JP6148586B2 - Electrical measuring instrument - Google Patents

Description

  The present invention relates to an electrical measuring instrument such as a digital multimeter or a tester equipped with a rotary switch device.

  In general, for electrical measuring instruments that measure electrical parameters such as digital multimeters and testers, rotary knobs and rotary switches that are manually operated by a measurer as means for selecting measurement functions such as multimeter function switching and range switching A rotary switch device provided with means and the like is mounted.

  In addition, these electrical measuring instruments have a circuit board on which electronic parts such as various circuit elements necessary for the operation of the electrical measuring instrument are installed in the exterior case, and the rotary switch is mounted on the circuit board. The devices are operatively connected.

  In general, an electrical measuring instrument having such a configuration improves the noise resistance performance, and the circuit board is preferably a conductive material on both sides in the outer case so that the operation of the electrical measuring instrument is not affected by external noise. The lower shield plate and the upper shield plate are connected to the circuit GND.

  Patent Document 1 describes a digital multimeter as an example of the electrical measuring instrument having the above configuration. The schematic configuration of the digital multimeter will be further described with reference to FIG. 7 attached to the present application. The digital multimeter 100 includes an upper case member 101 and a lower case member 102. , 102, a circuit board 103 is arranged inside the meter, and an upper shield plate 104 and a lower shield plate 105 are arranged on both sides of the circuit board 103.

  In the rotary switch device 10 mounted on the digital multimeter 100, the rotary knob 11 is connected to the rotation switch means 13 by the rotation support shaft 12. The rotation switch means 13 includes a rotary brush 16 and is in electrical contact with a contact (rotary pattern contact) 106 of the circuit board 103.

  Between the rotary knob 11 and the rotation switch means 13, the rotary knob 11 is connected to the rotation switch means 13, and further, a detent mechanism (or click mechanism) 107 is installed. A large-diameter hole (opening) 108 is formed in the shield plate 104.

US Patent No. 7654857

  The inventors have conducted many research experiments on an electric measuring instrument such as a digital multimeter having such a structure. For example, as described in Patent Document 1, both surfaces of the circuit board 103 are made conductive. Even if the shield plates 104 and 105 are covered and the shield plates 104 and 105 are connected to the circuit GND, as described above, a large-diameter hole (opening) is formed in the shield material (upper shield plate 104) on the upper part of the rotation switch means 13. Part) 108 is formed, and it was found that the circuit board 103 is easily affected by external noise through the opening 108.

  Therefore, an object of the present invention is to provide an electrical measurement equipped with a rotary switch device that suppresses the influence of noise on the circuit board even if an opening is formed in the shield plate and realizes a better noise resistance performance. Is to provide a vessel.

The above object is achieved by an electrical measuring instrument according to the present invention. In summary, according to the first aspect of the present invention,
An electrical measuring instrument for measuring electrical parameters,
A rotary knob for selecting a measurement function of an electric measuring device, located between a circuit board provided with circuit elements and a shield plate for shielding the circuit elements provided on the circuit board. In an electrical measuring instrument equipped with a rotary switch device that is rotated by the rotary switch device, wherein a rotary brush device of the rotary switch device is in electrical contact with a rotary pattern contact of the circuit board.
The rotation switch means includes a brush base that supports the rotary brush,
The brush base is a rotary brush support member made of an electrically insulating material for mounting the rotary brush, and is located on the side of the rotary brush support member facing the shield plate and integrated with the rotary brush support member. A conductive brush base shield member formed on
The brush base shield member is electrically connected to the shield plate with a shield connection brush attached to the brush base shield member.
An electrical measuring instrument is provided.

According to a second aspect of the invention,
An electrical measuring instrument for measuring electrical parameters,
A rotary knob for selecting a measurement function of an electric measuring device, located between a circuit board provided with circuit elements and a shield plate for shielding the circuit elements provided on the circuit board. In an electrical measuring instrument equipped with a rotary switch device that is rotated by the rotary switch device, wherein a rotary brush device of the rotary switch device is in electrical contact with a rotary pattern contact of the circuit board.
The rotation switch means includes a brush base that supports the rotary brush,
The brush base is a rotary brush support member made of an electrically insulating material for mounting the rotary brush, and is located on the side of the rotary brush support member facing the shield plate and integrated with the rotary brush support member. A conductive brush base shield member formed on
The brush base shield member is electrically connected to a circuit GND rotary pattern contact formed as one of the rotary pattern contacts on the circuit board by a shield connection brush attached to the brush base shield member.
An electrical measuring instrument is provided. Here, according to one embodiment, the brush base has a brush base base formed of an electrically insulating material, and the side opposite to the side facing the shield plate of the brush base base. The brush base shield member and the rotary brush support member are integrally formed with respect to the brush base.

