JP7236647B2 - Fluid temperature measuring device for clothes processing device and clothes processing device - Google Patents

Description

TECHNICAL FIELD The present invention relates to the technical field of clothes processing devices, and more particularly to a fluid temperature measuring device and a clothes processing device for clothes processing devices.

Most commercial clothing treatment devices include a temperature sensor. The temperature sensor may be attached inside the container to be measured or may be attached to the outside of the container to be measured. When the temperature sensor is installed inside the container to be measured, if dust such as lint adheres to the surface of the temperature sensor, the detection accuracy may deteriorate. For example, models with a drying module are particularly susceptible to lint clogging the surface of the temperature sensor. On the other hand, when attached to the outside of the container to be measured, the external temperature sensor is easily affected by the temperature of the external environment, and the detected temperature value may be inaccurate. In the prior art, the sensor is provided inside a mounting case arranged in an opening provided on the container to be measured, and the mounting case can prevent the sensor from coming into direct contact with the wash water. Although this method avoids direct contact between the cleaning water and the sensor, it is necessary to provide an opening hole in the container to be measured, which deteriorates the sealing performance of the container to be measured.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a fluid temperature measuring device for a clothing processing apparatus and a clothing processing apparatus that enable stable and highly reliable detection.

In order to achieve the above objects, the present invention employs the following configurations.
The fluid temperature measuring device of the clothes processing equipment is
a temperature sensor;
a housing forming a passage for fluid to flow;
a sensor mounting seat forming a cavity for housing the temperature sensor outside the housing;
The temperature sensor is mounted inside the cavity and measures the temperature by sensing the temperature of the housing.
Further, the sensor mounting seat includes a cover and a base fixed to the outer wall of the housing, the cover combined with the base to form the cavity.
Furthermore, the cover directly or indirectly presses the temperature sensor.
Further, the cover is a heat insulating member made of a heat insulating material, or the sensor mounting seat further includes a heat insulating member, and the cover presses the temperature sensor via the heat insulating member.
Furthermore, the cover and the base are fixedly connected with screws and/or snaps.
Furthermore, the base and the housing are integrally molded.
Furthermore, the cover is provided with press ribs on the side that is pressed against the temperature sensor.
Further, the sensor mounting seat is provided with a wire hole for passing the lead wire of the temperature sensor.
Furthermore, the temperature sensor is abutted against the outer wall of the housing, or a heat conducting medium is provided between the temperature sensor and the outer wall of the housing.
The present invention also discloses a clothing processing apparatus including the fluid temperature measuring device having any one of the above configurations.

The present invention employing the above configuration has the following advantages.
By arranging the temperature sensor outside the housing, the influence of lint clogging on the temperature sensor can be reduced, and the detection of the temperature sensor becomes more stable and reliable. Furthermore, by arranging the temperature sensor inside the cavity, it is possible to avoid the influence of the outside air temperature on the temperature sensor and improve the detection accuracy of the temperature sensor. At the same time, the temperature sensor is housed in the sensor mounting seat provided outside the housing, and the temperature of the housing is measured by the temperature sensor, which eliminates the need to provide an opening hole in the housing. Therefore, airtightness of the housing can be ensured without air leakage from the housing, and the accuracy of the temperature value measured by the temperature sensor can be guaranteed.

The invention will be further described below with reference to the drawings.

FIG. 1 is a structural schematic diagram of a fluid temperature measuring device according to Embodiment 1 of the present invention. FIG. 2 is a schematic diagram of the configuration of the fluid temperature measuring device according to the first embodiment of the present invention in a mounted state. FIG. 3 is a structural schematic diagram of the cover in the fluid temperature measuring device according to the first embodiment of the present invention. FIG. 4 is a structural schematic diagram of a groove in a fluid temperature measuring device according to Example 5 of the present invention. FIG. 5 is a structural schematic diagram of a mounting groove in a fluid temperature measuring device according to a sixth embodiment of the present invention. FIG. 6 is a schematic diagram showing a combination of a fluid temperature measuring device and a water trough according to the present invention.

