KR101405529B1 - Apparatus and method for diaphragm - Google Patents

Abstract

The present invention relates to a diaphragm inspecting apparatus and a method for inspecting a diaphragm, the diaphragm inspecting apparatus comprising: a thin film main body; a flange portion formed at an edge of the thin film main body to be coupled to a case of the water level detecting sensor when assembling the water level detecting sensor; A diaphragm provided with a gripping member extending in the radial direction and removed after completion of the inspection, the diaphragm having a pneumatic supply unit therein, a jig unit provided at an edge of the pneumatic supply unit and having a gripper for gripping the diaphragm, A pneumatic pressure supply unit installed in the pneumatic pressure supply unit for supplying pneumatic pressure to the pneumatic pressure supply unit and a discrimination unit provided in the jig unit for measuring the pressure change of the pneumatic pressure supply unit to discriminate the presence or absence of the diaphragm.
The diaphragm inspection apparatus and the inspection method according to the present invention are advantageous in that it is possible to fundamentally prevent defects in the water level sensor caused by damage to the flange member formed around the thin membrane body of the diaphragm.

Description

[0001] Apparatus and method for diaphragm [0002]

The present invention relates to a diaphragm inspecting apparatus and an inspecting method, and more particularly, to a diaphragm inspecting apparatus and method for inspecting a diaphragm installed in a water level sensor using pneumatic pressure.

The water level sensor for washing machine is a sensor that is used to automatically control the water supply amount automatically when the water is supplied to the washing machine of the automatic washing machine.

A typical structure is a bobbin having a coil wound therein, a case having a bobbin coupled thereto, a mandrel having a waveguide core running up and down in the bobbin, a diaphragm actuating the mandrel by the air pressure at the time of supplying water to the washer, It is assembled with a petan electronic circuit board which detects the change of the magnetic force and the induced electromotive force according to the change of the adjusting spring, the adjusting screw, and the area where the coil and the core meet, and transmits it to the CPU of the washing machine.

Such a water level sensor is variously disclosed in Registration Practical Utility Model No. 0293894 and Korean Patent Publication No. 2002-0056278. The water level sensing device is configured such that when the water level of the wash water supplied into the washing tub rises, the air pressure applied through the hose and the fluid inlet communicating with the washing tub is increased, thereby raising the diaphragm while overcoming the elasticity of the compression coil spring .

Therefore, the perfection of the diaphragm is very important to improve the accuracy of the water level sensor. Korean Patent Laid-Open Publication No. 1995-0022682 discloses a method of detecting the presence or absence of a level sensor in a washing machine. However, the method of detecting the presence or absence of the level sensor of the washing machine can not solve the fundamental problem caused in the process of manufacturing the sensor since the level sensor is attached to the washing machine.

It is an object of the present invention to provide a diaphragm inspection apparatus and a diaphragm inspection apparatus capable of fundamentally solving a diaphragm defect so as to determine whether a diaphragm is defective when producing the diaphragm, The purpose is to provide a method.

The diaphragm inspection apparatus for attaining the above object comprises a thin film body, a flange portion formed at an edge of the thin film body and coupled to the case of the level sensor at the time of assembling the level sensor, A jig unit provided with a pneumatic pressure supply unit therein and provided with a gripping portion at an edge of the pneumatic supply unit so as to grip the diaphragm holding member, A pneumatic supply unit installed in the pneumatic supply unit to supply pneumatic pressure to the pneumatic supply unit; and a determination unit installed in the jig unit to measure a change in pressure of the pneumatic supply unit to determine whether the diaphragm is defective.

The jig unit further includes a lower jig on which the diaphragm is seated and an upper jig coupled to an upper portion of the lower sheet so as to grasp the diaphragm, And is drawn downward from the upper surface of the lower paper so that high pressure air supplied from the pneumatic supply unit can be introduced.

Wherein the grip portion is provided on a lower surface of the lower jig outside the pneumatic supply portion and includes a lower contact surface formed with a first gripping groove for inserting a lower portion of the gripping member of the diaphragm, And an upper contact surface having a second gripping groove for inserting an upper portion of the gripping member of the diaphragm.

The upper jig is formed with an intake space upwardly inserted into a lower surface opposed to the pneumatic supply unit so as to prevent interference with the diaphragm when the diaphragm is deformed by the pneumatic pressure of the pneumatic supply unit.

