CN218922508U - Cloth cleaner - Google Patents

Abstract

The utility model discloses a cloth cleaning machine, which comprises: the steam generator is arranged in the shell and comprises a water pipe and a heating pipe, the two ends of the water pipe are respectively provided with a water inlet and a steam outlet, the heating pipe is in thermal contact with the water pipe so as to heat water in the water pipe into steam and discharge the steam from the steam outlet, at least part of the water pipe is bent and wound to form a first winding section, and at least part of the heating pipe is bent and wound to form a second winding section. Therefore, the length of the water pipe and the heating pipe can be prolonged in the limited space of the water vapor generator by bending and winding at least part of the water pipe and the heating pipe, so that the heating efficiency of water in the water vapor generator can be improved, the rate of generating water vapor by the water vapor generator can be accelerated, the space structure of the cloth cleaner can be optimized, and the working efficiency of the cloth cleaner can be improved.

Description

Cloth cleaner

Technical Field

The utility model relates to the technical field of cleaning equipment, in particular to a cloth cleaning machine.

Background

With the progress of science and technology and the improvement of living standard of people, the fabric cleaner is popular among people, and the fabric cleaner can maintain the domestic living environment of families such as young children, pet raising, and the like, can cope with the cleaning of dirt in daily life, satisfies the daily cleaning requirement of pet raising people, improves the health problem that the pet brought, and the fabric cleaner mainly can clean articles such as fabric, sofa, carpet, cushion, throw pillow, mattress, and the like which are difficult to clean, not only saves cleaning time, but also has good cleaning effect.

In the prior art, the cloth art cleaner with steam function has a complex space structure, low space utilization rate and slower steam generating speed, so that the use experience of a user is poor.

Disclosure of Invention

The present utility model aims to solve at least one of the technical problems existing in the prior art. Therefore, the utility model provides the cloth cleaner which has high working efficiency and can improve user experience.

According to an embodiment of the utility model, a cloth cleaning machine comprises: a housing; a clean water tank provided on the casing; the water pump is arranged in the shell, and one end of the water pump is communicated with the water purifying tank; the water vapor generator is arranged in the shell and comprises a water pipe and a heating pipe, a water inlet and a water vapor outlet are respectively formed in two ends of the water pipe, the water inlet is communicated with the other end of the water pump, the heating pipe is in thermal contact with the water pipe so as to heat water vapor in the water pipe and discharge the water vapor from the water vapor outlet, at least part of the water pipe is bent and wound to form a first winding section, the first winding section is arranged between the water inlet and the water vapor outlet, at least part of the heating pipe is bent and wound to form a second winding section, and the second winding section is arranged on the inner side of the first winding section and corresponds to the first winding section.

Therefore, the length of the water pipe and the heating pipe can be prolonged in the limited space of the water vapor generator by bending and winding at least part of the water pipe and the heating pipe, so that the heating efficiency of water in the water vapor generator can be improved, the rate of generating water vapor by the water vapor generator can be accelerated, the space structure of the cloth cleaner can be optimized, and the working efficiency of the cloth cleaner can be improved.

According to some embodiments of the utility model, the water pipe comprises a first straight pipe section, a second straight pipe section, and the first winding section, the water inlet is provided at the first straight pipe section, the water vapor outlet is provided at the second straight pipe section, and the first winding section is provided between the first straight pipe section and the second straight pipe section; the heating pipe comprises a third straight pipe section, a fourth straight pipe section and a second winding section, wherein the second winding section is arranged between the third straight pipe section and the fourth straight pipe section, the third straight pipe section is arranged above the first straight pipe section, the fourth straight pipe section is arranged above the second straight pipe section, and the second winding section is arranged on the inner side of the first winding section.

According to some embodiments of the utility model, the first winding section includes a plurality of first sub-winding sections circumferentially wound one turn, the plurality of first sub-winding sections are connected to each other and arranged in a width direction of the water vapor generator, and the second winding section includes a plurality of second sub-winding sections circumferentially wound one turn, the plurality of second sub-winding sections are connected to each other and arranged in the width direction of the water vapor generator.

According to some embodiments of the utility model, the cloth cleaning machine further comprises a heat conducting member, wherein the heating pipe and the water pipe are arranged in the heat conducting member, and the heating pipe transfers heat to the water pipe through the heat conducting member.

