CN217310131U - Cleaning device, floor brush and steam generator - Google Patents
Cleaning device, floor brush and steam generator Download PDFInfo
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- CN217310131U CN217310131U CN202123042721.3U CN202123042721U CN217310131U CN 217310131 U CN217310131 U CN 217310131U CN 202123042721 U CN202123042721 U CN 202123042721U CN 217310131 U CN217310131 U CN 217310131U
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Abstract
The embodiment of the application provides a cleaning device, scrubbing brush and steam generator, wherein, cleaning device includes: a main body; and the steam generator is installed in the main machine body, the steam generator comprises a shell and a capillary tube, the shell is provided with a vaporization cavity and a gas outlet communicated with the vaporization cavity, one end of the capillary tube is communicated with the vaporization cavity, and the other end of the capillary tube is used for connecting a water source. According to the technical scheme provided by the embodiment of the application, when the steam generator works normally and the pressure in the vaporization cavity is large, the capillary tube can prevent water and steam in the vaporization cavity from flowing reversely, and the interference of steam pressure on the flow of the water pump is reduced. When the steam generator is abnormal, for example, the gas outlet of the vaporization cavity is blocked, and the pressure in the vaporization cavity is overlarge, the gas and the liquid in the vaporization cavity can flow to the capillary tube, so that the pressure in the vaporization cavity is relieved to a certain extent, and the danger caused by the overlarge pressure is avoided.
Description
Technical Field
The application relates to the field of cleaning devices, in particular to a cleaning device, a floor brush and a steam generator.
Background
With the increasing standard of living, various steaming devices such as steam cleaning devices, steam irons, etc. are continuously available. The steam generator in these devices is a core component, and the steam generator is a component that uses heat energy to rapidly vaporize water and convert the water into steam. The structural quality of the steam generator will directly affect the working performance and the service life of the steam cleaning device in which the steam generator is installed.
The steam generator is provided with a vaporization cavity, a water inlet and a gas outlet, wherein the water inlet and the gas outlet are communicated with the vaporization cavity, water flows into the vaporization cavity from the water inlet and is converted into steam after being heated and vaporized, and the steam is discharged from the gas outlet. When the steam generator generates steam, the vaporization chamber usually has a relatively large pressure, and when the pressure in the vaporization chamber is relatively large, the water backflow phenomenon at the water inlet is easily caused. To prevent reverse flow, a check valve is conventionally provided at the water inlet of the steam generator. However, when the air outlet is blocked, for example, the clean water tank of the cleaning device usually uses tap water, the scale carried by the tap water can be accumulated at the air outlet of the steam generator due to the pressure action, so that the air outlet is blocked due to the scale, and meanwhile, the water inlet is provided with the check valve, so that the pressure in the steam generator is too high, which causes danger.
SUMMERY OF THE UTILITY MODEL
In view of the above problems, embodiments of the present application are proposed to provide a cleaning apparatus, a floor brush, and a steam generator that solve the above problems.
In one embodiment of the present application, there is provided a cleaning apparatus including:
a main body; and the number of the first and second groups,
steam generator, install in the host computer body, steam generator includes casing, heating material and capillary, the casing has the vaporization chamber and the gas outlet that communicates with it, the one end of capillary with the vaporization chamber intercommunication, the other end of capillary is used for connecting the water source, heating material is used for right the vaporization chamber heats.
In an optional embodiment of the present application, the capillary tube and the casing are arranged in a split manner, the casing has a water inlet communicated with the vaporization chamber, and the capillary tube is connected with the water inlet.
In an optional embodiment of this application, the capillary includes water pipe and spacing portion, spacing portion connects the outer peripheral face duplex winding of water pipe the circumference of water pipe is cyclic annular setting, the one end of water pipe stretches into the water inlet, the other end of water pipe is used for connecting the water source, spacing portion with the surface butt of casing, and seal the water inlet with clearance between the water pipe.
In an optional embodiment of this application, steam generator still includes coupling hose, coupling hose cover is located the periphery of water inlet to the parcel the capillary.
In an alternative embodiment of the present application, a spiral channel is formed in the vaporization chamber, and the spiral channel extends from the water inlet to the air outlet.
In an alternative embodiment of the present application, a spring is disposed in the vaporization chamber to form the spiral passage.
In an optional embodiment of the present application, a water absorbent cotton is further disposed in the vaporization chamber.
In an optional embodiment of the present application, the absorbent cotton is in a long strip shape, and the spring is wound on the absorbent cotton.
In an optional embodiment of the present application, the heat generating material is disposed on an outer surface of the housing, and the housing is a heat conducting housing.
In an alternative embodiment of the present application, the housing is a metal housing or a quartz housing.
In an optional embodiment of the present application, the steam generator further includes a thermal insulation layer, and the thermal insulation layer is coated on an outer surface of the housing.
In an optional embodiment of the present application, the steam generator further comprises a housing, and the thermal insulation layer and the shell are both installed in the housing.
In an optional embodiment of the present application, the housing is tubular, and one end of the housing is the water inlet and the other end is the air outlet.
The embodiment of this application still provides a scrubbing brush, includes:
a floor brush body; and the number of the first and second groups,
steam generator, install in the scrubbing brush main part, steam generator includes casing, heating material and capillary, the casing has vaporization chamber and the water inlet and the gas outlet that communicates with it, the capillary with the casing components of a whole that can function independently sets up, the one end of capillary with the water inlet intercommunication, the other end of capillary is used for connecting the water source, heating material is used for right the vaporization chamber heats.
The embodiment of the application still provides a steam generator, including casing, heating material and capillary, the casing has the vaporization chamber and the water inlet and the gas outlet that communicates with it, the capillary with the casing components of a whole that can function independently sets up, the one end of capillary with the water inlet intercommunication, the other end of capillary is used for connecting the water source, heating material is used for right the vaporization chamber heats.
