JPH0620981Y2 - Powder detector - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial field of application] The present invention relates to a device for detecting powder such as toner in a copying machine, and in particular, by suppressing vibration of a piezoelectric vibrating body by the powder. The present invention relates to a powder detector that detects the level of.

[Conventional technology]

FIG. 2 shows a conventional powder detector. The powder detector 1 is
It is configured using the resin case 2. Resin case 2
Is attached to the outside of the tubular portion 3 having openings on both sides.
Has a structure integrally formed. In the mounting part 4,
An attachment hole 5 is formed, and the attachment hole 5 is used to attach to a container filled with powder such as a toner box.

A flexible film 6 is attached so as to close one opening of the tubular portion 3. The flexible film 6 constitutes a portion in contact with the powder, and is provided to separate the piezoelectric vibrating body described later from the powder. A piezoelectric vibrating body 7 is fixed inside the flexible film 6. The piezoelectric vibrating body 7 has a structure in which a piezoelectric ceramic plate 9 having excitation electrodes formed on the front and back surfaces is attached to a dish-shaped vibrating plate 8 made of metal.

In addition, reference numerals 10 to 12 denote lead wires, and a substrate 13 fixed so as to close an opening formed on the other side of the tubular portion 3.
It is electrically connected to the upper conductive pattern. Further, various circuit components are mounted on the board 13.

Further, in order to prevent the vibration of the attachment target side from being transmitted to the detector side when fixing the powder detector 1 to the attachment target portion, and to prevent the powder from leaking from the attachment target side, A rubber sheet 14 is arranged inside the mounting portion 4, and is configured to be fixed to a container or the like via the rubber sheet 14.

[Problems to be solved by the invention]

When the powder detector 1 of FIG. 2 is fixed to a container filled with powder such as a toner box, the mounting portion 4
A bolt or the like is inserted into the mounting hole 5 of and fixed. Therefore,
At the time of fixing, the resin case 2 tends to be distorted or deformed by the tightening force of bolts or the like. As a result, distortion and deformation extend to the fixed part of the flexible film 6, and there is a problem that the characteristics of the powder detector change according to the tightening amount when fixing.

In addition to the above tightening force, the characteristics tend to change when the resin case 2 is pressed with a finger. Therefore,
Even after being fixed, there was a tendency for malfunction due to contact with a finger or another object.

However, if the case is formed by die casting instead of the resin case 2, the above problems can be solved. However, die casting is quite expensive,
The cost of the powder detector is very high.

Therefore, an object of the present invention is to provide an inexpensive powder detector that can effectively eliminate characteristic changes due to external force, tightening force during fixing, and the like.

[Means for solving problems]

The powder detector of the present invention is configured by using a resin case having a tubular portion and an attachment portion which is integrally formed on the outside of the tubular portion and has an attachment hole. A flexible film in contact with the powder is fixed so as to close the opening of the tubular portion. The piezoelectric vibrating body is attached to the flexible film.

Further, a reinforcing rib for preventing deformation of the cylindrical portion due to stress applied from the mounting portion at the time of mounting is integrally formed in the cylindrical portion, and the mounting portion is provided with the reinforcing rib. It is extended on the outside of the existing part.

[Action]

The resin case is reinforced by integrally providing the resin case with a reinforcing rib that opposes the stress from the mounting portion side of the tubular portion at the portion where the mounting portion extends to the outside thereof. Therefore, it is possible to prevent the deformation of the resin case due to the stress from the mounting portion side.

[Explanation of Examples]

FIG. 1 is a sectional view of an embodiment of the present invention. The powder detector 21 is configured by using a resin case 22 made of synthetic resin which is less expensive than die casting or the like. The resin case 22 has a tubular portion 23 and a mounting portion 24 integrally formed on the outside of the tubular portion.

Referring to FIGS. 3 and 4 together with FIG. 1, the cylindrical portion 23 is a cylindrical first cylindrical portion 23a having a relatively small diameter.
And a second tubular portion 23b formed of a rectangular tubular body having a relatively large diameter.

A flexible film 26 is fixed to one opening of the tubular portion 23 so as to close the opening. The piezoelectric vibrating body 27 is fixed inside the flexible film 26.
The piezoelectric vibrating body 27 includes a dish-shaped diaphragm 28 and a dish-shaped diaphragm 2.
8 and the piezoelectric ceramic plate 29 fixed to it. Thirty
Reference numerals 32 to 32 denote lead wires, which are in contact with the electrodes and the return electrodes formed on the front and back surfaces of the piezoelectric ceramic plate 29.

On the other hand, the circuit board 33 is fixed so as to close the opening below the second tubular portion 23b, and the circuit components shown in the figure are mounted inside the circuit board 33. Lead wire 30
To 32 are electrically connected to the conductive patterns on the circuit board 33, respectively. Reference numeral 34 designates a rubber sheet, which is provided to block vibration from the container side when attached to a container filled with powder such as toner and to prevent leakage of the powder. It is a thing.