According to some embodiments of the utility model, the heat conducting member is a die-cast aluminum heat conducting member.

According to some embodiments of the utility model, the cloth cleaning machine further comprises a transfer tube, the transfer tube is provided with an air inlet, an air outlet and a pressure relief opening, the air inlet is communicated with the water vapor outlet, the air outlet is communicated with the vapor flow channel, the pressure relief opening is communicated with the sewage tank, and one of the air outlet and the pressure relief opening is selectively communicated with the air inlet.

According to some embodiments of the utility model, a pressure sensor is arranged in the transfer pipe, the air outlet is provided with a first switch valve, the pressure relief opening is provided with a second switch valve, the first switch valve and the second switch valve are electrically connected with the pressure sensor, and the pressure sensor selectively opens one of the first switch valve and the second switch valve so that the air outlet and one of the pressure relief opening are communicated with the air inlet.

According to some embodiments of the utility model, the cloth cleaning machine further comprises an adapter plate, wherein the adapter plate is arranged in the machine shell and fixedly connected with the bottom of the machine shell, and the water vapor generator is arranged on the adapter plate.

According to some embodiments of the utility model, the bottom of the casing is provided with a drain opening, the inside of the casing is provided with a shielding cap at a position corresponding to the drain opening, the top of the shielding cap is opposite to the drain opening and is arranged at intervals, and the circumferential side wall of the shielding cap is at least partially open.

According to some embodiments of the utility model, the cloth cleaning machine further comprises a handle, wherein a steam button is arranged on the handle, and the steam button is electrically connected with the steam generator.

Additional aspects and advantages of the utility model will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the utility model.

Drawings

The foregoing and/or additional aspects and advantages of the utility model will become apparent and may be better understood from the following description of embodiments taken in conjunction with the accompanying drawings in which:

FIG. 1 is a schematic view of a cloth cleaning machine according to an embodiment of the present utility model;

FIG. 2 is a partial schematic view of a cloth cleaning machine according to an embodiment of the present utility model;

FIG. 3 is a partial schematic view of a cloth cleaning machine according to an embodiment of the present utility model;

FIG. 4 is a schematic illustration of a water tube and heating tube according to an embodiment of the utility model;

FIG. 5 is a schematic diagram of a transfer tube according to an embodiment of the utility model;

FIG. 6 is an exploded view of a cloth cleaning machine according to an embodiment of the present utility model;

fig. 7 is a schematic view of the area a in fig. 6.

Reference numerals:

100. a cloth cleaner;

10. a housing; 20. a clean water tank; 30. a water pump;

40. a water vapor generator; 41. a water pipe; 411. a water inlet; 412. a water vapor outlet; 413. a first winding section; 4131. a first sub-winding section; 414. a first straight pipe section; 415. a second straight tube section; 42. heating pipes; 421. a second winding section; 4211. a second sub-winding section; 422. a third straight pipe section; 423. a fourth straight tube section;

50. a heat conductive member;

60. a transfer tube; 61. an air inlet; 62. an air outlet; 63. a pressure relief port;

70. an adapter plate;

80. a water outlet; 81. a shielding cap;

90. a handle; 91. and (5) a steam key.

Detailed Description

Embodiments of the present utility model will be described in detail below, by way of example with reference to the accompanying drawings.

The following figures describe a cloth cleaning machine 100 according to an embodiment of the present utility model with reference to fig. 1-7.

As shown in fig. 1 to 7, a cloth cleaning machine 100 according to an embodiment of the present utility model may mainly include: the shell 10, clean water tank 20, water pump 30 and steam generator 40, wherein, the shell 10 is the overall structure of cloth art cleaning machine 100, can promote the structural integrity of cloth art cleaning machine 100, can guarantee the structural strength of cloth art cleaning machine 100, clean water tank 20 can provide clean water for the steam function of cloth art cleaning machine 100, can guarantee that the steam that cloth art cleaning machine 100 produced satisfies user's clean requirement, can promote the cleaning effect of cloth art cleaning machine 100 to the fabric furniture, clean water tank 20 sets up on shell 10, shell 10 can provide reliable and stable mounted position and operational environment for clean water tank 20, the user can pour quantitative water into clean water tank 20 when using cloth art cleaning machine 100, clean water tank 20 can purify the effect of pouring into, and then can guarantee that the steam that cloth art cleaning machine 100 produced is clean and sanitary.

