CN215899572U - Mechanical device for cleaning rag - Google Patents

Abstract

The utility model discloses a mechanical device for cleaning rags, which comprises an outer shell with an opening at the top and an upper cover body rotationally connected to the top of the outer shell; an inner container for containing water is arranged in the outer shell, a general control assembly for controlling each part is arranged on the rear side wall of the outer shell, and an electronic display screen for displaying and touching various parameters is arranged at the top of the outer shell; the outer side wall of the inner container is provided with a plurality of ultrasonic vibrators for vibration cleaning, the side wall of the inner container is communicated with and provided with a water inlet device, and the bottom of the inner container is communicated with and provided with a water outlet device; the inner container is internally provided with a suspension assembly for clamping cleaning cloth; and a drying device is arranged in the upper cover body and used for drying the cleaning cloth. The cleaning cloth cleaning machine can automatically and conveniently clean cleaning cloth, saves time and labor, has better cleaning effect, and simultaneously saves energy and has high efficiency.

Description

Mechanical device for cleaning rag

Technical Field

The utility model relates to the technical field of household intelligent kitchen utensils, in particular to a mechanical device for cleaning rags.

Background

At present, in the prior art, the cleaning cloth is used as a conventional kitchen cleaning article and needs to keep clean and sanitary all the time, people usually use hands to clean after using the cleaning cloth, time and labor are wasted, a few machines for cleaning the cleaning cloth exist on the market, but the cleaning effect of the machines is not good, some fine stains are easy to remain, many processes need manual operation, the cleaning time is long, and the cleaning cloth needs to be dried by themselves or dried by other machines, so that the whole process is cumbersome and time-consuming, and the daily life is not convenient very much. In addition, the common drying machine consumes electric energy, high temperature is needed for drying, water in the cleaning cloth is decomposed into a large amount of hot steam to be discharged into the air to complete drying, so that some heat is lost, the time required by the traditional drying mode is long, the energy is consumed mainly, and the energy-saving and environment-friendly concept is not met.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem of overcoming the defects of the prior art and provides a mechanical device for cleaning rags, which can automatically and conveniently clean the rags, saves time and labor, has better cleaning effect, and simultaneously saves energy and has high efficiency.

In order to solve the technical problems, the technical scheme of the utility model is as follows:

a mechanical device for cleaning rags comprises an outer shell with an opening at the top and an upper cover body which is rotatably connected with the top of the outer shell;

an inner container for containing water is arranged in the outer shell, a general control assembly for controlling each part is arranged on the rear side wall of the outer shell, and an electronic display screen for displaying and touching various parameters is arranged at the top of the outer shell;

the outer side wall of the inner container is provided with a plurality of ultrasonic vibrators for vibration cleaning, the side wall of the inner container is communicated with and provided with a water inlet device, and the bottom of the inner container is communicated with and provided with a water outlet device;

the inner container is internally provided with a suspension assembly for clamping cleaning cloth;

and a drying device is arranged in the upper cover body and used for drying the cleaning cloth.

Further, the drying device comprises a first fan, a second fan, a cold-end radiating fin, a hot-end radiating fin and a ceramic heating pipe which are all arranged in the upper cover body and respectively form a cavity, and a semiconductor heating and refrigerating fin arranged between the cold-end radiating fin and the hot-end radiating fin;

the first fan and the second fan are respectively arranged on opposite corners of the upper cover body, the cold-end radiating fin cavity is communicated with the first fan cavity, one end of the cold-end radiating fin, which is far away from the first fan, is provided with an inclined plane, the lower end of the inclined plane is communicated with a drainage pipeline, one end of the hot-end radiating fin cavity is communicated with one end of the cold-end radiating fin cavity, which is provided with the inclined plane, one end of the ceramic heating pipe is communicated with the hot-end radiating fin cavity, and the other end of the ceramic heating pipe is communicated with the second fan cavity;

the first fan can extract the damp and hot air in the inner container, the cold end radiating fins can enable the damp and hot air to be condensed and dried, condensed water drops are discharged into the inner container through the drainage pipeline, heat released by condensation can be transmitted to the hot end through the semiconductor heating and refrigerating fins and enables the hot end radiating fins to generate heat, the hot end radiating fins can heat the air after drying and cooling, the ceramic heating pipe can perform secondary heating on the flowing air, and the hot air is discharged into the inner container through the second fan.

Further, the suspension assembly comprises supports arranged on two sides of the inner wall of the inner container, a plurality of metal rods detachably mounted on the supports, and a plurality of metal clamps arranged on the metal rods.