The diaphragm inspection method according to the present invention comprises a thin film body, a flange portion formed at the edge of the thin film body and coupled to the case of the level sensor at the time of assembling the level sensor, A method of inspecting a diaphragm provided with a grip member to be removed after completion of inspection, comprising: a first cutting step of grouping and cutting the molded diaphragms; a sealing step of holding and sealing the gripping members of the cut diaphragms, And a second cutting step of cutting the gripping member of the diaphragm that has passed the inspection and has passed the inspection.

Wherein the sealing step includes a step of mounting the diaphragm on a lower surface provided with a pneumatic supply portion at a central portion thereof and a grip portion provided at an edge of the pneumatic supply portion and installing the diaphragm on the grip portion, And a coupling step of coupling the upper jig to the lower jig for grasping and sealing the diaphragm seated on the lower jig, wherein the inspecting step comprises the steps of: passing the inner pressure of the pneumatic supply part through the pneumatic supply unit And a determination step of determining whether the diaphragm is defective by measuring a change in pressure in the pneumatic supply part when supplying air to the pneumatic supply part is completed.

The diaphragm inspection apparatus and the inspection method according to the present invention are advantageous in that it is possible to fundamentally prevent defects in the water level sensor caused by damage to the flange member formed around the thin membrane body of the diaphragm.

1 is a perspective view of a diaphragm to be inspected in a diaphragm testing apparatus according to the present invention,
2 is a perspective view of a diaphragm testing apparatus according to an embodiment of the present invention,
3 is a cross-sectional view of the diaphragm testing apparatus of FIG.

Hereinafter, a diaphragm testing apparatus and a testing method according to the present invention will be described in detail with reference to the accompanying drawings.

1 shows a diaphragm 10 applied to the present diaphragm inspection apparatus.

The diaphragm 10 includes a thin film body 11, a flange portion 12 formed at an edge of the thin film body 11, and a gripping member 12 extending radially from the flange portion 12 13).

The thin film main body 11 has a membrane member 14 formed in a disk shape having a predetermined thickness and a bellows 15 extending along the edge of the membrane member 14 and formed downwardly convex. The flange portion 12 extends along the edge of the bellows 15 and is fixedly coupled to the case of the water level sensor during the assembly of the water level sensor. The flange portion 12 is formed to have a cross-sectional shape. The grip member 13 is formed to extend along the edge of the flange portion 12 and has one end larger in cross section as the flange portion 12 is farther from the flange portion 12. The other end portion is more distant from the flange portion 12 So that the cross section becomes smaller. The gripping member 13 is removed after the diaphragm 10 is inspected. It is preferable that the diaphragm 10 be formed so that the gripping member 13 is provided at the time of molding.

2 and 3 show a diaphragm testing apparatus 100 according to the present invention.

Referring to the drawings, a diaphragm testing apparatus 100 includes a jig unit 200 for holding the diaphragm 10, a pneumatic supply unit 200 for supplying pneumatic pressure to the diaphragm 10 held by the jig unit 200, And a determination unit 400 for determining whether or not the diaphragm 10 is defective.

The jig unit 200 includes a lower jig 210 on which the diaphragm 10 is seated, an upper jig 220 coupled to the upper portion of the lower jig 210, 230 and a gripping part 240 formed at the edge of the pneumatic supply part 230.

The lower jig 210 is fixed to the upper surface of the frame 201, and the diaphragm 10 is seated on the upper surface thereof. The lower jig 210 is formed with a supply passage 211 communicating with the pneumatic supply part 230 so as to inject high pressure air into the pneumatic supply part 230. The end of the supply channel 211 may be opened to the side of the lower jig 210 so that the supply channel 211 can be easily coupled to the pneumatic supply unit 300.

In the example shown in the drawing, six pneumatic supply portions 230 are formed on the lower jig 210 so that six diaphragms 10 can be inspected simultaneously. However, the lower jig 210 is limited to the illustrated example But less than six or more pneumatic feeds 230 may be formed.

In addition, guide rods are formed on both ends of the upper surface of the lower jig 210 to guide the upper jig 220, respectively. The guide bar is formed into a round bar having a predetermined outer diameter and is formed to protrude upward.