  According to the present invention, even if an opening is formed in the shield plate, it is possible to suppress the circuit board from being affected by noise, and to realize better noise resistance performance.

It is a disassembled perspective view which shows schematic structure of one Example of the electrical measuring device carrying the rotary switch apparatus based on this invention. FIG. 2 (a) is an exploded sectional view showing a schematic configuration of an embodiment of a rotary switch device constructed according to the present invention, and FIG. 2 (b) explains a mounting mode of a rotary connecting brush of the rotary switch means. FIG. 2 (c) is a perspective view for explaining a mounting manner of the shield connection brush of the rotation switch means. It is a disassembled sectional view which shows schematic structure of the other Example of the rotation switch means comprised according to this invention. FIG. 4 (a) is an exploded sectional view showing a schematic configuration of another embodiment of the rotary switch device constructed according to the present invention, and FIG. 4 (b) is a rotary connection brush and shield connection brush of the rotary switch means. It is a perspective view explaining the attachment aspect of. FIG. 5A is a plan view for explaining an example of a rotary pattern contact on a circuit board, and FIG. 5B is a view for explaining an example of a rotary pattern contact on a circuit board configured according to the present invention. FIG. FIG. 6 (a) is an exploded sectional view showing a schematic configuration of another embodiment of the rotary switch device constructed according to the present invention, and FIG. 6 (b) is a rotary connection brush and shield connection brush of the rotary switch means. It is a perspective view explaining the attachment aspect of. It is a disassembled perspective view which shows schematic structure of an example of the digital multimeter which mounts the conventional rotary switch apparatus.

  Hereinafter, the electrical measuring instrument according to the present invention will be described in more detail with reference to the drawings.

Example 1
FIG. 1 shows an embodiment of an electrical measuring instrument 100 equipped with a rotary switch device 10 according to the present invention. In this embodiment, the electric measuring instrument 100 is a digital multimeter having the same configuration as the digital multimeter described in Patent Document 1 described with reference to FIG. However, the electrical measuring instrument 100 of the present invention is not limited to the digital multimeter having such a configuration, and can be widely implemented in various electrical measuring instruments equipped with the rotary switch device 10 for measuring electrical parameters. obtain.

  That is, the electrical measuring instrument 100 of the present invention mainly includes a circuit board 103 provided with circuit elements and the like, and a shield plate 104 for shielding the circuit elements and the like provided on the circuit board 103 from external noise. The rotary switch device 10 is disposed between the shield plate 104 and the circuit board 103 and is provided with a rotary switch means 13 that is rotated by the rotary knob 11 to select the function of the measuring instrument. Yes.

  More specifically, in this embodiment, the digital multimeter 100 includes an upper case member 101 and a lower case member 102 as in the digital multimeter described in FIG. , 102, a circuit board 103 is disposed, and an upper shield plate 104 and a lower shield plate 105 formed of a conductive member are disposed on both sides thereof.

  As will be understood with reference also to FIGS. 2A, 2B and 2C showing an embodiment of the rotary switch device 10 having a characteristic configuration of the present invention, the rotary selector knob constituting the rotary switch device 10 That is, the rotary knob 11 is fixedly connected to the mounting hole 11a thereof at one end 12a of the rotation support shaft 12 provided integrally with the rotation switch means 13, and is different from the rotary knob 11 of the rotation support shaft 12. The opposite end 12 b is rotatably supported in a bearing hole 103 a of the circuit board 103. Therefore, the rotary switch means 13 is rotated by rotating the rotary knob 11.

  A detent mechanism (or click mechanism) 107 as shown in FIG. 7 is installed between the rotary knob 11 and the rotation switch means 13, and such a mechanism is well known to those skilled in the art. Because of this structure, it is not shown in FIG.

