KR0162194B1 - A multi-sensor of a fully-automated washing machine - Google Patents

Abstract

The present invention relates to a bottom-mounted multi-sensor of a full-automatic washing machine equipped with a multi-sensor at the bottom of a damper spring of a full-automatic washing machine to measure the washing capacity, water level, dehydration and unbalance of the washing tank. By holding the multi-sensor core 3 fixed to the snubber bar 1, the snubber bar 1 protruding from both ends of the core 3 causes magnetic field interference, thereby causing the core 3 and the coil bobbin 8 to rest. There is a problem in that it prevents the frequency change caused by the relative displacement of and does not correct the dispersion of the capacitor, which is one of the important factors causing LC resonance.

In order to solve the conventional problems, the present invention has a multi-sensor mounted at the bottom of a damper spring of a fully automatic washing machine to prevent magnetic field interference by a snubber bar, so that the frequency range can be used as desired, and the initial value frequency can be easily fixed. Apply to the washing machine.

Description

Bottom-mounted multi-sensor of fully automatic washing machine

1 is a cross-sectional view showing a weight sensor structure of a conventional fully automatic washing machine.

Figure 2 is a cross-sectional view showing the structure of the bottom-mounted multi-sensor of the present invention automatic washing machine.

* Explanation of symbols for main parts of the drawings

11: snubbar 12: damper spring cap

13 core 14 core holder

15 housing 16 coil bobbin

17; Adjustment screw 18: Coil bobbin holder

The present invention relates to a bottom-mounted multi-sensor of a full-automatic washing machine equipped with a multi-sensor at the bottom of the damper spring of the full-automatic washing machine to measure the washing capacity, water level, dehydration and unbalance of the washing tank.

The weight sensor of the conventional washing machine is a snubber bar (1) for holding and holding the damper spring cap (2) as shown in Figure 1, the snubber bar (1) is supported by the load of the washing tank when the laundry is put into the initial A damping spring cap 2 having a thread for setting a frequency, a core 3 fixed to the snubber bar 1 for varying a circuit constant for converting a weight into an electrical signal, and the snubber bar 1 A fixing groove 4 formed in the outer diameter portion of the snubber bar 1 so that the core 3 is attached to the core 3, and a core support holder coupled to the fixing groove 4 to support the core 3 to the snubber bar 1 ( 5), a core fixing holder 6 for fixing the core 3 supported by the snubber bar 1 by the core support holder 5, and a core 3 fixedly supported by the snubber bar 1; It is located inside and is lifted together with the damper spring cap (2) to change the circuit constant for converting the weight into an electrical signal It consists of a coil 7 and a coil bobbin 8 supporting the coil 7 and fastened to a thread formed in the damping spring cap 2.

The weight sensor of the conventional washing machine configured as described above is shown in FIG. 1 when the damper spring cap 2 supported by the snubber bar 1 is lowered in a predetermined length direction by the weight of the laundry put into the washing tank of the washing machine. As the coil 6 in the coil bobbin 7 fastened to the damper spring cap 2 descends in the longitudinal direction of the snubber bar 1, the snubber bar 1 is formed by the core support holder 5 and the core fixing holder 6. Relative displacement occurs between the core 3 and the coil 7 fixed to

Magnetic flux is changed and reactance is changed.

By using the principle that the frequency value is changed by to determine the weight of the laundry put into the washing tank.

In this case, when the laundry is rotated in a dehydration mode for a predetermined time (about 2-3 seconds) after the laundry is put into the washing tank, the damping spring cap 2 is compressed and lowered by the weight of the laundry, thereby causing displacement in a predetermined length direction.

That is, relative displacement occurs in the longitudinal direction between the core 3 fixed to the snubber bar 1 and the coil 7 in the coil bobbin 8 fastened to the damper spring cap 2.

Accordingly, the frequency value generated by the relative displacement of the core 3 and the coil 7 is input by a microcomputer not shown, and the weight corresponding to the frequency value is determined by a lock-up table previously stored in the microcomputer.