The invention will be further described below with reference to the drawings and specific examples. In addition, the following "top", "bottom", "left", "right", "portrait", "landscape", "inner", "outer", "vertical", "horizontal", "top", " Orientation or positional terms such as "bottom" are based solely on the orientation or positional relationship shown in the drawings and are merely for convenience and simplification of the description of the present invention, and such devices/components should not be construed as a limitation on the invention, as it does not imply or imply that has any particular orientation or that it must be constructed or operated in any particular orientation.

As shown in FIGS. 1 to 3, the present invention includes a temperature sensor 100, a housing 200 forming a passage for fluid to flow, and a cavity 320 formed outside the housing 200. and a sensor mounting seat 300 in which a fluid temperature measuring device for a clothes processing apparatus is provided. The temperature sensor 100 is mounted inside the cavity 320 and measures the temperature by sensing the temperature of the housing 200 . By arranging the temperature sensor 100 outside the housing 200, it is possible to reduce the influence of lint clogging on the temperature sensor. Furthermore, by arranging the temperature sensor inside the cavity, it is possible to avoid the influence of the outside air temperature on the temperature sensor and improve the detection accuracy of the temperature sensor. At the same time, a temperature sensor, which is a thermal element such as a thermistor or a thermal diode, is accommodated in a sensor mounting seat provided outside the housing 200, and the temperature sensor 100 measures the temperature by sensing the temperature of the housing 200. As a result, since there is no need to provide an opening hole in the housing, the airtightness of the housing can be ensured without air leakage from the housing, and the accuracy of the temperature value measured by the temperature sensor can be guaranteed. is also possible.

In this embodiment, sensor mounting seat 300 includes cover 330 and base 310 fixed to the outer wall of housing 200 . The base 310 is integrally molded with the housing 200 to ensure sealing of the housing. The cover 330 is covered on the base 310 so as to form a cavity 320, and the temperature sensor is mounted inside the cavity 320, so that it is not easily damaged and is not easily affected by the temperature of the external environment, so that it can be detected. The temperature value displayed is less likely to be inaccurate. Specifically, the base 310 is provided with positioning holes 312 , the cover 330 is provided with positioning ribs 333 that engage with the positioning holes 312 , and the positioning ribs 333 specify the position of the cover 330 with respect to the base 310 . engages the locating holes. Also, the cover 330 is provided with screw holes. The base 310 is provided with holes corresponding to the screw holes. Screws 332 pass through these two holes to fully secure cover 330 .

The cover and base may simply be snap fixedly connected. Snaps are provided on both sides of the base. A corresponding position on the cover is provided with a snap hole that engages the snap, and the snap engages with the snap hole to fix the relative position of the cover and the base.

The cover and base may simply be fixedly connected with screws. Screw holes are provided at both ends of the cover. Corresponding positions of the base are provided with screw holes and corresponding holes. Screws pass through these two holes to fully secure the cover.

The sensor mounting seat 300 further includes a heat insulating member 340 that can effectively reduce the influence of the outside air temperature on the sensor 100 and make the temperature measurement by the temperature sensor more accurate. The cover 330 presses the temperature sensor 100 through the heat insulating member 340 and ensures that the temperature sensor 100 is in close contact with the bottom surface of the base 310 so that the temperature sensor 100 is not displaced. Preferably, the heat insulating member is heat insulating cotton, which can achieve a heat insulating effect without damaging the temperature sensor.

The temperature sensor 100 is abutted against the outer wall of the housing 200 to ensure accuracy of detection by the temperature sensor. Specifically, the cover 330 is provided with press ribs 331 on the side pressed against the temperature sensor 100 to ensure that the temperature sensor 100 can be brought into close contact with the outer wall of the housing 200 . Preferably, the press rib 331 is an elastic rib, and the deformable ability of the elastic rib is used to ensure that the temperature sensor is not damaged by strong force.