Further, a water level measuring sensor is arranged on the inner side wall of the inner container.

Further, an inner barrel heating sheet is installed at the bottom of the inner container, and a temperature measuring sensor is arranged at the bottom of the inner surface of the inner container.

Further, a high-power supply board is further arranged inside the outer shell and used for increasing power supply for the ultrasonic vibrator, the drying device and the inner barrel heating sheet.

Further, a detergent storage container is embedded in the top of the outer shell.

Further, an electric pump is further installed inside the cleaning agent storage container, and the bottom of the cleaning agent storage container is communicated with the inner container.

By adopting the technical scheme, the utility model has the following beneficial effects:

1. according to the utility model, the cleaning work is controlled through the touch electronic display screen, the cleaning cloth can be quickly and efficiently cleaned through the mutual matching of the inner container, the ultrasonic vibrator, the suspension assembly and the drying device, and meanwhile, the cleaning cloth is automatically dried by the drying device, so that the whole process is time-saving, labor-saving and very convenient.

2. According to the utility model, the ultrasonic vibrator is arranged, the dirt on the cleaning cloth is cleaned by utilizing ultrasonic vibration, and the inner barrel heating sheet is further arranged to heat hot water, so that the cleaning cloth has better cleaning effect, and some fine dirt can be fully cleaned.

3. The drying device sucks damp and hot air in the inner container through the first fan, the damp and hot air is condensed and dried through the cold-end radiating fins, condensed water drops flow back into the inner container, heat released by condensation can be transferred to the hot end through the semiconductor heating and refrigerating fins and enables the hot-end radiating fins to heat, so that the heat is recycled, the energy is saved, the dried air is primarily heated through the hot-end radiating fins and secondarily heated through the ceramic heating pipes, finally the air is discharged into the inner container through the second fan, the cleaning cloth on the suspension assembly is dried, the heat can be recycled through hot steam generated during the drying of the cleaning cloth, so that good circulation can be formed inside during the drying, the heat of the hot steam is not lost, the cleaning cloth does not need to be heated to a high temperature intentionally during the heating and drying, the effects of energy conservation and environmental protection are achieved, and the drying effect of the cleaning cloth is achieved more quickly and effectively, in addition, the cleaning cloth is cleaned by ultrasonic waves, so that the cleaning flow of the whole device is more complete, time is saved, convenience is realized, and redundant manual operation is not needed.

4. The cleaning agent storage container is additionally arranged, the electric pump is arranged in the cleaning agent storage container, the cleaning agent can be automatically pressed into the inner container, the automatic cleaning process is conveniently finished, the manual operation process is saved, and the whole process is efficient.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a rear side schematic view of the present invention;

FIG. 3 is a first schematic diagram of the internal structure of the present invention;

FIG. 4 is a second schematic view of the internal structure of the present invention;

FIG. 5 is a schematic view of the internal structure of the upper cover according to the present invention;

FIG. 6 is a schematic view of the inner container of the present invention;

wherein, 1, an upper cover body; 2. an outer housing; 3. an inner container; 4. a master control component; 5. a temperature measuring sensor; 6. a water level measuring sensor; 7. an inner barrel heating plate; 8. a high-power panel; 11. a first fan; 12. a second fan; 13. a cold end heat sink; 14. a semiconductor heating and refrigerating sheet; 15. a hot end heat sink; 16. a ceramic heating tube; 17. a water discharge pipeline; 130. an inclined surface; 21. a detergent storage container; 22. an electric pump; 23. an electronic display screen; 31. an ultrasonic vibrator; 32. a water inlet device; 33. a water outlet device; 91. a metal rod; 92. a metal clip; 93. and (4) a bracket.

Detailed Description

In order that the present invention may be more readily and clearly understood, a more particular description of the utility model briefly described above will be rendered by reference to specific embodiments that are illustrated in the appended drawings.