Further, a water pump 30 is provided in the casing 10 and has one end in communication with the fresh water tank 20, and a steam generator 40 is provided in the casing 10. Specifically, the water pump 30 can provide power for water flowing in the cloth cleaner 100, the water pump 30 is disposed in the casing 10, the casing 10 can provide a stable and reliable installation position and working environment for the water pump 30, one end of the water pump 30 is communicated with the clean water tank 20, when the cloth cleaner 100 is electrified, the water pump 30 can accelerate and discharge water in the clean water tank 20, and water flow is enabled to the next component, so that normal operation of the cloth cleaner 100 can be ensured, the water flowing out of the clean water tank 20 can be converted into water vapor by the water vapor generator 40, realization of vapor function of the cloth cleaner 100 can be ensured, and the casing 10 can also provide a stable and reliable installation position and working environment for the water vapor generator 40, so that normal operation of vapor function of the cloth cleaner 100 can be ensured.

Further, the water vapor generator 40 includes a water pipe 41 and a heating pipe 42, both ends of the water pipe 41 are respectively provided with a water inlet 411 and a water vapor outlet 412, the water inlet 411 is communicated with the other end of the water pump 30, and the heating pipe 42 is in thermal contact with the water pipe 41 to heat water in the water pipe 41 into water vapor and discharge the water vapor from the water vapor outlet 412. Specifically, the water vapor generator 40 includes a water pipe 41 and a heating pipe 42, two ends of the water pipe 41 are respectively provided with a water inlet 411 and a water vapor outlet 412, the water inlet 411 is communicated with the other end of the water pump 30, so that after the water pump 30 pumps water from the clean water tank 20, the water flows from one end of the water pump 30 to the other end, and enters the water pipe 41 of the water vapor generator 40 through the water inlet 411, so that the water can flow in the cloth cleaning machine 100, the heating pipe 42 is in thermal contact with the water pipe 41, after the water flows into the water pipe 41, the heat emitted by the heating pipe 42 is transferred to the water pipe 41, so that the water in the water pipe 41 can be heated, when the water temperature in the water pipe 41 reaches a boiling point, the water is converted into water vapor in the water pipe 41 and continuously moves in the water pipe 41, and finally the water vapor can be sprayed out of the water vapor outlet 412, so that the water vapor generator 40 can be ensured to stably generate the water vapor, and then the steam function of the cloth cleaning machine 100 can be operated normally.

Further, at least part of the water pipe 41 is wound in a curved manner to form a first wound section 413, the first wound section 413 being disposed between the water inlet 411 and the water vapor outlet 412, and at least part of the heating pipe 42 is wound in a curved manner to form a second wound section 421. Specifically, the water pipe 41 is at least partially bent and wound to form a first winding section 413, the first winding section 413 is disposed between the water inlet 411 and the water vapor outlet 412, at least part of the heating pipe 42 is bent and wound to form a second winding section 421, so that the distance and time for thermal contact between the water pipe 41 and the heating pipe 42 can be increased in a limited space in the casing 10, the reliability of water converted into water vapor in the water pipe 41 can be ensured, the steam function of the fabric cleaner 100 can be reliably operated, the structure of the water vapor generator 40 can be made more compact by the arrangement of the first winding section 413 and the second winding section 421, the space ratio of the water vapor generator 40 in the fabric cleaner 100 can be reduced, the water vapor generation rate of the water vapor generator 40 can be increased on the premise that the space structure of the water vapor generator 40 is kept unchanged, and the work efficiency of the fabric cleaner 100 can be improved.

Further, the second winding section 421 is provided inside the first winding section 413, and corresponds to the first winding section 413. Specifically, the second winding section 421 is disposed on the inner side of the first winding section 413 and corresponds to the first winding section 413, so that heat generated by the heating pipe 42 can be directly transferred to the water pipe 41, and loss of heat generated by the heating pipe 42 can be reduced, so that not only can the speed of converting water into steam be increased, but also the electric energy consumption of the fabric cleaner 100 can be reduced, the steam generation speed of the fabric cleaner 100 can be increased, the power consumption is low, and better use experience can be brought to a user by the fabric cleaner 100.

