CN220831569U - Mite removing instrument - Google Patents

Abstract

The utility model relates to the technical field of mite removing instruments, in particular to a mite removing instrument which comprises a shell, wherein a water tank assembly, a heating assembly and a suction assembly are arranged in the shell, and an air inlet, a heat exhaust air port and a steam exhaust port are arranged on the shell; a first heating channel is formed in the heating component, and a second heating channel is formed between the outer wall of the heating component and the bottom plate of the shell; the water outlet of the water tank assembly is communicated with the water inlet of the heating assembly, the water inlet is communicated with the inlet of the heating channel I, and the outlet of the heating channel I is communicated with the steam discharge port to form a steam pipeline; the air inlet is communicated with an air inlet pipe of the suction assembly, an air outlet pipe of the suction assembly is communicated with a heating channel II, and the heating channel II is communicated with the heat exhaust air inlet to form a hot air pipeline. The utility model is arranged in such a way that the steam pipeline and the hot air pipeline are arranged in the shell, so that the double-layer sterilizing, mite and peculiar smell removing effects are realized; and the steam heating and the hot air heating are the same heating component, and two sets of heating devices are not needed to be arranged, so that the cost is reduced.

Description

Mite removing instrument

Technical Field

The utility model relates to the technical field of mite removal instruments, in particular to a mite removal instrument.

Background

At present, the mite removing instrument mainly uses the ultraviolet lamp tube to sterilize, so that the ultraviolet intensity and the area of the ultraviolet lamp tube directly influence the mite removing effect. In addition, ultraviolet rays generally adopt 254nm wavelength, ultraviolet rays destroy microorganism DNA and kill principle to realize the mite removal, but 254nm wavelength ultraviolet rays have poor penetrating power, if dirt or dust exists on a lamp tube, the infrared rays with 254nm wavelength radiated by lamplight can be reduced, thereby affecting the mite removal efficiency of a mite remover, and dust is extremely easy to accumulate on the surface of an ultraviolet lamp tube, so that a user is required to frequently clean the lamp tube, and a lot of troubles are increased. On the other hand, the existing mite-removing instrument only has the function of removing dust, but does not have the function of heating, removing moisture and removing dampness, and the peculiar smell remained on the pillow, the bed cover and the mattress after the use cannot be removed.

In view of the above-mentioned existing problems, the utility model patent of patent publication No. CN107581969a discloses a mite-killing instrument with high-temperature heating, dehumidifying and dehumidifying functions, which is arranged at the bottom of a dust collector, a groove is arranged at the bottom of the dust collector, the mite-killing instrument is correspondingly arranged in the groove, the mite-killing instrument comprises a heating component, a magic tape and grid cotton, the center of the magic tape is arranged into a hollow structure, the heating component is arranged in the hollow structure of the magic tape and is correspondingly connected with the grid cotton, one end of the magic tape is attached to the groove, the other end of the magic tape is correspondingly arranged with the grid cotton, an energizing terminal is arranged on the heating component, and the energizing terminal is correspondingly connected with a PCB control board of the dust collector through an energizing terminal inlet in the groove. The prior art not only has the most basic function of killing mites by utilizing ultraviolet rays, but also can increase the temperature of the bottom surface of the heating component by generating heat through the heating component, thereby achieving the functions of dehumidifying and dehumidifying. However, the prior art still has structural defects that strong hot air flow cannot be generated, and when the surface of a ventilated object is cleaned, dehumidification and mite removal cannot be performed in a deeper level, and the high-temperature steam sterilization, mite removal and odor removal functions are not realized.

Accordingly, there is room for improvement and development in the prior art.

Disclosure of utility model

Aiming at the defects in the prior art, the utility model provides a novel mite removing instrument which adopts hot air and steam to remove moisture, mites and peculiar smell.