Press ribs 331 may contact the insulating member. As shown in FIG. 2 , the heat insulating cotton is in close contact with the press rib 331 and presses the temperature sensor 100 . Thereby, it is ensured that the cover 330 secures the temperature sensor through the press ribs and insulation cotton so that the temperature sensor is not damaged.

The sensor mounting seat 300 is provided with a wire passage hole 311 for passing the lead wire of the temperature sensor 100, making mounting of the temperature sensor more convenient. Specifically, the wire connection hole is a slot opened on the base 310, and after the temperature sensor 100 is mounted and fixed, the slot can be sealed to isolate the outside air.

In this embodiment, the cover directly presses the temperature sensor. Specifically, the cover is provided with press ribs on the side pressed against the temperature sensor. The cover is integrally injection molded with the press ribs, and directly presses the temperature sensor via the press ribs to ensure that the temperature sensor can be in close contact with the outer wall of the housing, ensuring the accuracy of detection by the temperature sensor.

In Example 1, the insulating cotton is located between the press rib and the temperature sensor. This embodiment can increase the length of the press ribs or reduce the depth of the base to ensure that the press ribs directly press the temperature sensor.

In this embodiment, the cover is made of heat insulating material.

The cover is made of a heat insulating material, functions as a heat insulating member, and directly presses the temperature sensor. An advantage of such an arrangement is that the structure of the fluid temperature measuring device is simpler, since two parts need not be provided by providing the cover with a pressing function and a heat insulating function.

A cover plate made of a heat insulating material may press the temperature sensor through a heat insulating member. The cover plate serves as double heat insulation in combination with the heat insulating member, further increasing the reliability of detection by the temperature sensor in the fluid temperature measuring device.

In this embodiment, the base is arranged separately from the housing.

A screw hole is provided in the outer wall of the housing. The base is provided with holes corresponding to the screw holes. Screws pass sequentially through these two holes to secure the base to the housing. The screw holes do not penetrate the outer wall of the housing and do not affect the sealing of the housing.

The base can also be attached to the outer wall of the housing with an adhesive such as instant glue.

The base may be provided with a snap, and the outer wall of the housing may be provided with a snap hole that engages with the snap, so that the base may be fixed to the outer wall of the housing by engagement between the snap and the snap hole. The snap hole does not penetrate the outer wall of the housing and does not affect the sealing of the housing.

The outer wall of the housing may be provided with a snap, and the base may be provided with a snap hole that engages with the snap, so that the base may be fixed to the outer wall of the housing by engagement between the snap and the snap hole.

In this embodiment, the outer wall of the housing is provided with a mounting groove. The base is formed by a mounting groove.

As shown in FIG. 4, the outer wall of the housing 200 is provided with a mounting groove 210 formed by removing a portion of material from the outer surface of the housing 200 to the interior of the housing 200 . Depth L of mounting groove 210 is smaller than thickness M of housing 200 . Therefore, the arrangement of the mounting grooves 210 does not affect the sealing performance of the housing 200 . The base is formed by a mounting groove, and the thickness of the outer wall of the housing that is in contact with the temperature sensor is reduced to improve the accuracy of detection by the temperature sensor.

In this embodiment, the outer wall of the housing is provided with a groove. The base is formed by a groove.

As shown in FIG. 5, the outer wall of the housing 200 is provided with a groove 220 . The groove 220 is formed by recessing the outer wall of the housing 200 from the outside to the inside so that the housing corresponding to the groove protrudes into the passage. The thickness of the housing in the recessed groove is equal to the thickness of the rest of the housing to ensure the sealing of the housing. The base is formed by a concave groove, and the size of the sensor mounting seat protruding from the housing can be reduced, so that the structure of the fluid temperature measuring device can be made compact.

In this embodiment, a heat conducting medium is provided between the temperature sensor and the outer wall of the housing.

Between the temperature sensor and the outer wall of the housing, a thermally conductive medium made of a metal body with good thermal conductivity or thermally conductive silicone grease is provided. Due to the thermal conductivity of the heat conducting medium, the temperature sensor can indirectly know the temperature of the outer wall of the housing. At the same time, the heat-conducting medium ensures effective contact between the temperature sensor and the outer wall of the housing, avoiding air gaps between the two to reduce the heat-conducting effect, and the temperature measurement by the temperature sensor. Accuracy can be guaranteed.