  According to this embodiment, the rotary switch means 13 of the rotary switch device 10 is for electrically contacting a rotary pattern contact (fixed contact member) 106 formed on the circuit board 103 as shown in FIG. It has a brush base 14 for mounting a rotary brush 16 which is a springy movable contact member. In the present embodiment, the brush base 14 includes an electrically insulating rotary brush support member 14a disposed on one side surface (the lower surface in FIG. 2A) of the brush base 14, and the brush base. 14 has a conductive brush base shield member 14b formed on the other side surface (upper surface in FIG. 2A) and integrally formed with the rotary brush support member 14a.

  In this embodiment, the rotary brush support member 14a functions as a base of the brush base 14, and is made of, for example, a synthetic resin such as polyacetal and has an approximate diameter (d) of 4 to 6 cm and a thickness ( t1) is a disk shape of 1 to 2 mm, and the rotary brush 16 is attached in a predetermined arrangement. As described above, the rotary brush 16 is in sliding contact with the rotary pattern contact 106 of the circuit board 103. In the present embodiment, the flange 15 is formed integrally with the rotary brush support member 14a around the rotary brush support member 14a, but this is not essential.

  As described above, each rotary brush 16 is configured to contact a contact (rotary pattern contact) 106 formed on the circuit board 103, for example, having a shape as shown in FIG. 5A. . In this embodiment, as shown in FIG. 2 (b), the rotary brush 16 has a mountain-shaped thin leaf spring contact member 16a formed in a fork and is fixed to the rotary brush support member 14a by an attachment base 16b. However, the shape of the rotary brush 16 is not limited to this.

  In this embodiment, the brush base shield member 14b is preferably made of a metal material, and in this embodiment, a thin disk-shaped copper, aluminum, steel, etc. having a thickness (t2) of 0.1 to 1 mm. Is used. In some cases, it can be made of a conductive resin material mixed with carbon or the like. The brush base shield member 14b can be formed integrally with the rotary brush support member 14a at the same time when the rotary brush support member 14a as a base is formed, but the rotary brush support member manufactured as a separate part. 14a and the brush base shield member 14b may be post-bonded or welded with an adhesive. Further, as described above, the brush base 14 has the rotation support shaft 12 penetrating the rotation center and fixed integrally therewith. However, the rotation support shaft 12 includes the rotary brush support member 14a integrally made of resin. Can be molded.

  Further, according to this embodiment, as shown in FIGS. 2A and 2C, one or a plurality of (two in this embodiment) shield connection brushes 17 are provided on the brush base shield member 14b. It is attached to the surface opposite to the brush 16. Similarly to the thin plate spring contact member used as the rotary brush 16, the shield connection brush 17 has a mountain-shaped thin plate spring contact member 17a formed on a fork and is fixed to the brush plate shield member 14b by a mounting base 17b. However, the shape of the rotary brush 17 is not limited to this.

  The shield connection brush 17 is in contact with the upper shield plate 104 outside the region of the opening 108 of the upper shield plate 104 in a state where the components of the digital multimeter 100 are assembled at predetermined operating positions. 17 is electrically connected to the upper shield plate 104. Although not shown, the upper shield plate 104 is electrically connected to the circuit GND of the circuit board 103 via a screw member or a lead wire as in the conventional meter.

  In the state where the rotary switch device 10 is incorporated in the digital multimeter, the rotary brush 16 of the rotary switch means 13 contacts the rotary pattern contact 106 of the circuit board 103 and the shield connection of the rotary switch means 13 as described above. The brush 17 contacts the upper shield plate 104. Therefore, if the rotary knob 11 is rotated, the rotation switch means 13 is rotated, the rotary brush 16 contacts a predetermined rotary pattern contact 106 of the circuit board 103 to switch the measurement function, and the shield connection brush 17 is It contacts the upper shield plate 104 and maintains that state. The rotation support shaft 12 has a small diameter (approximately 5 mm) with respect to the region (approximately 2 cm in diameter) of the opening 108 of the upper shield plate 104, and substantially the entire region of the opening 108 is formed by the brush base shield member 14b. It will be covered.

  As described above, according to the present embodiment, the region corresponding to the opening 108 of the upper shield plate 104 is substantially covered by the brush base shield member 14b of the rotary switch means 13, that is, in a closed state. The external noise signal through the opening 108 of the conventional upper shield plate 104 is blocked by the brush base shield member 14 b of the rotation switch means 13. Therefore, it is improved that the circuit board 103 is adversely affected by the external noise signal.