In order to achieve the above purpose, the technical scheme of the utility model is as follows:

The mite removing instrument comprises a shell, wherein a water tank assembly, a heating assembly and a suction assembly are arranged in the shell, and an air inlet, a heat exhaust air port and a steam exhaust port are formed in the shell; a first heating channel is formed in the heating component, and a second heating channel is formed between the outer wall of the heating component and the bottom plate of the shell; the water outlet of the water tank assembly is communicated with the water inlet of the heating assembly, the water inlet is communicated with the inlet of the heating channel I, and the outlet of the heating channel I is communicated with the steam discharge port to form a steam pipeline; the air inlet is communicated with an air inlet pipe of the suction assembly, an air outlet pipe of the suction assembly is communicated with a heating channel II, and the heating channel II is communicated with the heat exhaust air inlet to form a hot air pipeline. The utility model is arranged in such a way that the working principle is as follows: the cleaning water in the water tank assembly is conveyed to the inner cavity of the heating assembly, the heating assembly generates heat to generate high temperature, the water in the first heating channel is instantaneously vaporized into steam, and the steam is sprayed to the surface of an object to be cleaned through the steam discharge port, so that the effects of steam sterilization, mite removal and peculiar smell removal are achieved; simultaneously, the suction assembly works to generate vacuum, a large amount of air is sucked from the vicinity of the air inlet, the air takes away the heat generated by the suction assembly through the suction assembly, then the heat is generated through the heating channel II, under the action of high temperature generated by the heating assembly, hot air with the temperature of about 80 ℃ is instantaneously generated, and the hot air is blown to the surface to be cleaned through the heat exhaust air inlet, so that the effects of dehumidification, mite removal and peculiar smell removal are achieved; in practical application, the flowing hot air has better dehumidification and mite removal effects and shorter time.

The utility model has double-layer high-efficiency mite-killing effect; the steam heating and the hot air heating are the same heating component, so that two sets of heating devices are not needed, and the cost is reduced.

According to the scheme, the bottom plate of the shell is provided with the heat insulation plate, the heat insulation plate is positioned below the heating component, and the heat exhaust air port and the steam exhaust port are arranged on the heat insulation plate at intervals. The utility model is arranged in such a way, the heat insulation board effectively isolates the high temperature generated by the heating of the heating component, the human body cannot be scalded due to the too high temperature, and the objects cannot be scalded.

According to the scheme, the heat exhaust air port and the steam exhaust port comprise a plurality of through holes which are annularly arranged; the annular exhaust port is arranged outside the annular exhaust steam port. The utility model can air-dry the humidity brought by the steam through hot air.

According to the scheme, a first interval is formed between the steam exhaust port on the heat insulation plate and the outlet of the first heating channel of the heating component through the sealing piece; and a perforation which can enable the outlet of the first heating channel to be communicated with the steam discharge port is arranged in the sealing piece. The utility model is arranged in such a way that the steam pipelines are independent.

According to the scheme, the outer wall of the heating component and the inner wall of the heat insulation plate are sealed through the second sealing piece to form a second heating channel.

The utility model is arranged in such a way that the hot air pipelines are completely independent.

The steam pipeline and the hot air pipeline are not communicated, and do not interfere with each other.

According to the scheme, the heat insulation plate is a nonmetal heat insulation plate. The utility model is arranged in such a way, so that the human body is not scalded due to the too high temperature, and the objects are not scalded.

According to the scheme, the air inlet is arranged at the front end position of the bottom plate of the shell.

According to the scheme, the dust cup is arranged in the shell and is arranged between the air inlet and the air inlet pipe of the suction assembly; a filter is arranged in the dust cup. The utility model is arranged in such a way that the dust cup can be used for dust collection during mite removal.

According to the scheme, the water pump is arranged in the shell, the water outlet of the water tank assembly is communicated with the inlet of the water pump, and the outlet of the water pump is communicated with the water inlet of the heating assembly. The utility model is arranged in such a way that the cleaning water in the water tank assembly is pumped into the inner cavity of the heating assembly by the water pump.

According to the above scheme, the suction assembly comprises a suction motor.

The utility model has the beneficial effects that:

The utility model is arranged in such a way that the steam pipeline and the hot air pipeline are arranged in the shell, so that the double-layer sterilizing, mite and peculiar smell removing effects are realized; and the steam heating and the hot air heating are the same heating component, and two sets of heating devices are not needed to be arranged, so that the cost is reduced.