In the present embodiment, as shown in fig. 1-6, a mechanical device for cleaning rags is provided, which comprises a main body of an outer housing 2 having an opening at the top, wherein an upper cover 1 is rotatably connected to the opening at the top of the outer housing 2 through a hinge coupling. The outer casing 2 is hollow, and outer casing 2 internally mounted has the inner bag 3 that is used for adorning water, and the opening similar with outer casing 2 also has at 3 tops of inner bag, can be used to ultrasonic cleaning after 3 adorn water of inner bag. Install the subassembly 4 of always controlling of each part on the lateral wall behind shell body 2, always control subassembly 4 external power supply, always control subassembly 4 and specifically contain STM32F103 single chip microcomputer controlled processor module and wireless module. Install a plurality of ultrasonic vibrator 31 on the 3 lateral walls of inner bag, ultrasonic vibrator 31 has four in this embodiment, and the equipartition is in 3 lateral wall both sides of inner bag, and ultrasonic vibrator 31 receives the control of total control subassembly 4. The intercommunication is installed into water intaking ware 32 on the 3 lateral walls of inner bag, and during water intaking ware 32 one end passed through the pipeline and inserts inner bag 3, the other end passes through the outside water source of pipeline switch-on, and is equipped with the solenoid valve in the water intaking ware 32, and the solenoid valve receives the control of total accuse subassembly 4, and the solenoid valve is opened and is intake promptly, and the solenoid valve is closed then stops intaking. Similarly, the bottom of the inner container 3 is communicated with a water outlet device 33, one end of the water outlet device 33 is connected into the inner container 3 through a pipeline, the other end of the water outlet device 33 is connected with an external water discharge channel through a pipeline, an electromagnetic valve is also arranged in the water outlet device 33 and controlled by the master control component 4, when the electromagnetic valve is opened, water is discharged, and when the electromagnetic valve is closed, the water discharge port is blocked. The inner container 3 is internally provided with a hanging assembly for clamping cleaning cloth, and the hanging assembly can clamp the cleaning cloth when the ultrasonic vibrator 31 vibrates for cleaning so as to ensure that stains are cleaned by sufficient vibration. Go up 1 inside drying device that still is provided with of lid for the rag of drying, after the ultrasonic cleaning finishes, emit the water in the inner bag 3, the rag of reuse drying device can quick drying. In addition, the electronic display screen 23 is embedded in the top of the outer shell 2, the electronic display screen 23 is electrically connected with the master control assembly 4, the electronic display screen 23 can display various parameters of the device and can control all functions through the master control assembly 4, cleaning work is completed through operation, the embodiment of course also provides user app, various parameters and functions on the electronic display screen 23 can be synchronized, and the electronic display screen is more convenient and practical.

This embodiment is when specifically using, opens earlier lid 1, hangs dirty rag in inner bag 3 with hanging the subassembly centre gripping, covers lid 1, accomplishes various operating function through touching electronic display screen 23, can accomplish the cleaning, and is convenient and laborsaving, convenient high efficiency. During specific washing, earlier intake through water inlet device 32, wait to stop intaking after reaching the settlement time, water in the inner bag 3 has been with the complete submergence of rag this moment, then ultrasonic vibrator 31 begins vibrations clean, the setting can be adjusted to the vibrations time, it is clean to make the spot on rag surface clean through high-speed vibrations, emit the water in inner bag 3 through water outlet device 33 afterwards, it is clean to set up manifold cycles vibrations, in order to guarantee complete the sanitization, the vibrations are washd the back that finishes, water in the inner bag 3 has also been put, drying device can carry out drying process to the rag this moment, can take out the rag after the stoving is accomplished. The whole process is convenient and efficient, the cleaning effect is good, and the daily life of people is greatly facilitated.