(Modified example)
In the above embodiment, the brush base 14 of the rotary switch means 13 is a disc-shaped rotary brush support member made of an electrically insulating member having an approximate diameter (d) of 4 to 6 cm and a thickness (t1) of 1 to 2 mm. 14a and the conductive brush base shield member 14b having a thickness (t2) of 0.1 to 1 mm have been described as being integrally joined, but in this embodiment, as shown in FIG. The brush base shield member 14b for supporting the brush 17 is made of a conductive member having an approximate diameter (d) of 4 to 6 cm and a thickness (t2) of about 1 to 2 mm, and the lower surface of the conductive brush base shield member 14b. Further, a thin disk-like rotary brush support member 14a, which is an electric insulating member having a thickness (t1) of about 0.1 to 1 mm, is integrally joined, and the rotary brush 16 is attached to the rotary brush support member 14a. It can also be a kick structure. That is, in this modified embodiment, the brush base shield member 14 b that supports the shield connection brush 17 functions as a base of the brush base 14.

  Such a configuration can also provide the same operational effects as the above-described embodiment.

Example 2
Next, a second embodiment of the electrical measuring instrument according to the present invention will be described.

  The overall configuration of the electrical measuring instrument 100 of the present embodiment is the same as the electrical measuring instrument 100 of the first embodiment described with reference to FIG. 1, and in this embodiment, the configuration of the rotary switch device 10 is different. Therefore, the rotary switch device 10 of this embodiment will be described in detail.

  4 (a) and 4 (b), in this embodiment, the brush switch 14 is on one side of the brush base 14 (FIG. 4 (a)). An electrically insulating rotary brush support member 14a disposed on the lower surface) and a rotary brush support member positioned on the other side surface (upper surface in FIG. 4A) of the brush base 14 14a, and a conductive brush base shield member 14b formed integrally with 14a.

  In this embodiment, the brush base shield member 14b functions as a base of the brush base 14, and is made of, for example, a conductive member and has an approximate diameter (d) of 4 to 6 cm and a thickness (t2). It is a disk shape of 1-2 mm. For the conductive member, copper, aluminum, steel, or the like is used, and in some cases, a conductive resin mixed with carbon or the like may be used. The rotary brush support member 14a joined to the lower surface of the brush base shield member 14b is made of a synthetic resin such as polyacetal having a thickness (t1) of about 0.1 to 1 mm.

  A rotary brush 16 is attached to the rotary brush support member 4a in a predetermined arrangement on the surface opposite to the brush base shield member 14b. Each rotary brush 16 is configured to contact a contact (rotary pattern contact) 106 formed on the circuit board 103 and having a shape as shown in FIG. 5B, for example.

  In the present embodiment, as shown in FIG. 4B, the rotary brush 16 has a mountain-shaped thin leaf spring contact member 16a formed in a bifurcated manner and fixed to the rotary brush support member 14a by a mounting base 16b. However, the shape of the rotary brush 16 is not limited to this.

  Further, a shield connection brush 17 is attached to the brush base shield member 14b. In the present embodiment, the shield connection brush 17 is disposed on the same side as the rotary brush 16 on the brush base 14, and the rotary brush support member 14a corresponding to the shield connection brush position is cut off (cutting region 18), and the shield. The connecting brush 17 is directly attached to the brush base shield member 14b. As with the rotary brush 16, the shield connection brush 17 has a mountain-shaped thin leaf spring contact member 17a formed on a fork and is fixed to the brush base shield member 14b by the mounting base 17b. The shape is not limited to this. This shield connection brush 17 is formed on the circuit board 103 in a state where the rotation switch means 13 is assembled at a predetermined operation position with respect to the circuit board 103. For example, as shown in FIG. In the movable range, it is configured so that the rotary pattern at the GND level, that is, the circuit GND pattern 109 is brought into contact with, and the shield connection brush 17, that is, the brush base shield member 14b is always at the same potential as the circuit GND.

  The brush base 14 is integrally provided with a rotation support shaft 12 at the center of rotation, and one end of the rotation support shaft 12, the upper end 12 a in FIG. 4A, is fixed to the mounting hole 11 a of the rotary knob 11. The other end, the lower end 12 b in FIG. 4A, is rotatably fitted in the bearing hole 103 a of the circuit board 103.