Drawings

FIG. 1 is a diagram showing the overall structure of the mite controller of the present utility model;

FIG. 2 is a diagram of the bottom plate of the mite controller of the present utility model;

FIG. 3 is a schematic diagram of a vapor circuit of the present utility model;

FIG. 4 is an enlarged view of the position A in FIG. 3;

FIG. 5 is a block diagram of a hot air circuit according to the present utility model.

In the figure:

1. An air inlet; 2. a housing; 3. a bottom plate; 4. a heat extraction tuyere; 5. a steam exhaust port; 6. a heat insulating plate; 7. a first sealing element; 8. a heating component; 9. an air outlet pipe; 10. an air inlet pipe; 11. a suction assembly; 12. a water outlet 13 and a water tank assembly; 14. a water inlet; 15. a dust cup; 16. a water pump; 17. a filter; 18. a second sealing element; 81. a heating channel I; 82. and a heating channel II.

Detailed Description

The technical scheme of the utility model is described below with reference to the accompanying drawings and examples.

As shown in fig. 1 to 5, the mite removing instrument comprises a shell 2, wherein a water tank component 13, a heating component 8 and a suction component 11 are arranged in the shell 2, and an air inlet 1, an air outlet 4 and a steam outlet 5 are arranged on the shell 2; a first heating channel 81 is formed in the heating component 8, and a second heating channel 82 is formed between the outer wall of the heating component 8 and the bottom plate 3 of the shell 2; the water outlet 12 of the water tank assembly 13 is communicated with the water inlet 14 of the heating assembly 8, the water inlet 14 is communicated with the inlet of the first heating channel 81, and the outlet of the first heating channel 81 is communicated with the steam discharge port 5 to form a steam pipeline; the air inlet 1 is communicated with an air inlet pipe 10 of the suction assembly 11, an air outlet pipe 9 of the suction assembly 11 is communicated with a heating channel II 82, and the heating channel II 82 is communicated with the heat exhaust air port 4 to form a hot air pipeline. The utility model is arranged in such a way that the working principle is as follows: the cleaning water in the water tank component 13 is conveyed to the inner cavity of the heating component 8, the heating component 8 generates high temperature, the water in the first heating channel 81 is instantaneously vaporized into steam, and the steam is sprayed to the surface of an object to be cleaned through the steam outlet 5, so that the effects of steam sterilization, mite removal and peculiar smell removal are achieved; simultaneously, the suction assembly 11 works to generate vacuum, a large amount of air is sucked from the vicinity of the air inlet 1, the air takes away the heat generated by the suction assembly 11 through the suction assembly 11, then the heat is generated by the heating assembly 8 through the heating channel II 82, hot air with the temperature of about 80 ℃ is instantaneously generated under the action of high temperature generated by the heating assembly, and the hot air is blown to the surface to be cleaned through the heat exhaust air inlet 4, so that the effects of dehumidification, mite removal and peculiar smell removal are achieved; in practical application, the flowing hot air has better dehumidification and mite removal effects and shorter time.

The utility model has double-layer high-efficiency mite-killing effect; the steam heating and the hot air heating are the same heating component 8, so that two sets of heating devices are not needed, thereby reducing the cost.

In this embodiment, the bottom plate 3 of the housing 2 is provided with a heat insulation plate 6, the heat insulation plate 6 is located below the heating component 8, and the heat exhaust air port 4 and the steam exhaust port 5 are spaced apart from each other and arranged on the heat insulation plate 6. The utility model is arranged in such a way that the heat insulation plate 6 effectively insulates the high temperature generated by the heat generation of the heating component 8.

In this embodiment, the exhaust port 4 and the exhaust port 5 each include a plurality of through holes that are annularly disposed; the annularly arranged exhaust air port 4 is arranged outside the annularly arranged exhaust steam port 5. The utility model can air-dry the humidity brought by the steam through hot air.

In this embodiment, a space 7 is formed between the steam exhaust port 5 on the heat insulation plate 6 and the outlet of the first heat generating channel 81 of the heat generating component 8; the sealing member 7 is provided with a perforation which can enable the outlet of the first heating channel 81 to be communicated with the steam discharging port 5. The utility model is arranged in such a way that the steam pipelines are independent.