Specifically, the drying device in this embodiment is composed of a first fan 11, a second fan 12, a cold-end heat sink 13, a hot-end heat sink 15, a ceramic heating pipe 16, and a semiconductor heating/cooling fin 14, which are installed inside the upper cover body 1. The end parts of the first fan 11 and the second fan 12 are connected with blower motors, and the blower motors are controlled by the master control assembly 4 to drive the fans to rotate. Wherein a cavity is formed between the first fan 11, the second fan 12, the cold-end radiating fins 13 and the hot-end radiating fins 15 and the upper cover body 1, a cavity structure is formed inside the ceramic heating pipe 16, the semiconductor heating and refrigerating fins 14 are installed between the cold-end radiating fins 13 and the hot-end radiating fins 15, the cold ends of the specific semiconductor heating and refrigerating fins 14 are connected with the cold-end radiating fins 13, the hot ends of the specific semiconductor heating and refrigerating fins are connected with the hot-end radiating fins 15, and the cooling and heating effects can be realized by the radiating fins on two sides respectively. Simultaneously first fan 11 and second fan 12 are installed respectively on 1 diagonal angle of upper cover body, cold end fin 13 cavity one end intercommunication first fan 11 cavity, the one end that first fan 11 was kept away from to cold end fin 13 has inclined plane 130, inclined plane 130 low side intercommunication is provided with drainage pipe 17, the setting of inclined plane 130 can effectively assemble the condensation water droplet and flow to drainage pipe 17 mouth, the one end intercommunication cold end fin 13 cavity of hot junction fin 15 cavity has the one end of inclined plane 130, 16 one ends of ceramic heating pipe communicate 15 cavities of hot junction fin, 16 other ends of ceramic heating pipe communicate second fan 12 cavities. When the whole drying device works, firstly, the first fan 11 rotates anticlockwise to extract damp and hot air in the inner container 3, the damp and hot air enters the cavity of the cold-end radiating fin 13 and is condensed and dried by the cold-end radiating fin 13, the dried air flows into the cavity of the hot-end radiating fin 15, condensed water drops are gathered by the inclined plane 130 and then are discharged into the inner container 3 through the drainage pipeline 17, heat released by condensation is transferred to the hot end through the semiconductor heating and cooling fin 14 and enables the hot-end radiating fin 15 to generate heat, so that heat loss can be reduced, heat recycling is realized, part of electric energy is further saved, the air entering the cavity of the hot-end radiating fin 15 flows into the inner cavity of the ceramic heating pipe 16 after primary heating, the ceramic heating pipe 16 performs secondary heating on the inflowing air, and the fully heated air is finally discharged into the inner container 3 through the clockwise rotation of the second fan 12, to achieve the effect of hot air drying the wipes. Produced hot steam can realize the heat and recycle when the rag is dried, so can make the stoving during operation form good circulation in inside, the heat of hot steam is not lost, and need not heat very high temperature to carelessly when heating is dried, and then reach energy-concerving and environment-protective effect, also realize the stoving effect to the rag more fast and effectively simultaneously, including the process of ultrasonic cleaning rag, make the clean flow of whole device more complete, save time and convenient, need not unnecessary manual operation.

Specifically, the suspension assembly in this embodiment is composed of a support 93 mounted on two sides of the inner wall of the inner container 3, a plurality of metal rods 91 detachably mounted on the support 93, and a plurality of metal clips 92 disposed on the metal rods 91. A plurality of square grooves are formed in the support 93, and the metal rod 91 can be pressed into the square grooves in the two sides from top to bottom, so that the ultrasonic vibration cleaning stability can be fully guaranteed, and the cleaning cloth can be conveniently detached and taken. The arrangement of the metal rods 91 can ensure that the cleaning cloths can be cleaned simultaneously, and the cleaning cloth can be used for finishing multiple times before once, so that convenience is greatly improved. The metal clip 92 is preferably fixed to the metal rod 91 to prevent the cloth from shaking during vibration.

In order to facilitate the monitoring of the water quantity in the inner container, a water level measuring sensor 6 is arranged on the inner side wall of the inner container 3 in the embodiment, and the water level measured by the water level measuring sensor 6 can be fed back to the electronic display screen 23 so as to realize the process of timely starting drying and avoid the accidental problems of insufficient water inflow or excessive water inflow.

In order to make the cleaning cloth cleaning effect better, the inner barrel heating sheet 7 is installed at the bottom of the inner container 3 of the embodiment by matching hot water with ultrasonic wave for cleaning, and the temperature measuring sensor 5 is also arranged at the bottom of the inner surface of the inner container 3. When utilizing ultrasonic vibration to come the spot on the rag clean, further come the hot water of heating through interior bucket heating plate 7 for clean rag effect is better, also can fully rinse totally including some slight spots, and temperature sensor 5 is used for monitoring the temperature and feeds back to electronic display screen 23 on, also can set up the temperature that needs the heating through electronic display screen 23.

In order to ensure that the ultrasonic vibrator 31 can work to the maximum extent and improve the heating and drying efficiency, the high-power supply board 8 is further installed inside the outer shell 2 in the embodiment, and the high-power supply board 8 is electrically connected with the master control assembly 4 and used for increasing power and supplying power to the ultrasonic vibrator 31, the drying device and the inner barrel heating plate 7.