  In a state in which the rotary switch device 10 is incorporated in the digital multimeter 100, the rotary contact brush 16 of the rotary switch means 13 contacts the rotary pattern contact 106 of the circuit board 103 in FIG. The shield connection brush 17 of the means 13 contacts the circuit GND rotary pattern contact 109 which is one of the rotary pattern contacts of the circuit board 103. Accordingly, when the rotary knob 11 is rotated, the rotation switch means 13 is rotated, and the rotary contact brush 16 contacts the rotary pattern contact 106 of the circuit board 103 to switch the measurement function. In the movable range of the rotary knob 11, the shield connection brush 17 maintains the state where the brush base shield member 14b is connected to the circuit GND rotary pattern contact 109.

  As described above, according to the present embodiment, the region corresponding to the opening 108 of the upper shield plate 104 is substantially covered by the brush base shield member 14b of the rotary switch means 13, that is, in a closed state. The external noise signal through the opening 108 of the conventional upper shield plate 104 is blocked by the brush base shield member 14 b of the rotation switch means 13. Accordingly, it is possible to improve the circuit board 103 from being adversely affected by the external noise signal, and to realize better noise resistance performance.

Example 3
Next, a third embodiment of the electrical measuring instrument according to the present invention will be described.

  The overall configuration of the electrical measuring instrument 100 of the present embodiment is the same as the electrical measuring instrument 100 of the first embodiment described with reference to FIG. 1, and in this embodiment, the configuration of the rotary switch device 10 is different. Therefore, the rotary switch device 10 of this embodiment will be described in detail.

  6 (a) and 6 (b), in this embodiment, in the rotary switch device 13 of the rotary switch device 10, the brush base 14 is an electrically insulating rotary brush support member as in the second embodiment. 14a and a conductive brush base shield member 14b, but further differs in that it has an electrically insulating brush base 14c that supports these members integrally.

  That is, in this embodiment, as in the second embodiment, the brush base shield member 14b is made of a metal material, and usually has a diameter (d) of 4 to 6 cm and a thickness (t2) of about 0.1 to 1 mm of copper. Aluminum, steel, etc. are used. In some cases, it can be made of a conductive resin mixed with carbon or the like. Furthermore, the rotary brush support member 14a integrally joined to the lower surface of the brush base shield member 14b is made of a synthetic resin such as polyacetal having a thickness (t1) of about 0.1 to 1 mm.

  In particular, in this embodiment, the rotary brush support member 14a and the brush base shield member 14b are composed of, for example, polyacetal such that the thickness (t3) disposed on the brush base shield member 14b side is 1 to 2 mm. It is integrally held by an electrically insulating brush base 14c made of resin. In addition, although the flange 15 is formed in the outer periphery of the brush stand 14 so that it may protrude to the lower surface side of the brush base 14c, it is not essential.

  The brush base 14c, the brush base shield member 14b, and the rotary brush support member 14a can be integrally formed when the brush base 14c is molded. It can also be glued or welded afterwards.

  According to the present embodiment, the rotary brush 16 is attached to the rotary brush support member 14a in a predetermined arrangement on the surface opposite to the brush base shield member 14b. Each brush 16 is configured to contact a contact (rotary pattern) 106 formed on the circuit board 103 and having a shape as shown in FIG. 5B, for example.

  In this embodiment, as shown in FIG. 6 (b), the rotary brush 16 has a mountain-shaped thin leaf spring contact member 16a formed in a bifurcated manner and is fixed to the rotary brush support member 14a by a mounting base 16b. However, the shape of the brush is not limited to this.

  Further, a shield connection brush 17 is attached to the brush base shield member 14b. In the present embodiment, the shield connection brush 17 is disposed on the same side as the rotary brush 16 on the brush base 14, and the rotary brush support member 14a corresponding to the shield connection brush position is cut off (cutting region 18), and the shield. The connecting brush 17 is directly attached to the brush base shield member 14b. As with the rotary brush 16, the shield connection brush 17 has a mountain-shaped thin leaf spring contact member 17a formed on a fork and is fixed to the brush base shield member 14b by the mounting base 17b. The shape is not limited to this. This shield connection brush 17 is formed on the circuit board 103 in a state where the rotation switch means 13 is assembled at a predetermined operation position with respect to the circuit board 103. For example, as shown in FIG. In the movable range, it is configured so that the rotary pattern at the GND level, that is, the circuit GND pattern 109 is brought into contact with, and the shield connection brush 17, that is, the brush base shield member 14b is always at the same potential as the circuit GND.