By the way, the reinforcing rib 3 is provided inside the second tubular body 23b.
5 are provided. As shown in FIG. 3 and FIG. 4 which are a plan view and a half cross-sectional view of the resin case 22, the reinforcing ribs 35 are provided so as to be stretched over the inner wall of the corner portion of the rectangular tubular body. Has been. The reinforcing rib 3
Although 5 is formed integrally with the resin case 22 by the same material, it is shown by hatching of a plurality of points for convenience of understanding. Further, the mounting portion 24 is extended just outside the portion of the second tubular portion 23b where the reinforcing rib 35 is provided. That is, the reinforcing rib 35
And the mounting portions 24 are provided at substantially the same height position. Therefore, at the time of mounting, even if a stress generated when a bolt or the like is inserted into the mounting hole 25 of the mounting portion 24 and tightened is applied to the tubular portion 23 side, the reinforcing rib 35 can antagonize the stress. The resin case 22 is reinforced. Therefore, it is possible to effectively prevent the resin case 22 from being deformed or distorted due to a tightening force of a bolt or the like at the time of mounting.

The reinforcing rib 35 may be configured so as to be able to antagonize the stress from the mounting portion 24 side, and does not necessarily have to be configured to span the inner wall of the corner portion of the rectangular tubular body as illustrated. For example, when viewed from above, it is possible to form a cross-shaped or lattice-shaped reinforcing rib in the second tubular portion 23b.

Further, as in the above embodiment, it is preferable that the height position of the reinforcing rib 35 is substantially the same as that of the mounting portion 24, but the reinforcing rib is arranged at a position slightly shifted in the height direction. Good.

Further, in the above-described embodiment, the first tubular portion 23a, which is the detection portion, and the tubular portion 23b having a different diameter are formed, and the second tubular portion 2 is formed.
The mounting portion 24 was integrally formed on the 3b side. By providing the detection portion on the tubular portion 23a having a diameter different from that of the mounting portion as described above, it is possible to more effectively prevent the stress from the mounting portion from being transmitted to the detection portion, but it is not always necessary to use a tubular portion having a different diameter. It is not necessary to connect them, and it is possible to configure the tubular portion by using a cylindrical body or a rectangular tubular body having the same diameter.

[Effect of device]

As described above, in the present invention, since the resin case is effectively reinforced by the reinforcing ribs inside the tubular portion in the portion where the mounting portion extends to the outside of the tubular portion, the resin case is added from the mounting portion at the time of mounting. The resin case is less likely to be deformed or distorted by the applied stress, so that it is possible to inexpensively configure the powder detector with less characteristic change and excellent in reliability.

[Brief description of drawings]

FIG. 1 is a sectional view of an embodiment of the present invention, FIG. 2 is a sectional view of a conventional example, and FIGS. 3 and 4 are plan views of a resin case used in the embodiment of FIG. 1 and in FIG. FIG. 4 is a front view of a half section taken along line IV-IV of FIG. In the figure, 21 is a powder detector, 22 is a resin case, 2
3 is a tubular portion, 23a is a first tubular portion, 23b is a second tubular portion, 24 is a mounting portion, 25 is a mounting hole, 26 is a flexible film, 27 is a piezoelectric vibrating body, and 35 is a reinforcing member. Shows ribs.

Continuation of the front page (56) References Open 621-213519 (JP, U) Open 62-115630 (JP, U) Open 57-160634 (JP, U)

Claims (3)

[Scope of utility model registration request] 1. A resin case having a tubular portion having an opening in at least one side and a mounting portion integrally formed outside the tubular portion and having a mounting hole, and one of the tubular portion. In a powder detector including a flexible film which is fixed so as to close an opening and is provided so as to be in contact with powder, and a piezoelectric vibrating body attached to the flexible film. In the tubular portion of the resin case, a reinforcing rib for preventing deformation of the tubular portion due to stress applied from the attaching portion at the time of attachment is integrally formed, and the attaching portion has the reinforcing rib. A powder detector characterized in that the powder detector is extended outside the tubular portion outside the provided portion. 2. The tubular portion of the resin case has a first tubular portion having an opening closed by a flexible film, a diameter different from that of the first tubular portion, and a first tubular portion. A second tubular portion provided so as to be continuous with the tubular portion, the attachment portion is integrally formed with the second tubular portion, and the reinforcing rib is provided in the second tubular portion. The powder detector according to claim 1, which is provided in 1. 3. The utility model registration claim 2 in which the second tubular portion is a rectangular tubular body, and the reinforcing ribs are provided so as to span between inner walls on both sides of the rectangular tubular body. The powder detector described.