In this embodiment, the outer wall of the heat generating component 8 and the inner wall of the heat insulating board 6 are sealed by the second sealing member 18 to form a second heat generating channel 82. The utility model is arranged in such a way that the hot air pipelines are completely independent.

The steam pipeline and the hot air pipeline are not communicated, and do not interfere with each other.

In this embodiment, the heat shield 6 is a nonmetallic heat shield. The utility model is arranged in such a way, so that the human body is not scalded due to the too high temperature, and the objects are not scalded.

In this embodiment, the air inlet 1 is provided at a front end position of the bottom plate 3 of the housing 2.

In this embodiment, a dust cup 15 is disposed in the housing 2, and the dust cup 15 is disposed between the air inlet 1 and the air inlet pipe 10 of the suction assembly 11; a filter 17 is arranged in the dust cup 15. The utility model is arranged in such a way that dust collection during mite removal can be used by means of the dust cup 15.

In this embodiment, a water pump 16 is disposed in the housing 2, the water outlet 12 of the water tank assembly 13 is communicated with the inlet of the water pump 16, and the outlet of the water pump 16 is communicated with the water inlet 14 of the heating assembly 8.

The utility model is arranged such that cleaning water within the tank assembly 13 is drawn into the interior cavity of the heat generating assembly 8 by the water pump 16.

In this embodiment, the suction assembly 11 comprises a suction motor.

The embodiments of the present utility model have been described above with reference to the accompanying drawings, but the present utility model is not limited to the above-described embodiments, which are merely illustrative, not restrictive, and many forms may be made by those having ordinary skill in the art without departing from the spirit of the present utility model and the scope of the claims, which are to be protected by the present utility model.

Claims (10)

1. The utility model provides an remove mite appearance, includes casing, its characterized in that:

The shell is internally provided with a water tank assembly, a heating assembly and a suction assembly, and is provided with an air inlet, a heat exhaust air port and a steam exhaust port;

A first heating channel is formed in the heating component, and a second heating channel is formed between the outer wall of the heating component and the bottom plate of the shell; the water outlet of the water tank assembly is communicated with the water inlet of the heating assembly, the water inlet is communicated with the inlet of the heating channel I, and the outlet of the heating channel I is communicated with the steam discharge port to form a steam pipeline;

The air inlet is communicated with an air inlet pipe of the suction assembly, an air outlet pipe of the suction assembly is communicated with a heating channel II, and the heating channel II is communicated with the heat exhaust air inlet to form a hot air pipeline.

2. A mite controller as set forth in claim 1, wherein: the bottom plate of the shell is provided with a heat insulation plate, the heat insulation plate is positioned below the heating component, and the heat exhaust air port and the steam exhaust port are arranged on the heat insulation plate at intervals.

3. A mite controller as set forth in claim 2, wherein: the heat exhaust air port and the steam exhaust port comprise a plurality of through holes which are annularly arranged; the annular exhaust port is arranged outside the annular exhaust steam port.

4. A mite controller as set forth in claim 2, wherein: a first space is formed between a steam exhaust port on the heat insulation plate and an outlet of a first heating channel of the heating component through a sealing piece; and a perforation which can enable the outlet of the first heating channel to be communicated with the steam discharge port is arranged in the sealing piece.

5. A mite controller as set forth in claim 2, wherein: and a heating channel II is formed by sealing the outer wall of the heating component and the inner wall of the heat insulation plate through a sealing piece II.

6. A mite controller as set forth in claim 2, wherein: the heat insulating plate is a nonmetal heat insulating plate.

7. A mite controller as set forth in claim 1, wherein: the air inlet 1 is arranged at the front end position of the bottom plate of the shell.

8. A mite controller as set forth in claim 1, wherein: a dust cup is arranged in the shell and is arranged between the air inlet and the air inlet pipe of the suction assembly; a filter is arranged in the dust cup.

9. A mite controller as set forth in claim 1, wherein: the shell is internally provided with a water pump, the water outlet of the water tank assembly is communicated with the inlet of the water pump, and the outlet of the water pump is communicated with the water inlet of the heating assembly.

10. A mite controller as set forth in claim 1, wherein: the suction assembly includes a suction motor.