Therefore, by bending and winding at least part of the water pipe 41 and the heating pipe 42, the lengths of the water pipe 41 and the heating pipe 42 can be prolonged in the limited space of the water vapor generator 40, so that the heating efficiency of water in the water vapor generator 40 can be improved, the rate of generating water vapor by the water vapor generator 40 can be increased, the space structure of the cloth cleaner 100 can be optimized, and the working efficiency of the cloth cleaner 100 can be improved.

According to some embodiments of the present utility model, as shown in connection with fig. 3-4, the water pipe 41 includes a first straight pipe section 414, a second straight pipe section 415, and a first winding section 413, the water inlet 411 is disposed at the first straight pipe section 414, the water vapor outlet 412 is disposed at the second straight pipe section 415, and the first winding section 413 is disposed between the first straight pipe section 414 and the second straight pipe section 415. Specifically, the water pipe 41 includes a first straight pipe section 414, a second straight pipe section 415 and a first winding section 413, the water inlet 411 is disposed in the first straight pipe section 414, the water vapor outlet 412 is disposed in the second straight pipe section 415, the first winding section 413 is disposed between the first straight pipe section 414 and the second straight pipe section 415, so that the first straight pipe section 414 and the second straight pipe section 415 are both in a straight pipe shape, the water inlet 411 can be conveniently connected with the other end of the water pump 30, the water vapor outlet 412 can be conveniently disposed in the water vapor generator 40, and thus the assembly difficulty of the water vapor generator 40 can be reduced, the first winding section 413 is disposed between the first straight pipe section 414 and the second straight pipe section 415, the stable installation of the first winding section 413 between the first straight pipe section 414 and the second straight pipe section 415 can be ensured, and the stable installation of the water pipe 41 in the water vapor generator 40 can be conveniently realized.

According to some embodiments of the present utility model, as shown in connection with fig. 3-4, the heating tube 42 includes a third straight tube segment 422, a fourth straight tube segment 423, and a second winding segment 421, the second winding segment 421 is disposed between the third straight tube segment 422 and the fourth straight tube segment 423, the third straight tube segment 422 is disposed above the first straight tube segment 414, the fourth straight tube segment 423 is disposed above the second straight tube segment 415, and the second winding segment 421 is disposed inside the first winding segment 413. Specifically, the heating pipe 42 includes a third straight pipe section 422, a fourth straight pipe section 423 and a second winding section 421, where the third straight pipe section 422 and the fourth straight pipe section 423 are all straight pipe-shaped, so that the heating pipe 42 can be conveniently installed and fixed in the steam generator 40, the second winding section 421 is disposed between the third straight pipe section 422 and the fourth straight pipe section 423, stable installation of the second winding section 421 between the third straight pipe section 422 and the fourth straight pipe section 423 can be ensured, and stable installation of the heating pipe 42 in the steam generator 40 can be conveniently performed.

Further, the third straight pipe section 422 is disposed above the first straight pipe section 414, the fourth straight pipe section 423 is disposed above the second straight pipe section 415, and the second winding section 421 is disposed inside the first winding section 413, so that the water pipe 41 can be ensured to enclose the heating pipe 42, the thermal contact rate of the heating pipe 42 and the water pipe 41 can be improved, the water boiling rate of the water pipe 41 can be improved, the heat loss generated by the heating pipe 42 can be reduced, the heat transfer efficiency between the heating pipe 42 and the water pipe 41 can be improved, the electric energy consumption of the heating pipe 42 can be saved, the power consumption of the cloth cleaner 100 can be reduced, and the cloth cleaner 100 can be more power-saving.

As shown in fig. 3, the first winding section 413 includes a plurality of first sub-winding sections 4131, the first sub-winding sections 4131 are circumferentially wound for one turn, a plurality of first sub-winding sections 4131 are mutually connected and are arranged in the width direction of the water vapor generator 40, the second winding section 421 includes a plurality of second sub-winding sections 4211, the second sub-winding sections 4211 are circumferentially wound for one turn, a plurality of second sub-winding sections 4211 are mutually connected and are arranged in the width direction of the water vapor generator 40, so that the distance and time for thermal contact between the water pipe 41 and the heating pipe 42 can be further increased in a limited space in the casing 10, the reliability of water in the water pipe 41 can be ensured, the steam function of the cloth cleaner 100 can be further operated reliably, and the arrangement of the plurality of first sub-winding sections 4131 and the plurality of second sub-winding sections 4211 can further improve the steam generator 40 on the premise that the space structure of the water vapor generator 40 is unchanged, so that the work efficiency of the cloth cleaner 100 can be further improved.

