When the zero adjustment element 21 is rotated, the engagement piece 23 attached to this element rotates, thereby displacing the mechanical position of the pointer of the meter and adjusting its zero position.

However, in the zero position adjustment device of such a meter,
Since it consists of at least three parts: the zero adjustment element 21, the disc spring 22, and the engagement piece 23, there is a problem that the number of parts increases and the device becomes expensive. Also, when assembling, the disc spring 2
2 to the zero adjustment element 21, and work to attach the engaging piece 23 to the zero adjustment element 21 (ultrasonic welding or caulking), etc., there is a problem that assembly workability is poor. Ta.

For example, as shown in FIG. 2, a zero adjustment device for a meter to eliminate this problem is one in which the zero adjustment element 21 and the engagement piece 23 are integrally formed with a plastic mold. A protrusion 25 is provided on the body of the zero adjustment element 21, and the zero adjustment element 21 is pushed into the through hole 12 in a snap fit manner, whereby the zero adjustment element 21 is rotatably attached to the cover 10. It was hot.

However, in the zero position adjustment device of such a meter,
Since the zero adjustment element 21 and the engaging piece 23 are integrally formed with a plastic mold, the user can easily remove the cover.
There was a problem in that the pointer of the meter would oscillate due to the influence of static electricity generated by rubbing the 10. In addition, in such a zero adjustment device for a meter, unless the dimensional tolerance of the fitting between the through hole 12 and the body of the zero adjustment element 21 is extremely strict, the zero adjustment element 21
Since there is a risk that the through hole 12 may come off, drilling work for the through hole 12 and molding work for the zero adjustment element 21 become difficult. This caused the problem that processing was difficult.

The present invention was made to eliminate the above-mentioned problems, and provides a zero position adjustment device for instruments that is inexpensive, easy to process, has good assembly workability, and is not easily affected by static electricity. The purpose is to provide

FIG. 3 is a diagram showing the structure of one embodiment of the zero position adjustment device for a meter according to the present invention, and here, the case where it is used in a wide angle meter is illustrated. 4 is a view seen from the direction of arrow A in FIG. 3. FIG. In these figures, the same parts as in FIG. 1 are given the same reference numerals. The same applies to the figures below.

In these figures, 50 is the zero position adjustment device of the meter. In the instrument zero position adjustment device 50, 5
1 is a zero adjuster, and 52 is a zero arm.
The configuration of the zero adjuster 51 and zero arm 52 will be explained using FIGS. 5 and 6.

FIG. 5 is a diagram showing the configuration of the zero adjuster 51, in which A is a top view and B is a sectional view taken along the line B-B' in A. In the zero adjuster 51, 5
3 is a head, and a diametrical groove 54 is formed on one side. 55 is a leg part, and two legs 55 ₁ and 55 ₂ are provided. These legs 55 ₁ , 5
5 ₂ extends toward the other side of the head 53 and has elasticity. At the tips of the legs 55 ₁ and 55 ₂ , outwardly directed claws 56 ₁ and 56 ₂ are formed, respectively. The zero adjuster 51 is integrally formed, for example, with a plastic mold.

FIG. 6 is a diagram showing the structure of the zero arm 52, in which A is a top view and B is a cross-sectional view taken along line C-C' in A. In the zero arm 52, 57 is a disk portion. This disk portion 57 is provided with an engaging portion 58, for example, an oval hole. Reference numeral 59 indicates engagement legs extending in one side direction, and two engagement legs 59 ₁ and 59 ₂ are provided. The zero arm 52 is integrally formed, for example, by a plastic mold.

Returning again to FIGS. 3 and 4, the assembled state of the zero adjuster 51 and zero arm 52 will be described.

The leg portions 55 ₁ and 55 ₂ of the zero adjuster 51 pass through the through hole 12, and the claw portions 56 ₁ and 56 ₂ protrude from the cover 10. Due to the elasticity of the legs 55 ₁ , 55 ₂ , the claws 56 ₁ , 56 ₂ are engaged in the oval holes 58 in a snap-fit manner. As a result, the zero adjuster 51 and the zero arm 52 sandwich the cover 10, and the zero adjuster 51 and the zero arm 52 are attached to the cover 10 so as to be rotatable together. The instrument zero position adjustment device is arranged so that its center of rotation is concentric with the tension band 42, which is the movable element axis, and its engaging legs 59 ₁ and 59 ₂ engage with the notches 32 and 33 of the boss stopper 31. It is becoming more and more common.