  The brush base 14 is provided with a rotation support shaft 12 integrally at the center of rotation. The rotation support shaft 12 can be formed integrally with the brush base 14, but can also be produced as a separate member and fixed to the brush base 14 integrally later. One end of the rotation support shaft 12, the upper end 12 a in FIG. 6A is fixedly attached to the attachment hole 11 a of the rotary knob 11, and the other end, the lower end 12 b in FIG. The circuit board 103 is rotatably fitted in the bearing hole 103a.

  In the state where the rotary switch device 10 is incorporated in the digital multimeter 100, the rotary contact brush 16 of the rotary switch means 13 contacts the rotary pattern contact 106 of the circuit board 103 in FIG. The shield connection brush 17 of the means 13 contacts the circuit GND rotary pattern contact 109 which is one of the rotary pattern contacts of the circuit board 103. Accordingly, when the rotary knob 11 is rotated, the rotation switch means 13 is rotated, and the rotary contact brush 16 contacts the rotary pattern contact 106 of the circuit board 103 to switch the measurement function. In the movable range of the rotary knob 11, the shield connection brush 17 maintains the state where the brush base shield member 14b is connected to the circuit GND rotary pattern contact 109.

  As described above, according to the present embodiment, the region corresponding to the opening 108 of the upper shield plate 104 is substantially covered by the brush base shield member 14b of the rotary switch means 13, that is, in a closed state. The external noise signal through the opening 108 of the conventional upper shield plate 104 is blocked by the rotary switch means 13. Accordingly, it is possible to improve the circuit board 103 from being adversely affected by the external noise signal, and to realize better noise resistance performance.

DESCRIPTION OF SYMBOLS 10 Rotary switch apparatus 11 Rotary knob 12 Rotation support shaft 13 Rotation switch means 14 Brush stand 14a Rotary brush support member 14b Brush stand shield member 14c Brush stand base 16 Rotary brush 17 Shield connection brush 100 Electric measuring instrument 101 Upper case member 102 Bottom Case member 103 Circuit board 104 Upper shield plate 105 Lower shield plate 106 Rotary pattern contact 109 Circuit GND rotary pattern contact

Claims (3)

An electrical measuring instrument for measuring electrical parameters,
A rotary knob for selecting a measurement function of an electric measuring device, located between a circuit board provided with circuit elements and a shield plate for shielding the circuit elements provided on the circuit board. In an electrical measuring instrument equipped with a rotary switch device that is rotated by the rotary switch device, wherein a rotary brush device of the rotary switch device is in electrical contact with a rotary pattern contact of the circuit board.
The rotation switch means includes a brush base that supports the rotary brush,
The brush base is a rotary brush support member made of an electrically insulating material for mounting the rotary brush, and is located on the side of the rotary brush support member facing the shield plate and integrated with the rotary brush support member. A conductive brush base shield member formed on
The brush base shield member is electrically connected to the shield plate with a shield connection brush attached to the brush base shield member.
An electrical measuring instrument characterized by that. An electrical measuring instrument for measuring electrical parameters,
A rotary knob for selecting a measurement function of an electric measuring device, located between a circuit board provided with circuit elements and a shield plate for shielding the circuit elements provided on the circuit board. In an electrical measuring instrument equipped with a rotary switch device that is rotated by the rotary switch device, wherein a rotary brush device of the rotary switch device is in electrical contact with a rotary pattern contact of the circuit board.
The rotation switch means includes a brush base that supports the rotary brush,
The brush base is a rotary brush support member made of an electrically insulating material for mounting the rotary brush, and is located on the side of the rotary brush support member facing the shield plate and integrated with the rotary brush support member. A conductive brush base shield member formed on
The brush base shield member is electrically connected to a circuit GND rotary pattern contact formed as one of the rotary pattern contacts on the circuit board by a shield connection brush attached to the brush base shield member.
An electrical measuring instrument characterized by that.   The brush base has a brush base base formed of an electrically insulating material, and is located on a side opposite to the side facing the shield plate of the brush base base, and the brush base base The electric measuring instrument according to claim 2, wherein the brush base shield member and the rotary brush support member are formed integrally with each other.

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