The upper jig 220 is formed to have a size corresponding to the lower jig 210 and is lifted and lowered from the upper side of the lower jig 210 by an elevating and lowering unit (not shown) to be separated and joined to the lower jig 210. On the upper surface of the upper jig 220 opposed to the pneumatic supply part 230 formed on the lower jig 210, the diaphragm 10 is pushed upward by the high pressure air supplied to the pneumatic supply part 230, An inlet space 221 is provided at the upper side to prevent interference with the inlet 10.

The pneumatic supply part 230 is hermetically sealed by the diaphragm 10 held by the grip part 240 when the upper jig 220 and the lower jig 210 are coupled to each other, So that air can be drawn in from the upper surface of the lower jig 210 downward.

At this time, the pneumatic supply part 230 is formed to have a radius corresponding to the distance from the center of the thin film main body 11 of the diaphragm 10 to the edge of the flange part 12. The pneumatic pressure supply unit 230 is provided with a seating member 231 so that the flange portion 12 of the diaphragm 10 can be seated when the diaphragm 10 is gripped by the grasp portion 240. The seating member 231 extends along the circumferential direction on the inner surface of the pneumatic supply part 230 and protrudes in the direction adjacent to the center of the pneumatic supply part 230. [ The seating member 231 is formed with an insertion groove so that a portion protruding downward from the flange portion 12 can be inserted. In order to prevent the upper jig 220 and the lower jig 210 from being held between the flange portion 12 and the thin film main body 11 when the upper and lower jigs 220 and 210 are coupled to each other, And the portion of the upper jig 220 opposed to the uppermost end of the seating member 231 is positioned below the upper surface of the seating member 231 when the lower jig 210 is engaged with the lower jig 210. [ Is formed to be spaced more than the thickness of the substrate (11).

The gripping part 240 includes a lower contact surface 241 provided on the upper surface of the lower jig 210 outside the pneumatic supply part 230 and an upper contact surface 241 provided on the lower surface of the upper jig 220 facing the lower contact surface 241. [ (242).

The lower contact surface 241 is formed with a first gripping groove 243 along the edge of the pneumatic supply part 230 on the upper surface of the lower jig 210 so that the lower part of the gripping member 13 of the diaphragm 10 can be inserted. The first gripping grooves 243 are formed in an annular shape along the edge of the pneumatic supply part 230 and have a depth corresponding to the distance from the center to the lower end of the gripping member 13.

The upper contact surface 242 is formed with a second gripping groove 244 so that the upper part of the gripping member 13 can be inserted into a position opposite to the first gripping groove 243. The second gripping groove 244 is formed in an annular shape corresponding to the first gripping groove 243 and has a depth corresponding to the distance from the center of the gripping member 13 to the upper end thereof. When the diaphragm 10 is seated so that the holding member 13 is inserted into the first holding groove 243 and the second holding groove 244, when the upper and lower jigs 220 and 210 are engaged with each other, And the flange portion 12 are gripped and the pneumatic supply portion 230 is sealed by the diaphragm 10. [

The pneumatic supply unit 300 includes a supply pipe 301 communicating with the supply passage 211 of the lower jig 210 and a compressor provided on the supply pipe 301 and supplying a high pressure air to the pneumatic supply unit 230 . At this time, the pneumatic supply unit 300 may be provided with a filling tank filled with high-pressure air instead of a compressor. Although not shown in the drawing, the supply pipe 301 is provided with a control valve to intermittently supply air to the pneumatic supply part 230. When the diaphragm 10 is gripped by the jig unit 200, the pneumatic supply unit 300 supplies high-pressure air so that the pneumatic supply part 230 reaches a predetermined pressure.

The determination unit 400 includes a plurality of pressure measurement sensors 401 installed in the respective pneumatic supply units 230 and measuring the pressure in the respective pneumatic supply units 230. When the inside of the pneumatic feeder 230 reaches a predetermined pressure by the air supplied to the pneumatic feeder 300, the air supply from the pneumatic feeder 300 is stopped and the pressure change is measured through the pressure sensor 401 . At this time, the determination unit 400 further includes a display unit that is not shown in the figure, but displays the measured values through the pressure measurement sensors 401 to the administrator. When the pressure in the displayed pneumatic supply part 230 drops from the display part, it is determined that a failure has occurred in the diaphragm 10.