In a wide-angle instrument with such a configuration, the groove 5
Insert a driver etc. into the zero adjuster 51.
When the _zero arm ₅₂
The zero adjuster 51 also rotates together with the zero adjuster 51. As a result, the boss stopper 31 of the instrument internal unit rotates,
The mechanical position of the pointer is displaced to adjust its zero position.

According to the instrument zero position adjustment device having such a configuration, the following effects can be obtained.

(a) By engaging the claw portions 56 ₁ and 56 ₂ into the engaging portion 58 in a snap-fit manner, the device can be easily assembled. From this, it is possible to improve the workability of assembly.

(b) Since the device consists only of the zero adjuster 51 and the zero arm 52, which are integrally formed by plastic molding, the device is inexpensive.

(c) Since the zero adjuster 51 and the zero arm 52 are separate parts, the pointer of the meter is less susceptible to the effects of static electricity generated in the meter. To prevent the effects of static electricity, apply antistatic treatment to only the zero arm 52 (for example, apply an antistatic agent to the zero arm 52, use resin containing an antistatic agent as the constituent material of the zero arm 52, etc.) This can be done by applying In this case, since it is not necessary to perform antistatic treatment on the zero adjuster 51, a sufficient dielectric strength voltage can be obtained.

(d) Since there is a degree of freedom in the shape of the disk portion 57 of the zero arm 52, the disk portion 57 can be used as a cover for the cover 10 depending on the shape. Also, change the color of the zero arm 52 to the zero adjuster 51.
The appearance of the instrument can be improved by making it different from the above.

(E) Even if the height of the cover 10 changes, the only need to replace the parts is to replace the zero arm 52 with one having a different length of the engagement leg 59. From this, the zero adjuster 51 can be used in common,
It is possible to standardize parts.

(F) By sandwiching the cover 10 between the zero adjuster 51 and the zero arm 52, the zero adjuster 51 and the zero arm 52 are rotatably attached to the cover 10. For this reason, through hole 1
The hole diameter of No. 2 does not require very high dimensional accuracy. This makes processing easier.

FIG. 7 is a diagram showing another example of the configuration of the zero adjuster.

In FIG. 7, 60 is a stepped portion, which is provided on the disc portion 57. As shown in FIG. This stepped portion 60 is fitted into the through hole 12 in the assembled state.

According to such a zero adjuster, the positioning of the zero adjuster 51 to the instrument cover 10 can be ensured.

In addition, although the case where the zero position adjustment device of a meter is used for a wide-angle type meter was described in the embodiment, the zero position adjustment device for a meter may be used for other meters.

As explained above, according to the present invention, it is inexpensive,
It is possible to provide a zero position adjustment device for a meter that can be easily processed, has good assembly workability, and is less susceptible to the effects of static electricity.

[Brief explanation of the drawing]

Figures 1 and 2 are explanatory diagrams of the configuration of the main parts of a wide-angle meter using a conventional zero level adjustment device, and Figure 3 shows the configuration of an embodiment of the zero level adjustment device for a meter according to the present invention. 4 is a view seen from the direction of arrow A in FIG. 3, and FIG. 5 is a diagram showing the configuration of the zero adjuster in FIG. 3, where A is a top view and B is a B of A.
-B' section, Figure 6 is the zero point in Figure 3.
FIG. 7 is a diagram showing the structure of the zero adjuster, in which A is a top view, B is a sectional view taken along line C-C' in A, and FIG. 7 is a diagram showing another example of the structure of the zero adjuster. 10...Cover, 12...Through hole, 31...Boss stopper, 32, 33...Notch, 51...Zero adjuster, 52...Zero arm, 53...Head, 54...Groove, 55, 55 ₁ , 55 ₂ ... Legs,
56, 56 ₁ , 56 ₂ ... claw portion, 58 ... engaging portion,
59, 59 ₁ , 59 ₂ ...Engagement leg.

Claims (1)

[Scope of utility model registration request] A zero adjuster is integrally formed with a head provided with a diametrical groove, an elastic leg provided on the head, and a claw provided at the tip of the leg, and an instrument cover. A zero arm, in which an engaging portion through which the claw portion is engaged in a snap-fit manner through a through hole provided in the zero arm and an engaging leg that is engaged with a notch in a boss stopper of the instrument internal device are integrally formed. 1. A zero position adjustment device for a meter, characterized in that the zero adjuster and the zero arm sandwich a cover of the meter, and are attached to the cover of the meter so that they can rotate together.