CN216899123U - Water collection detection structure for cleaning water of cleaning device - Google Patents

Abstract

The utility model discloses a water collection detection structure for cleaning water of a cleaning device. Wherein, the capacity detection subassembly is established on the water tank body. One end of the water shortage detection component is connected with a water tank water outlet of the water tank body through a water pipe. The other end of the water shortage detection assembly is connected with the water using unit.

Description

Water collection detection structure for cleaning water of cleaning device

Technical Field

The utility model belongs to the field of small household appliances for cleaning, and particularly relates to a water collection detection structure for cleaning water of a cleaning device.

Background

In daily life, due to the abundance of living goods, the cleaning device is greatly subdivided, and great convenience is brought. When carrying out ground environment such as floor, ceramic tile ground, there is a cleaning device can be used for specially carrying out ground such as floor, ceramic tile ground, has integrateed functions such as brush, and is comparatively convenient in the use, simultaneously, when using, also can comparatively practice thrift in the aspect of the water consumption, and the full water capacity of a clear water tank can clean the space of 200 square meters to 300 square meters usually.

However, in daily use, only can clear up the sewage case after once using usually, when directly going on when using next time, clean when half, the discovery does not have the clear water blowout, can reduce clean effect to bring relatively poor use and experience.

Therefore, a structure capable of detecting the capacity of the clean water tank and the lack of water is required to prompt the water quantity condition and the lack of water in the clean water tank.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: the utility model provides a clean water of cleaning device's water collection detects structure can carry out the suggestion of water capacity in the water tank to the clear water tank to and in time remind of lack of water.

The technical scheme is as follows: the utility model provides a structure is detected in catchmenting of cleaning device clean water, includes water tank body, capacity determine module, lack of water determine module, water tank delivery port, water pipe and water unit. Wherein, the capacity detection subassembly is established on the water tank body. One end of the water shortage detection component is connected with a water tank water outlet of the water tank body through a water pipe. The other end of the water shortage detection assembly is connected with the water using unit.

The utility model discloses a water collection detection structure for cleaning water of a cleaning device. Wherein, capacity determine module is used for carrying on the detection of clear water tank inner liquid capacity, and lack of water determine module is used for carrying on the detection that the water liquid of clear water tank in the use exhausts, through the double-deck detection to clear water tank solution and play water, can be timely effectual to real-time in the use effectively detects and reminds the clear water tank, improves user's use sense and satisfaction.

Furthermore, the above-mentioned water collection detection structure for cleaning water of the cleaning device, the capacity detection component, comprises a floating tank, a reflection float valve, a measuring rail tank, a light sensor and a power supply access end. Wherein, the floating groove is arranged in the water tank body and is positioned at one end of the side edge of the water tank body. The reflection float valve is arranged in the float tank. The reflection float valve is provided with a light reflection end. The measuring rail groove is arranged outside the water tank body and is positioned at one end close to the floating groove. The height of the measuring rail groove is the same as that of the water tank body. The light sensor is arranged on the measuring rail groove. The power supply access end is arranged on the water tank body and is positioned at the top of one end close to the measuring rail groove. The power supply access end is electrically connected with the light sensor. Preferably, the volume detecting unit includes a reflection float valve and a light sensor, the reflection float valve moves up and down with the rise and fall of the liquid level to reflect light from the light sensor, and the light sensor detects the volume of the liquid through the reflected light.

Furthermore, foretell cleaning device cleaning water's catchment detects structure, lack of water detection subassembly include sense terminal body, light emission end, light receiving terminal, water inlet and delivery port. The detection end body is a component with a hollow shape inside. The light emitting end and the light receiving end are respectively arranged at the tops of the two ends of the detection body. The water inlet and the water outlet are respectively arranged on the side edges of the tops of the two ends of the detection body. Preferably, the water shortage detection assembly can cut off an optical signal formed by the light emitting end and the light receiving end through the liquid of the detection end body, so that the water quantity passing through the water shortage detection assembly is sufficient, when no liquid passes through the water inlet and the water outlet, the light emitting end and the light receiving end recover the propagation of the optical signal, and when no liquid passes through the water shortage detection assembly, the real-time detection of water shortage is realized.

Furthermore, the water collection detection structure for the cleaning water of the cleaning device is characterized in that a plurality of light sensors are uniformly distributed on the measuring rail groove. Preferably, the light sensors for measuring the capacity on the measuring rail groove are provided in plurality, at least two, and the plurality of light sensors are arranged to effectively divide the capacity by percentage, so that the capacity change can be effectively detected, and the detection effect is improved.

Furthermore, the side wall of the floating groove is of a fine-hole screen structure. As a preferable mode of the utility model, the floating groove is used for the reflection floating valve to move up and down along with the rising and falling of the liquid level, and the side wall of the floating groove with the fine mesh structure can effectively prevent the liquid entering the clean water tank from containing sundries so as to influence the movement of the emission floating valve.

