JP2886177B2 - Dental automatic cup waterer - Google Patents

Description

Description: FIELD OF THE INVENTION The present invention relates to an automatic dental cup waterer.

[Conventional technology]

When supplying water to a gargle cup used for dental treatment, a cup cradle is provided at a position accessible to the patient from the treatment chair, and the cup placed on this cup cradle is automatically A device for supplying an appropriate amount of water has been proposed and implemented.

An example thereof is an automatic cup watering device shown in FIGS. 6 and 7, which perforates a through hole 4 in a bottom wall 2 of a mounting box 1 as described in Japanese Utility Model Publication No. 56-4006. The lower part of the tubular body 5 having the flange 7 is inserted into the through hole 4, and the nut 9 is screwed into the male screw 8 engraved on the lower exposed portion 13 of the tubular body 5. Position it inside and attach it
A cap 25 is placed over the mounting box 1 and the mounting box 1 is mounted.
The outer peripheral projection 23 and the inner peripheral projection 22 of the support tube 25 are locked to prevent disengagement, and a pressing spring 24 is inserted between the mounting housing 1 and the support tube 25 to thereby remove the mounting housing 1 from the mounting housing 1. A cylinder 25 is elastically mounted on the body 1, and a reed switch 10 is sealed in the tube 5.
The permanent magnets 27, 27 are disposed between the support tube 25 and the pipe 26, and the fixed terminal 16 of the solenoid valve is connected to the lead wire 11 connected to each pole of the reed switch 10. And an automatic cup watering device for a dental unit comprising a lead wire 12 and a wire ring 17 of an electromagnetic valve and a switch 16. or,
As shown in FIG. 7, when the cup 28 is not on the receiving cylinder 21, the lowering of the receiving cylinder 21 is controlled by the elasticity of the pressing spring 24 of the receiving cylinder 21 and the permanent magnet 27, as shown in FIG. , The releasable switch 10 is in a position where the relatively free end is away from the reed switch 10, and the reed switch 10 is in an OFF (open) state. Next, when the cup 28 is placed on the receiving cylinder 21, the pressing spring 24 by the weight of the cup 28 causes the receiving cylinder 21 and the permanent magnet 27, due to the weight of the cup 28, to oppose the resilient force of the pressing spring 24. The permanent magnet 27 descends and the reed switch 10 is in a relative state, and the reed switch 10 is turned on (closed). Reed switch 10 is ON
(Closed), the relay 15 for delay operates, and the excitation of the relay 15 for delay attracts the movable contact 18 to fix the fixed terminal 16.
Is closed, the wire of the solenoid valve 14 is energized, the solenoid valve 14 is opened, and the cup 28 is automatically supplied with water.

When a certain amount of water is supplied to the cup 28, the weight of the cup 28,
Due to the weight of the injected water, the compression is performed against the resilience of the pressing spring 24, and the receiving cylinder 21, the support cylinder 25, and the permanent magnet 27 further descend. This lowering causes the permanent magnet 27 to turn the reed switch 10 OFF (open), and the delay relay 1
5 is de-energized and the solenoid valve 1 is
The energization of 5 is also stopped, the coil of the solenoid valve 14 is demagnetized, and the solenoid valve 14 is closed to stop water supply. Cup 28 for gargle washing
Is removed from the receiving cylinder 21, the receiving cylinder 21, the support 25 and the permanent magnet 27 are raised by the elastic force of the pressing spring 24, and the cup 28 returns to a state where it is not placed on the receiving cylinder 21. .

[Problems to be solved by the invention]

However, in this type of conventional automatic cup water supply device, the cup detection for detecting that the cup 28 is placed on the receiving cylinder 21 and the water supply amount detection are performed mechanically through the elastic force of the pressing spring 24. Because it relies on the on / off operation of the contacts and the photoelectric switch, chattering is likely to occur, lacking reliability, and causing a major failure.

Further, it is necessary to perform the detection for two points, that is, whether or not the cup 28 on the receiving cylinder 21 (whether or not the cup 28 is empty) and whether or not a predetermined amount of water has been supplied to the cup 28. A complicated spring mechanism is used, such as using a dedicated spring for each detection, or using a combination thereof. Therefore, even when the photoelectric switch is used, there is a disadvantage that the measurement accuracy is low.