However, the weight sensor of the conventional washing machine fixes the core 3 for the multi-sensor to the snubber bar 1, so that the snubber bar 1 protruding from both ends of the core 3 causes magnetic field interference, thereby causing the core 3 to stop. ) Hinders the frequency change caused by the relative displacement of the coil bobbin 8 and the dispersion of the capacitor which is one of the important factors causing LC resonance.

In order to solve the conventional problems, the present invention has a multi-sensor mounted at the bottom of a damper spring of a fully automatic washing machine to prevent magnetic field interference by a snubber bar, so that the frequency range can be used as desired, and the initial value of the frequency can be easily fixed. Referring to the configuration and effect of the present invention by the accompanying drawings as follows.

First, the bottom-mounted multi-sensor of the fully automatic washing machine of the present invention has a snubber bar 11 for holding the damper spring cap 12 fixedly and the snubber bar 11 as shown in FIG. Damper spring cap 12 for setting the initial frequency receiving the load of the washing tank, and the core 13 is fixed to the lower end of the snubber bar 11 to change the circuit constant for converting the weight into an electrical signal and In order to suppress the shock transmitted to the core 13 when driving the washing machine, a core holder 14 fastened to the top and bottom of the core 13 and a female screw thread are formed at the top and bottom of the damper spring cap 12. The coil 15 is wound around the core 13 to allow the capacitor to be mounted while the coil is wound, and is coupled to a female thread at the bottom of the housing 15 to adjust the initial frequency value. The height of the coil bobbin 16 It is configured to determine the adjustment screw 17 and the adjustment is completed the coil bobbin holder 18 fastened to the bottom of the coil bobbin 16 to hold the initial frequency value.

As shown in FIG. 2, the damping spring cap 12 is compressed by the water level in the washing tank or the weight of the laundry, thereby causing displacement in a predetermined length direction.

That is, relative displacement occurs in the longitudinal direction between the core 13 fixedly fastened to the lower end of the snubber bar 11 and the coil bobbin 16 in which the coil is wound and the capacitor can be mounted.

Therefore, the change in the inductance value corresponding to the relative displacement is measured as the change in the initial frequency value corresponding to the inductance value by LC resonance with a capacitor mounted on the coil bobbin 16.

Then, to fix the initial frequency value measured by fixing the height of the coil bobbin 16 by adjusting the upper and lower adjustment screw 17 coupled to the lower end of the housing 15 to fix the measured initial frequency value. , Detect the weight and level of the laundry put into the washing tank using a fixed initial frequency value, and measure the change in the frequency value measured during dehydration to measure the dehydration state and unbalance.

As described above, the multi-sensor is installed at the bottom of the damper spring of the automatic washing machine to prevent magnetic field interference by the snubber bar, so that the frequency range can be used as desired and the initial value frequency can be easily fixed, thereby improving the reliability of the product. It is effective.

Claims (1)

A snubber bar 11 for holding and supporting the damper spring cap 12, a damper spring cap 12 for supporting the snubber bar 11 to receive an load of a washing tank when the laundry is put in, and to set an initial frequency; The core 13 is fixed to the lower end of the snubber bar 11 to change the circuit constant for converting the weight into an electrical signal, and the core 13 to suppress the shock transmitted to the core 13 when the washing machine is driven. A core holder 14 fastened up and down, a housing 15 having female threads formed at upper and lower ends coupled to the damper spring cap 12, and coils are wound to face the core 13 so that a capacitor is mounted. Possible adjustment of the bobbin 16 and the adjustment screw 17 for adjusting the height of the coil bobbin 16 coupled to the female thread at the bottom of the housing 15 to adjust the initial frequency value and the adjusted initial frequency value. The coil bobbin (16) The lower attachment type multi-sensor of the automatic washing machine consisting of a coil bobbin holder (18) fastened to the end.