Furthermore, the cleaning device is used for cleaning water, and the light sensor is an infrared sensor. Preferably, the infrared sensor is used as the light sensor, which is not only stable, but also can reduce the cost.

Furthermore, in the water collection detection structure for the cleaning water of the cleaning device, the detection end body is a cuboid-shaped hollow part. As a preferred mode of the utility model, the detection end body is of a cuboid structure, and the detection end body is hollow inside, so that water passing and installation of the light emitting end and the light receiving end are facilitated.

Furthermore, in the water collection detection structure for the cleaning water of the cleaning device, the detection end body is a hollow part with a bent rectangular parallelepiped middle part. In a preferred aspect of the present invention, a hollow member having a rectangular parallelepiped shape with a bend in the middle is used, and the hollow member is less likely to be clogged with foreign matter during use.

Furthermore, the cleaning device is used for cleaning water, and the light emitting end is an infrared emitting end. The light receiving end is an infrared receiving end. Preferably, the light emitting end and the light receiving end are provided with infrared devices, so that light is more stable and cost is reduced.

The technical scheme shows that the utility model has the following beneficial effects: the utility model discloses a water collection detection structure for cleaning water of a cleaning device. Wherein, capacity determine module is used for carrying on the detection of clear water tank inner liquid capacity, and lack of water determine module is used for carrying on the detection that the water liquid of clear water tank in the use exhausts, through the double-deck detection to clear water tank solution and play water, can be timely effectual to real-time in the use effectively detects and reminds the clear water tank, improves user's use sense and satisfaction.

Drawings

FIG. 1 is a diagram of a capacity detection assembly according to an embodiment of the present invention;

FIG. 2 is a water shortage detecting unit according to embodiment 1 of the present invention;

FIG. 3 is a water shortage detecting unit according to embodiment 2 of the present invention;

fig. 4 is a water collection detection structure of cleaning water for the cleaning apparatus according to embodiment 1 of the present invention;

fig. 5 is a water collection detection structure of cleaning water for the cleaning device according to embodiment 2 of the present invention.

In the figure: the device comprises a water tank body 1, a capacity detection assembly 2, a floating groove 21, a reflection floating valve 22, a measuring rail groove 23, a light sensor 24, a power supply access end 25, a water shortage detection assembly 3, a detection end body 31, a light emitting end 32, a light receiving end 33, a water inlet 34, a water outlet 35, a water tank water outlet 4, a water pipe 5 and a water using unit 6.

Detailed Description

The utility model is further elucidated with reference to the drawings and the embodiments.

Example 1

The water collection detection structure for cleaning water of the cleaning device shown in fig. 1, 2 and 4 comprises a water tank body 1, a capacity detection assembly 2, a water shortage detection assembly 3, a water tank outlet 4, a water pipe 5 and a water using unit 6. Wherein, the capacity detection component 2 is arranged on the water tank body 1. Wherein, the one end of the water shortage detection component 3 is connected with the water tank outlet 4 of the water tank body 1 through a water pipe 5. The other end of the water shortage detection assembly 3 is connected with the water using unit 6. Further, the capacity detecting module 2 includes a float bath 21, a reflection float valve 22, a measuring rail bath 23, a light sensor 24, and a power supply inlet 25. Wherein, the floating groove 21 is arranged in the water tank body 1 and is positioned at one end of the side edge of the water tank body 1. The reflection float valve 22 is provided in the float bath 21. The reflective float valve 22 is provided with a light reflection end. Further, a measuring rail groove 23 is provided outside the tank body 1 at an end close to the float groove 21. The height of the measuring rail groove 23 is the same as that of the tank body 1. The light sensor 24 is provided on the measurement rail groove 23. The power supply access end 25 is arranged on the water tank body 1 and is positioned at the top of one end close to the measuring rail groove 23. The power supply access 25 is electrically connected to the light sensor 24. Meanwhile, the water shortage detection assembly 3 comprises a detection end body 31, a light emitting end 32, a light receiving end 33, a water inlet 34 and a water outlet 35. The detection end body 31 is a member having a hollow shape inside. The light emitting end 32 and the light receiving end 33 are respectively disposed on the top of the two ends of the detecting body 31. The water inlet 34 and the water outlet 35 are respectively arranged on the side edges of the tops of the two ends of the detection body 31. Wherein, a plurality of light sensors 24 are uniformly distributed on the measuring rail groove 23. In addition, the side wall of the floating groove 21 is of a fine mesh structure. Meanwhile, the light sensor 24 is an infrared sensor. Further, the detection end body 31 is a hollow member in a rectangular parallelepiped shape. In addition, the light emitting end 32 is an infrared emitting end. The light receiving end 33 is an infrared receiving end.