Furthermore, it is necessary to take a large spring deflection stroke for detecting the cup 28 and detecting the amount of supplied water, and there is a disadvantage that the size is increased.

In addition, from the standpoint of preventing infections such as hepatitis and AIDS, which have recently become a social problem, the flattening of the surface of the receiving cylinder 21 of the cup 28 is required from the cleaning side, but the conventional configuration requiring a large stroke is required. Had disadvantages such as difficulty in handling.

Therefore, the present invention has been developed in view of the above-mentioned drawbacks of the conventional automatic cup water supply apparatus, and provides a small-sized automatic cup water supply apparatus having a simple structure, high reliability and a flattened cup holder. It is intended for.

[Means to solve the problem]

According to the present invention, a base is provided with a strain gauge, an elastic beam having a stud provided in the center thereof is stretched, and a cup receiving sheet having a projection projecting from the center is disposed above the elastic beam. An automatic cup watering device for dental use, characterized in that the bending of the cup receiving sheet can be transmitted from the projection to the strain gauge disposed on the elastic beam via the stud.

[Action]

The present invention transmits the deflection of the cup receiving sheet to the elastic beam from the protruding portion via the stud to perform the cup detection and the water supply amount detection. Therefore, it is intended to eliminate malfunction due to chattering and improve reliability. In addition to detecting the change in strain, elastic beams with strain gauges can be used to simplify and reduce the size of the structure, and any bending can be obtained by selecting the material and shape of the elastic beams. The flattening of the cup receiving sheet can be easily achieved.

[Embodiment] An embodiment of the dental automatic cup water supply apparatus of the present invention will be described below with reference to the drawings.

FIG. 1 is a longitudinal sectional view showing one embodiment of the automatic dental cup water supply device of the present invention, FIG. 2 is a plan view showing a state in which a cup receiving sheet is removed, and FIGS. 3a to 3f are plan views of elastic beams. 4th
FIG. 5 is a circuit diagram of a strain gauge, and FIG. 5 is a circuit diagram showing an example of an electric circuit configuration of the automatic dental cup waterer of the present invention.

In the drawing, reference numeral 30 denotes a cylindrical base.
The retaining edge 31 of the elastic beam 40 is provided on the inner periphery of the upper opening edge, and the engaging edge 32 of the upper body 50 and the engaging flange 33 of the O-ring 60 are protruded on the outer periphery thereof, and the lower opening portion has Is formed by attaching a printed board 61 with screws 62.

The elastic beam 40 is mounted on the holding edge 31 of the base 30 with a stopper plate 34 mounted between the upper and lower collars 35 and 36 while holding the annular portion 41 therebetween.

Further, the upper body 50 is formed by fitting and fixing the engaging edge 32 of the base 30 and providing an engaging groove 51 of the cup receiving sheet 70 and an engaging edge 52 of the O-ring 60 on the outer periphery. I have.

As shown in FIGS. 2 and 3a, the elastic beam 40 is formed by a cross-shaped beam portion 42 and an annular portion 41 connecting the open ends 42a of the beam portion 42 and has elasticity. It is integrally formed of metal and non-metallic material.

Reference numeral 43 denotes a temperature compensating beam, and reference numeral 44 denotes a mounting hole for the stud 45.

FIGS. 3b to 3f show another configuration example different from the elastic beam 40 shown in FIG. 3a. The elastic beam 40 shown in FIG.
The beams 46 are arranged radially, and one end of each beam 46 is connected at the center and the other end is connected at the annular portion 41 to be integrally formed.

FIG. 3C is different from the elastic beam 40 of FIG. 3B in that each beam 47 is formed in a spiral shape, and the other configuration is the same.

FIG. 3d shows a case where the beam is formed integrally with a disc-shaped beam plate 48, and FIG. 3e shows an end portion 49 of a rectangular cantilever 49.
FIG. 3F shows a configuration in which an end portion 49a of a rectangular cantilever 49 is used as a mounting portion for mounting to the base 30 when a is connected to the annular portion 41. Also,
Each of the elastic beams 40 shown in FIGS.
The base 30 is held by the holding edge 31 of the base 30 through
It is to be attached to.