Referring to fig. 3, the fabric cleaning machine 100 further includes a heat conducting member 50, and the heating pipe 42 and the water pipe 41 are disposed in the heat conducting member 50, wherein the heating pipe 42 transfers heat to the water pipe 41 through the heat conducting member 50. Specifically, the fabric cleaning machine 100 includes the heat conducting member 50, the heat conducting member 50 is made of a material with good heat conducting performance, the heating pipe 42 and the water pipe 41 are both arranged in the heat conducting member 50, and heat generated by the heating pipe 42 can be transferred to the water pipe 41 through the heat conducting member 50, so that heat transfer efficiency between the heating member and the water pipe 41 can be improved, water in the water pipe 41 can be heated more uniformly, efficiency of generating water vapor by the water vapor generator 40 can be improved, and further working efficiency of the fabric cleaning machine 100 can be improved.

According to the embodiment of the utility model, the heat conducting member 50 is a die-casting aluminum heat conducting member, a double-layer heat insulating layer is arranged in the heat conducting member 50, so that heat loss of the heating member can be further reduced, water enters the water pipe 41 from the water inlet 411 in the working process of the water vapor generator 40, flows along the first straight pipe section 414, the first winding section 413 and the second straight pipe section 415, heat generated by the heating member is transferred to the water pipe 41 through the die-casting aluminum heat conducting member, and when the water flows in the water pipe 41 along the first straight pipe section 414, the first winding section 413 and the second straight pipe section 415, generated water vapor flows out from the water vapor outlet 412, the heat transfer efficiency of the die-casting aluminum heat conducting member can be accelerated, and the working efficiency of the water vapor generator can be improved.

As shown in fig. 2, 3 and 5, the cloth cleaning machine 100 includes a transfer tube 60, the transfer tube 60 is provided with an air inlet 61, an air outlet 62 and a pressure relief port 63, the air inlet 61 is communicated with the steam outlet 412, the air outlet 62 is communicated with the steam flow passage, the pressure relief port 63 is communicated with the sewage tank, and one of the air outlet 62 and the pressure relief port 63 is selectively communicated with the air inlet 61. Specifically, the fabric cleaner 100 is provided with a transfer pipe 60, and the transfer pipe 60 is provided with an air inlet 61, an air outlet 62 and a pressure relief port 63, wherein the air inlet 61 is communicated with the water vapor outlet 412, so that water vapor generated in the water vapor generator 40 can be moved from the water vapor outlet 412 to the transfer pipe 60 through the air inlet 61.

Further, the air outlet 62 on the adapting pipe 60 is communicated with the steam flow channel in the fabric cleaner 100, the pressure relief port 63 is communicated with the sewage tank in the fabric cleaner 100, one of the air outlet 62 and the pressure relief port 63 is selectively communicated with the air inlet 61, so that the water vapor generated in the water vapor generator 40 is controlled by the adapting pipe 60 to selectively flow into the steam flow channel or the sewage tank, thereby not only ensuring that the steam can stably move into the steam flow channel, but also preventing the water vapor from excessively increasing, so that the risk of bursting caused by excessive pressure in the fabric cleaner 100 is avoided.

According to an embodiment of the present utility model, a pressure sensor is disposed in the adapter tube 60, the air outlet 62 is provided with a first switching valve, the pressure relief port 63 is provided with a second switching valve, the first switching valve and the second switching valve are electrically connected to the pressure sensor, and the pressure sensor selectively opens one of the first switching valve and the second switching valve to communicate one of the air outlet 62 and the pressure relief port 63 with the air inlet 61. Specifically, a pressure sensor is disposed in the adapter tube 60, the pressure sensor can monitor the pressure at the adapter tube 60, the air outlet 62 is provided with a first switch valve, the pressure relief opening 63 is provided with a second switch valve, the first switch valve and the second switch valve are electrically connected with the pressure sensor, so that the pressure sensor can control the opening and closing of the first switch valve and the second switch valve through the electrical connection, the pressure sensor selectively opens one of the first switch valve and the second switch valve, and one of the air outlet 62 and the pressure relief opening 63 can be communicated with the air inlet 61.