The present invention also discloses a clothing processing apparatus including the fluid temperature measuring device of any of the above embodiments. The temperature sensor in this fluid temperature measuring device is not easily affected by lint, so the detection is stable and reliable, and it does not affect the sealing performance of the housing, making the temperature control by the clothes processing device more reliable. become.

Specifically, as shown in FIG. 6, the clothes processing apparatus is a drum washing machine that includes a trough 400 . Enclosure 200 can be a drying duct mounted over trough 400 . The air circulating inside the trough 400 absorbs moisture from the clothes in the trough before entering the enclosure 200 and being condensed by the condenser inside the enclosure 200 . The heat absorbed by evaporation of moisture during condensation affects the temperature inside the housing. It can be determined whether or not Since the detection by the fluid temperature measuring device according to the present invention is stable and reliable, the drying control of the drum-type washing machine becomes more reliable and the drying effect is guaranteed.

Note that the clothes processing apparatus may be other clothes processing apparatus such as a dryer that requires temperature detection.

In addition to the preferred embodiments described above, the invention also has other embodiments. Various changes and modifications can be made by those skilled in the art based on the present invention, which shall be within the scope defined by the claims of the present invention without departing from the spirit of the present invention.

100: temperature sensor 200: housing 210: mounting groove 220: concave groove 300: sensor mounting seat 310: base 311: wire through hole 312: positioning hole 320: cavity 330: cover 331: press rib 332: screw 333: positioning rib 340 : Thermal insulation member 400: Water trough

Claims (11)

a temperature sensor;
a housing forming a passage for fluid to flow;
a sensor mounting seat having a base fixed to an outer wall of the housing; and a cover combined with the base to form a cavity for housing the temperature sensor outside the housing;
a heat insulating cotton interposed between the temperature sensor and the cover,
The temperature sensor is mounted inside the cavity and configured to measure the temperature by sensing the temperature of the housing,
A fluid temperature measuring device for a clothes processing apparatus , wherein the cover is configured to press the temperature sensor through the heat insulating cotton . a temperature sensor;
a housing forming a passage for fluid to flow;
a sensor mounting seat having a base fixed to an outer wall of the housing ; and a cover combined with the base to form a cavity for housing the temperature sensor outside the housing;
The temperature sensor is mounted inside the cavity and configured to measure the temperature by sensing the temperature of the housing,
A fluid temperature measuring device according to claim 1, wherein the cover is formed with a press rib that protrudes toward the temperature sensor and is elastically deformable . 3. The fluid temperature measuring device according to claim 2, wherein the cover directly or indirectly presses the temperature sensor. 2. The fluid temperature measuring device according to claim 1 , wherein said cover is a heat insulating member made of a heat insulating material. The cover is a heat insulating member made of a heat insulating material, or
4. The fluid temperature measuring device according to claim 3, wherein said sensor mounting seat further includes a heat insulating member, and said cover presses said temperature sensor via said heat insulating member. 4. The fluid temperature measuring device according to claim 3, wherein said cover and said base are fixedly connected by screws and/or snaps. 4. The fluid temperature measuring device according to claim 3, wherein said base and said housing are integrally molded. 2. The fluid temperature measuring device according to claim 1 , wherein said cover is provided with a press rib on the side pressed against said temperature sensor. The fluid temperature measuring device according to any one of claims 1 to 8 , wherein the sensor mounting seat is provided with a wire passage hole for passing a lead wire of the temperature sensor. The temperature sensor is abutted against an outer wall of the housing, or
The fluid temperature measuring device according to any one of claims 1 to 8 , characterized in that a heat conducting medium is provided between said temperature sensor and an outer wall of said housing. A clothes processing apparatus comprising the fluid temperature measuring device according to any one of claims 1 to 10 .

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