Further, the point that the stud 45 is attached to the mounting hole 44 at the center or the tip of each elastic beam 40 in FIGS. 3b to 3f is the same as the elastic beam 40 in FIG. 3a. It should be noted that the stud 45 can be formed integrally with the elastic beams 40 using the same member as when formed separately.

The cup receiving sheet 70 is provided with a mounting concave portion 71 for a cup 76 at the center and a projecting portion 72 for abutting the stud 45 of the elastic beam 40 on the center rear surface of the concave portion 71, and the outer periphery is provided. The part is provided with an annular engaging edge 73 that engages with the engaging groove 51, so that an elastic material having water resistance, chemical resistance, and heat resistance (however, an elastic material having a small longitudinal elastic modulus is preferable) is integrally formed. Is formed.

Then, as shown in FIG.
The engaging edge 73 is engaged with the engaging groove 51 of the upper body 50 so that the stud 45 of the elastic beam 40 abuts the projection 72 at the center with the upper body 50 of the base 30. It is detachably fitted.

Further, among the cross beams 42 of the elastic beam 40 (shown in FIGS. 1 and 3a), stray gauges 48a, 48b are attached to the surfaces of the vertical beams 42b, 42c, and the horizontal beams 42d. , 42e are provided with stray gauges 48c, 48d attached to the rear surfaces thereof.

Now, in the automatic cup watering device having the above-described configuration, in a state where the cup 76 is not placed on the cup receiving sheet 70, the elastic beam 40 is flat and no distortion occurs in the beam portion 42, but the cup 76 is loaded. When this is done, the distortion due to the weight of the cup 76 is caused by the protrusion 72 of the cup receiving sheet 70 and the stud 45
Is transmitted to the beam portion 42 via the fin, the strain is generated in the elastic beam 40, and the water is further supplied to the cup 76, so that the strain is further increased.

Thus, the apparatus of the present invention utilizes the occurrence and increase of the strain in the elastic beam 40 associated with the cup mounting operation on the cup receiving sheet 70 and the water supply operation for the cup as described above, and the The operation is automatically detected by substituting electrical changes through strain gauges 48a to 48d attached to the parts 42b to 42e.

That is, as shown in FIG. ₄ , when a bridge power is applied between 91 and 93 of a Wheatstone bridge circuit 95 composed of _four strain gauges Rg ₁ , Rg ₂ , Rg ₃ and Rg ₄ , a slight change in resistance of each gauge ΔRg The output voltage between 92 and 94 of the Wheatstone bridge circuit 95 also changes by Δe according to ₁ , ΔRg ₂ , ΔRg ₃ and ΔRg ₄ .

Therefore, if the resistance value of each strain gauge of the bridge circuit 95 is Rg ₁ = Rg ₂ = Rg ₃ = Rg ₄ Becomes

Furthermore, if strain gage Rg ₂ and Rg ₄ of each strain gage 48 is attached on the back side of the beam portion 42 of the resilient beams 40 in the embodiment, minimal change [Delta] rg ₂ and ΔR
g ₄ undergoes a compression change Becomes

Therefore, it is apparent that by previously recording and setting the output voltage according to the glass 76 and the amount of water supply, the detection of the glass 76 and the amount of water supply in the apparatus can be accurately and automatically detected.

FIG. 5 shows an embodiment of an electrical circuit configuration when the above principle is applied to a device having the above configuration.

The operation of the circuit configuration shown in FIG. 5 will be described below.

First, a DC power supply of several volts is applied to the bridge circuit 95, and an output voltage corresponding to the weight of the glass 76 and the amount of water supply is set in advance in the glass weight setting circuit 80 and the water supply amount setting circuit 81.

Thereafter, when the cup 76 is placed on the cup receiving sheet 70, a bridge output e is generated, and the amplifier 76 amplifies the bridge output e by a factor of several hundreds.