Example 2

The water collection detection structure for cleaning water of the cleaning device shown in fig. 1, 3 and 5 comprises a water tank body 1, a capacity detection assembly 2, a water shortage detection assembly 3, a water tank outlet 4, a water pipe 5 and a water using unit 6. Wherein, the capacity detection component 2 is arranged on the water tank body 1. Wherein, the one end of the water shortage detection component 3 is connected with the water tank outlet 4 of the water tank body 1 through a water pipe 5. The other end of the water shortage detection assembly 3 is connected with the water using unit 6. Further, the capacity detecting module 2 includes a float bath 21, a reflection float valve 22, a measuring rail bath 23, a light sensor 24, and a power supply inlet 25. Wherein, the floating groove 21 is arranged in the water tank body 1 and is positioned at one end of the side edge of the water tank body 1. The reflection float valve 22 is provided in the float bath 21. The reflective float valve 22 is provided with a light reflection end. Further, a measuring rail groove 23 is provided outside the tank body 1 at an end close to the float groove 21. The height of the measuring rail groove 23 is the same as that of the tank body 1. The light sensor 24 is provided on the measurement rail groove 23. The power supply access end 25 is arranged on the water tank body 1 and is positioned at the top of one end close to the measuring rail groove 23. The power supply access 25 is electrically connected to the light sensor 24. Meanwhile, the water shortage detection assembly 3 comprises a detection end body 31, a light emitting end 32, a light receiving end 33, a water inlet 34 and a water outlet 35. The detection end body 31 is a member having a hollow shape inside. The light emitting end 32 and the light receiving end 33 are respectively disposed on the top of the two ends of the detecting body 31. The water inlet 34 and the water outlet 35 are respectively arranged on the side edges of the tops of the two ends of the detection body 31. Wherein, a plurality of light sensors 24 are uniformly distributed on the measuring rail groove 23. In addition, the side wall of the floating groove 21 is of a fine mesh structure. Meanwhile, the light sensor 24 is an infrared sensor. The detection end body 31 is a hollow member having a rectangular parallelepiped shape with a bend in the middle. In addition, the light emitting end 32 is an infrared emitting end. The light receiving end 33 is an infrared receiving end.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that modifications can be made by those skilled in the art without departing from the principle of the present invention, and these modifications should also be construed as the protection scope of the present invention.

Claims (9)

1. The utility model provides a structure is detected to catchment of cleaning device clean water which characterized in that: the water tank comprises a water tank body (1), a capacity detection assembly (2), a water shortage detection assembly (3), a water tank water outlet (4), a water pipe (5) and a water using unit (6); the volume detection assembly (2) is arranged on the water tank body (1); one end of the water shortage detection assembly (3) is connected with a water tank water outlet (4) of the water tank body (1) through a water pipe (5); the other end of the water shortage detection assembly (3) is connected with the water using unit (6).

2. The water collection detection structure for cleaning water of a cleaning device according to claim 1, wherein: the capacity detection assembly (2) comprises a floating groove (21), a reflection float valve (22), a measuring rail groove (23), a light sensor (24) and a power supply access end (25); the floating groove (21) is arranged in the water tank body (1) and is positioned at one end of the side edge of the water tank body (1); the reflection float valve (22) is arranged in the floating tank (21); a light reflection end is arranged on the reflection float valve (22); the measuring rail groove (23) is arranged outside the water tank body (1) and is positioned at one end close to the floating groove (21); the height of the measuring rail groove (23) is the same as that of the water tank body (1); the light sensor (24) is arranged on the measuring rail groove (23); the power supply access end (25) is arranged on the water tank body (1) and is positioned at the top of one end close to the measuring rail groove (23); the power supply access end (25) is electrically connected with the light sensor (24).

3. The water collection detection structure for cleaning water of a cleaning apparatus according to claim 1, characterized in that: the water shortage detection assembly (3) comprises a detection end body (31), a light emitting end (32), a light receiving end (33), a water inlet (34) and a water outlet (35); the detection end body (31) is a hollow member; the light emitting end (32) and the light receiving end (33) are respectively arranged at the tops of two ends of the detection end body (31); the water inlet (34) and the water outlet (35) are respectively arranged on the side edges of the tops of the two ends of the detection end body (31).

4. The water collection detection structure for cleaning water of a cleaning device according to claim 2, wherein: a plurality of light sensors (24) are uniformly distributed on the measuring rail groove (23).

5. The water collection detection structure for cleaning water for a cleaning device according to claim 2, wherein: the side wall of the floating groove (21) is of a fine-mesh screen structure.

6. The water collection detection structure for cleaning water for a cleaning device according to claim 2, wherein: the light sensor (24) is an infrared sensor.

7. The water collection detection structure for cleaning water of a cleaning device according to claim 3, wherein: the detection end body (31) is a hollow part in a cuboid shape.

8. The water collection detection structure for cleaning water of a cleaning device according to claim 3, wherein: the detection end body (31) is a hollow part with a bent cuboid shape in the middle.

9. The water collection detection structure for cleaning water of a cleaning device according to claim 3, wherein: the light emitting end (32) is an infrared emitting end; the light receiving end (33) is an infrared receiving end.

Images