Further, when the pressure sensor detects that the pressure in the transfer pipe 60 is lower than the preset value, the pressure sensor controls the first switch valve to open the air outlet 62, the second switch valve is closed, so that water vapor can enter the steam pipeline from the air outlet 62, at this time, the steam function of the cloth cleaning machine 100 is normally used, when the pressure sensor detects that the pressure in the transfer pipe 60 is higher than the preset value, the pressure sensor controls the second switch valve to open, the first switch valve is closed, so that the water vapor can be moved from the transfer pipe 60 to the sewage tank, thereby releasing the pressure of the transfer pipe 60, and preventing the water vapor from continuously entering the transfer pipe 60 to cause the pressure increase of the transfer pipe 60 to burst.

Referring to fig. 3 and 6, the fabric cleaning machine 100 further includes an adapter plate 70, where the adapter plate 70 is disposed in the casing 10 and fixedly connected to the bottom of the casing 10, and the steam generator 40 is disposed on the adapter plate 70. Specifically, the fabric cleaner 100 further includes an adapter plate 70, where the adapter plate 70 is disposed in the casing 10 and is connected and fixed with the bottom of the casing 10, and the steam generator 40 is disposed on the adapter plate 70, so that the fabric cleaner 100 can provide a stable and reliable mounting position for the steam generator 40 on the premise of keeping the original structure and size, and the structural versatility of the fabric cleaner 100 can be improved on the premise of keeping the spatial structure of the fabric cleaner 100 unchanged, so that not only the processing and production of the fabric cleaner 100 can be simplified, but also the fabric cleaner 100 can provide more functions for users, and further the use experience of users can be improved.

As shown in fig. 6 and 7, the bottom of the casing 10 is provided with a drain port 80, the inside of the casing 10 is provided with a shielding cap 81 at a position corresponding to the drain port 80, the top of the shielding cap 81 is opposite to and spaced from the drain port 80, and the circumferential side wall of the shielding cap 81 is at least partially opened. Specifically, the bottom of the casing 10 is provided with the water outlet 80, the number of the water outlets 80 at the bottom of the casing 10 is at least one, the water in the bottom of the casing 10 can flow out of the casing 10 conveniently through the water outlet 80, and the water can be prevented from accumulating in the casing 10 to damage the circuit in the fabric cleaner 100, so that the safe use of the fabric cleaner 100 can be ensured. Further, the shielding cap 81 is arranged at the position corresponding to the water outlet 80 in the casing 10, the top of the shielding cap 81 is opposite to the water outlet 80 and is arranged at intervals, the circumferential side wall of the shielding cap 81 is at least partially open, so that the arrangement is adopted, the working reliability of the water outlet 80 can be ensured, components in the cloth cleaner 100 can be prevented from penetrating out of the water outlet 80, the components in the cloth cleaner 100 can not be seen when a user observes the bottom of the cloth cleaner 100, the shielding cap 81 can play a role of shielding ugly, and the use experience of the user can be improved.

As shown in fig. 1, 2 and 6, the fabric cleaning machine 100 further includes a handle 90, and a steam button 91 is disposed on the handle 90, where the steam button 91 is electrically connected to the steam generator 40. Specifically, be provided with handle 90 on the fabric cleaner 100, can make the fabric cleaner 100 be convenient for the user remove and use, be provided with steam button 91 on the handle 90, steam button 91 is connected with steam generator 40 electricity, the user can be through pressing steam button 91 when using the fabric cleaner 100, steam button 91 starts steam generator 40 work through the electric connection, and then can start the steam function of fabric cleaner 100, the steam is arranged from the fabric cleaner 100, can improve the clean effect of fabric cleaner 100 like this, can make the fabric cleaner 100 satisfy user's user demand, can promote user's use experience.

In the description of the present utility model, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the device or element being referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present utility model.

In the description of the present specification, reference to the terms "one embodiment," "some embodiments," "illustrative embodiments," "examples," "specific examples," or "some examples," etc., means 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, schematic representations of the above terms do not necessarily refer to the same embodiments or examples.

While embodiments of the present utility model have been shown and described, it will be understood by those of ordinary skill in the art that: many changes, modifications, substitutions and variations may be made to the embodiments without departing from the spirit and principles of the utility model, the scope of which is defined by the claims and their equivalents.