This is compared with the set values of the setting circuits 80 and 81 by the comparison circuits 83 and 84, and when the weight is equal to or more than the weight of the cup 76 and less than the set water supply amount, the water supply solenoid valve driving circuit 85 is turned on, and the water supply solenoid valve 86 is opened. The water supply is started.

The output e of the bridge circuit 95 increases in proportion to the progress of the water supply, and when it becomes equal to the set value, the comparison circuit 84 turns off the water supply solenoid valve drive circuit 85.

Thereby, the water supply electromagnetic valve 20 is opened, and the glass water supply is completed.

Hereinafter, by the same operation, the detection of the glass 76 and the water supply operation can be repeatedly performed.

In FIGS. 4 and 5, a bridge circuit for the case where the number of strain gauges 48 provided for the elastic beam 40 is four is shown.
95, one or more of the plurality of string gauges 48 are applied to each of the elastic beams 40 shown in FIGS.
And the same implementation as described above is possible while configuring a bridge circuit or a circuit that can be replaced with such a circuit.

The circuit configuration other than the bridge circuit 95 is not limited to the circuit shown in FIG. 5, and it is needless to say that an embodiment in which a change in amplification factor and a design change in a temperature compensation circuit and the like are added is possible.

〔The invention's effect〕

As is clear from the above description, according to the present invention, cup detection and water supply amount detection, bending of the cup receiving sheet,
By transmitting the light from the protrusion to the elastic beam via the stud, malfunctions due to chattering, which was a disadvantage when using a conventional spring, can be eliminated, and highly reliable detection can be performed. it can.

Further, for detecting a change in strain, it is possible to use a single elastic beam provided with a strain gauge, and to provide a small-sized device with a simple structure at low cost.

Furthermore, by selecting and examining the material and shape of the elastic beam, any bending can be obtained, and flattening of the cup receiving portion can be easily realized.

[Brief description of the drawings]

FIG. 1 is a longitudinal sectional view showing one embodiment of the automatic dental cup water supply device of the present invention, FIG. 2 is a plan view showing a state in which a cup receiving sheet is removed, and FIGS. 3a to 3f are plan views of elastic beams. FIG. 4 is a circuit diagram of a strain gauge, FIG. 5 is a circuit diagram showing an example of an electric circuit configuration of the automatic dental cup waterer of the present invention,
FIG. 6 is a cross-sectional view of a conventional automatic cup water supply device, and FIG. 7 is an explanatory view of the same operation. 30 ... Base 40 ... Elastic beam 45 ... Stud 48 ... Strain gauge 70 ... Cup receiving sheet 72 ... Protrusion

──────────────────────────────────────────────────続 き Continued on front page (58) Field surveyed (Int. Cl. ⁶ , DB name) A61C 17/00

Claims (7)

(57) [Claims] An elastic beam having a strain gauge and a stud provided in the center thereof is stretched on a base, and a cup receiving sheet having a projection projecting from the center is disposed above the elastic beam. An automatic cup watering device for dental use, characterized in that the bending of the cup receiving sheet can be transmitted from the projection to the strain gauge disposed on the elastic beam via the stud. 2. An automatic dental cup waterer according to claim 1, wherein said cup receiving sheet is formed of an elastic sheet having water resistance, chemical resistance and heat resistance. 3. The elastic beam according to claim 1, wherein a cross-shaped beam and an open end of the beam are connected by an annular portion and the annular portion is held on the base. Item 6. An automatic dental cup waterer according to Item 1. 4. The elastic beam is characterized in that one or more beam portions and an open end of the beam portion are connected by an annular portion and the annular portion is held on the base. An automatic dental cup waterer according to claim 1. 5. The elastic beam connects a beam portion where a plurality of beams intersect at the center on the same plane and an open end of each beam of the beam portion by an annular portion, and holds the annular portion on the base. The automatic dental cup waterer according to claim 1, wherein the water supply device is configured by: 6. The dental automatic cup according to claim 1, wherein said elastic beam is formed by a disk-shaped beam plate and an outer peripheral portion of said beam plate is held on said base. Water supply device. 7. The storage device according to claim 1, wherein the elastic beam is formed by integrally providing a stud portion for receiving bending of the cup receiving sheet. Automatic dental cup waterer.