In order to reduce the time for taking out the cleaning agent, a cleaning agent storage container 21 is embedded in the top of the outer casing 2 in the embodiment. Meanwhile, an electric pump 22 is further installed inside the cleaning agent storage container 21, the bottom of the cleaning agent storage container 21 is communicated with the inner container 3 through a pipeline, and the electric pump 22 is controlled by the master control assembly 4. When cleaning the rag, electric pump 22 will work automatically and impress the sanitizer in the inner bag to conveniently accomplish self-cleaning's process, so saved manual operation flow, made the high-efficient convenience of whole process.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The technical problems, technical solutions and advantages of the present invention have been described in detail with reference to the above embodiments, and it should be understood that the above embodiments are merely exemplary embodiments of the present invention and are not intended to limit the present invention, and any modifications, equivalents, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (8)

1. A mechanical device for cleaning a wipe, comprising: comprises an outer shell (2) with an opening at the top and an upper cover body (1) rotationally connected with the top of the outer shell (2);

an inner container (3) used for containing water is arranged inside the outer shell (2), a general control assembly (4) used for controlling each part is arranged on the rear side wall of the outer shell (2), and an electronic display screen (23) used for displaying and touching various parameters is arranged at the top of the outer shell (2);

a plurality of ultrasonic vibrators (31) for vibration cleaning are mounted on the outer side wall of the inner container (3), a water inlet device (32) is communicated and mounted on the side wall of the inner container (3), and a water outlet device (33) is communicated and mounted at the bottom of the inner container (3);

a hanging assembly is arranged inside the inner container (3) and used for clamping cleaning cloth;

and a drying device is arranged in the upper cover body (1) and used for drying the cleaning cloth.

2. The mechanism for cleaning a wipe of claim 1, wherein: the drying device comprises a first fan (11), a second fan (12), a cold-end radiating fin (13), a hot-end radiating fin (15), a ceramic heating pipe (16) and a semiconductor heating and refrigerating fin (14), wherein the first fan, the second fan, the cold-end radiating fin (13), the hot-end radiating fin (15) and the ceramic heating pipe (16) are all arranged in an upper cover body (1) and respectively form a cavity;

the first fan (11) and the second fan (12) are respectively arranged on opposite angles of the upper cover body (1), the cavity of the cold-end radiating fin (13) is communicated with the cavity of the first fan (11), an inclined plane (130) is arranged at one end, far away from the first fan (11), of the cold-end radiating fin (13), the lower end of the inclined plane (130) is communicated with a drainage pipeline (17), one end of the cavity of the hot-end radiating fin (15) is communicated with one end, provided with the inclined plane (130), of the cavity of the cold-end radiating fin (13), one end of the ceramic heating pipe (16) is communicated with the cavity of the hot-end radiating fin (15), and the other end of the ceramic heating pipe (16) is communicated with the cavity of the second fan (12);

the first fan (11) can extract damp and hot air in the inner container (3), the cold-end radiating fins (13) can condense and dry the damp and hot air, condensed water drops are discharged into the inner container (3) through the drainage pipeline (17), heat released by condensation can be transmitted to the hot end through the semiconductor heating and cooling fins (14) and enables the hot-end radiating fins (15) to generate heat, the hot-end radiating fins (15) can heat the dried and cooled air, the ceramic heating pipe (16) can perform secondary heating on the inflowing air, and the hot air is discharged into the inner container (3) through the second fan (12).

3. The mechanism for cleaning a wipe of claim 1, wherein: the suspension assembly comprises a support (93) arranged on two sides of the inner wall of the inner container (3), a plurality of metal rods (91) detachably mounted on the support (93), and a plurality of metal clamps (92) arranged on the metal rods (91).

4. A mechanism for cleaning a wipe according to any of claims 1 to 3, wherein: and a water level measuring sensor (6) is arranged on the inner side wall of the inner container (3).

5. A mechanism for cleaning a wipe according to claim 4, wherein: an inner barrel heating sheet (7) is installed at the bottom of the inner barrel (3), and a temperature measuring sensor (5) is arranged at the bottom of the inner surface of the inner barrel (3).

6. The mechanism for cleaning a wipe of claim 5, wherein: the high-power ultrasonic dryer is characterized in that a high-power supply board (8) is further arranged inside the outer shell (2), and the high-power supply board (8) is used for increasing power to supply power to the ultrasonic vibrator (31), the drying device and the inner barrel heating sheet (7).

7. A mechanism for cleaning a wipe according to any of claims 1 to 3, 5 or 6, wherein: a detergent storage container (21) is further embedded in the top of the outer shell (2).

8. The mechanism for cleaning a wipe of claim 7, wherein: an electric pump (22) is further mounted inside the cleaning agent storage container (21), and the bottom of the cleaning agent storage container (21) is communicated with the inner container (3).

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