Claims (10)

1. A cloth cleaning machine (100), characterized by comprising:

a housing (10);

a clean water tank (20), the clean water tank (20) being arranged on the housing (10);

the water pump (30) is arranged in the shell (10), and one end of the water pump (30) is communicated with the water purifying tank (20);

the water vapor generator (40), water vapor generator (40) set up in casing (10), water vapor generator (40) include water pipe (41) and heating pipe (42), the both ends of water pipe (41) are provided with water inlet (411) and steam outlet (412) respectively, water inlet (411) with the other end of water pump (30) is linked together, heating pipe (42) with water pipe (41) thermal contact is in order to with the water heating steam in water pipe (41) and follow steam outlet (412) discharge, the at least some crooked winding of water pipe (41) sets up in order to form first winding section (413), first winding section (413) set up in water inlet (411) with between steam outlet (412), the crooked winding of at least part of heating pipe (42) sets up in order to form second winding section (421), second winding section (421) set up in the inboard of first winding section (413) and with first winding section (413) corresponds.

2. The cloth cleaning machine (100) according to claim 1, wherein the water pipe (41) comprises a first straight pipe section (414), a second straight pipe section (415) and the first winding section (413), the water inlet (411) is arranged at the first straight pipe section (414), the water vapor outlet (412) is arranged at the second straight pipe section (415), and the first winding section (413) is arranged between the first straight pipe section (414) and the second straight pipe section (415);

the heating pipe (42) comprises a third straight pipe section (422), a fourth straight pipe section (423) and a second winding section (421), the second winding section (421) is arranged between the third straight pipe section (422) and the fourth straight pipe section (423), the third straight pipe section (422) is arranged above the first straight pipe section (414), the fourth straight pipe section (423) is arranged above the second straight pipe section (415), and the second winding section (421) is arranged inside the first winding section (413).

3. The cloth cleaning machine (100) according to claim 1, wherein the first winding section (413) comprises a plurality of first sub-winding sections (4131), the first sub-winding sections (4131) are circumferentially wound one turn, the plurality of first sub-winding sections (4131) are connected to each other and are arranged in the width direction of the water vapor generator (40), the second winding section (421) comprises a plurality of second sub-winding sections (4211), the second sub-winding sections (4211) are circumferentially wound one turn, and the plurality of second sub-winding sections (4211) are connected to each other and are arranged in the width direction of the water vapor generator (40).

4. The cloth cleaning machine (100) according to claim 1, further comprising a heat conducting member (50), wherein the heating pipe (42) and the water pipe (41) are both disposed within the heat conducting member (50), and wherein the heating pipe (42) transfers heat into the water pipe (41) through the heat conducting member (50).

5. The cloth cleaning machine (100) according to claim 4, wherein the heat conducting member (50) is a die-cast aluminum heat conducting member (50).

6. The cloth cleaning machine (100) according to claim 1, further comprising a transfer tube (60), the transfer tube (60) being provided with an air inlet (61), an air outlet (62) and a pressure relief opening (63), the air inlet (61) being in communication with the steam outlet (412), the air outlet (62) being in communication with a steam flow path, the pressure relief opening (63) being in communication with a sewage tank, one of the air outlet (62) and the pressure relief opening (63) being in selective communication with the air inlet (61).

7. The cloth cleaning machine (100) according to claim 6, wherein a pressure sensor is disposed in the adapter tube (60), the air outlet (62) is provided with a first switch valve, the pressure relief port (63) is provided with a second switch valve, the first switch valve and the second switch valve are electrically connected with the pressure sensor, and the pressure sensor selectively opens one of the first switch valve and the second switch valve to enable one of the air outlet (62) and the pressure relief port (63) to be communicated with the air inlet (61).

8. The cloth cleaning machine (100) according to claim 1, further comprising an adapter plate (70), wherein the adapter plate (70) is disposed in the housing (10) and fixedly connected to the bottom of the housing (10), and the steam generator (40) is disposed in the adapter plate (70).

9. The cloth art cleaning machine (100) according to claim 1, wherein a water outlet (80) is formed in the bottom of the casing (10), a shielding cap (81) is arranged in the casing (10) at a position corresponding to the water outlet (80), the top of the shielding cap (81) is opposite to the water outlet (80) and is arranged at intervals, and the circumferential side wall of the shielding cap (81) is at least partially open.

10. The cloth cleaning machine (100) according to claim 1, further comprising a handle (90), wherein a steam button (91) is provided on the handle (90), and the steam button (91) is electrically connected with the steam generator (40).

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