A method of inspecting the diaphragm using the diaphragm testing apparatus 100 constructed as described above will be described in detail as follows.

The inspection method of the diaphragm includes a first cutting step, a sealing step, an inspection step, and a second cutting step.

The first cutting step is a step of grouping and cutting the diaphragms 10 molded from the injection molding machine. At this time, it is preferable that the diaphragms 10 are grouped by six in correspondence with the pneumatic supply parts 230 formed in the lower jig 210.

The sealing step is a step of sealing the gripping member 13 of each diaphragm 10 cut. The sealing step includes a seating step of placing the diagram on the lower jig 210 so that the holding member 13 is seated on the holding part 240 of the jig unit 200 and the step of holding the diaphragm 10 mounted on the lower jig 210 And an engaging step of engaging the upper jig 220 with the lower jig 210 for gripping.

The inspecting step is a step of inspecting the formed state of the thin film main body 11 and the flange portion 12 of the sealed diaphragm 10 using air pressure. The inspecting step includes a pneumatic supply step of supplying high-pressure air to the pneumatic supply unit 230 through the pneumatic supply unit 300 so that the internal pressure of the pneumatic supply unit 230 reaches a predetermined pressure, And a determination step of determining whether the diaphragm 10 is defective by measuring a pressure change in the pneumatic supply part 230 when the supply is completed. If the pressure measured by the pressure measuring sensor 401 is lowered in the determining step, the diaphragm 10 is in a defective state, and if the measured pressure is maintained through the pressure measuring sensor 401, the diaphragm 10 is determined to be in the acceptable state .

The second cutting step is a step of cutting the gripping member 13 of the passed diaphragm 10 after the inspection is completed. At this time, the cutting operation of the gripping member 13 can be performed manually by an operator or automatically by a cutting device (not shown).

The diaphragm inspection apparatus 100 and the inspection method according to the present invention constructed as described above measure whether the diaphragm 10 is defective by grasping the gripping member 13 formed at the edge of the flange portion 12 of the diaphragm 10, It is possible to fundamentally prevent defects in the water level sensor caused by damage to the flange portion 12 formed around the thin film main body 11 of the water level sensor 11. [

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art.

Accordingly, the true scope of protection of the present invention should be determined only by the appended claims.

10: Diaphragm
11: Nighttime Body
12: flange portion
13:
100: Diaphragm inspection device
200: jig unit
210: Lower jig
220: upper jig
230: Pneumatic supply
240:
300: Pneumatic supply unit
400:

Claims (6)

A flange portion formed at an edge of the thin film main body and coupled to a case of the level sensor when the level sensor is assembled; and a flange portion extending in the radial direction from the flange portion, The diaphragm is provided with a pneumatic pressure supply unit. The pneumatic pressure supply unit is provided at the edge of the diaphragm with a gripping portion for gripping the diaphragm, A unit;
A pneumatic supply unit installed in the pneumatic supply unit and supplying pneumatic pressure to the pneumatic supply unit;
And a discrimination unit provided in the jig unit for measuring a pressure change of the pneumatic supply unit to determine whether the diaphragm is defective or not,
The jig unit further includes a lower jig on which the diaphragm is seated and an upper jig coupled to an upper portion of the lower sheet so as to hold the diaphragm,
The pneumatic supply part is hermetically sealed by the diaphragm gripped by the grip part when the upper jig is engaged with the lower jig and is drawn downward from the upper surface of the lower jig so that high pressure air supplied from the pneumatic supply unit can be introduced Formed,
The grip portion is provided on the upper surface of the lower jig outside the pneumatic supply portion and includes a lower contact surface formed with a first gripping groove that is drawn downward from an upper surface of the lower surface so that a lower portion of the gripping member of the diaphragm can be inserted, And an upper contact surface provided on a lower surface of the upper jig opposite to the lower jig and having a second gripping groove drawn upward from a lower surface of the lower jig so that the upper part of the holding member of the diaphragm can be inserted.
delete delete The method according to claim 1,
Wherein the upper jig is formed with a lead-in space upwardly protruded from a lower surface opposed to the pneumatic supply unit so as to prevent interference with the diaphragm when the diaphragm is deformed by the pneumatic pressure of the pneumatic supply unit.




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