The embodiment of the application further provides a steam generation method of the cleaning device, the cleaning device comprises a steam generator, the steam generator comprises a shell and a capillary tube, the shell is provided with a vaporization cavity and a gas outlet communicated with the vaporization cavity, one end of the capillary tube is communicated with the vaporization cavity, and the other end of the capillary tube is used for being connected with a water source;
the method comprises the following steps:
acquiring the working temperature of the shell and the flow of the water inlet;
controlling the working temperature to match the flow rate to generate steam.
The technical scheme that this application embodiment provided, because the pipe diameter of capillary is less, its circulation resistance is great, can prevent liquid or gaseous to a certain extent to pass through. Therefore, the capillary tube is arranged on the steam generator to be connected with a water source, when the steam generator works normally and the pressure in the vaporization cavity is high, the capillary tube can prevent water and steam in the vaporization cavity from flowing reversely, and the interference of steam pressure on the flow of the water pump is reduced. When the steam generator is in an abnormal condition, for example, the air outlet of the vaporization cavity is blocked, so that the pressure in the vaporization cavity is overlarge, the capillary tube is not completely closed relative to the check valve, so that the gas and the liquid in the vaporization cavity can flow to the capillary tube, the pressure in the vaporization cavity is relieved to a certain extent, and the danger caused by the overlarge pressure is avoided.
Drawings
In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.
Fig. 1 is a schematic structural diagram of a cleaning apparatus provided in an embodiment of the present application;
fig. 2 is a schematic perspective view of a steam generator according to an embodiment of the present disclosure;
FIG. 3 is a cut-away schematic view of a steam generator provided in an embodiment of the present application;
FIG. 4 is an enlarged view at A in FIG. 3;
fig. 5 is a schematic flow chart of a steam generation method of a cleaning device according to an embodiment of the present application.
Reference numerals:
100 | |
212 | |
231 | First |
10 | |
213 | |
232 | First |
11 | |
22 | |
24 | Second |
12 | |
221 | |
241 | Second |
13 | |
222 | Limiting |
242 | Second |
20 | |
222a | |
25 | |
21 | |
222b | Annular closed |
26 | |
211 | Water inlet | 23 | A |
261 | Connecting |
27 | Thermal insulation layer |
Detailed Description
In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some, but not all, embodiments of the present application. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application without any creative effort belong to the protection scope of the embodiments in the present application.
It should be noted that, in the description of the present application, if the terms "first", "second", etc. appear, the terms "first", "second", etc. are only used for convenience in describing different components or names, and cannot be understood as indicating or implying a sequential relationship, relative importance, or implicitly indicating the number of indicated technical features. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, if "and/or" is presented throughout, it is meant to include three juxtapositions, exemplified by "A and/or B," including either scheme A, or scheme B, or schemes in which both A and B are satisfied.
Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein in the description of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application.
Referring to fig. 1, the present application provides a cleaning apparatus 100 comprising: a main body 10, and a steam generator 20 mounted to the main body 10.
In some realizable embodiments of the present application, the cleaning device 100 may be, but is not limited to, a washer, a vacuum cleaner, a sweeping robot, etc., capable of cleaning floors, walls, ceilings, glasses, automobiles, etc.
The main body 10 may include a grip 11, a body 12, and a floor brush 13, in some embodiments, the grip 11 is disposed at an upper end of the body 12, and the floor brush 13 is disposed at a lower end of the body 12. Of course, the grip 11 may be provided on a side surface (back, left, or right) of the body 12.
Specifically, the floor brush 13 may be rotatably coupled to the body 12 to facilitate steering and movement of the floor brush 13 for user operation. The floor brush 13 and the body 12 may be rotatably connected by an elastic member, or the floor brush 13 and the body 12 may be hinged, and the embodiment is not limited.
Scrubbing brush 13 includes the scrubbing brush main part, and the scrubbing brush main part can have the suction inlet (not shown), can have the suction channel (not shown) with the suction inlet intercommunication inside the scrubbing brush main part, can set up the recycling bin in the fuselage 12 through flexible line intercommunication between scrubbing brush main part and the fuselage 12, suction channel one end can communicate with flexible line, the other end of suction channel can communicate with the recycling bin is inside, the scrubbing brush main part can pass through the suction inlet and absorb the filth, the filth that absorbs is arranged into in the recycling bin.
The grip 11 or one side of the body 12 may be further provided with a power cord directly connected to an external power supply terminal for supplying power to the cleaning device 100. Of course, in other alternative embodiments, in order to be out of the power cord and not affect the power supply to the cleaning device 100, the cleaning device 100 may be a cordless cleaning device 100, and specifically, a cordless power supply or a rechargeable battery may be provided in the main body 10, such as the grip 11 or the main body 12, and the cordless power supply or the rechargeable battery supplies power to the whole machine and is electrically connected to the heat generating material 26 (fig. 2) of the steam generator 20 to supply power to the heat generating material 26.
The steam generator 20 may be provided on the floor brush body, or may be provided on the body 12. Illustratively, the steam generator 20 is disposed on the floor brush body. Referring to fig. 2 to 4, the steam generator 20 has a water inlet 211, a vaporization chamber 212 and an air outlet 213, and the water inlet 211 and the air outlet 213 are both communicated with the vaporization chamber 212, i.e. open to the chamber wall of the vaporization chamber 212. The water inlet 211 is also connected to a water source, which may be an internal water source, but which may of course also be an external water source. In some embodiments of the present application, a clean water tank may be disposed on the body 12, and the water inlet 211 of the steam generator 20 is communicated with the clean water tank. Of course, in other embodiments, the water inlet 211 may also be directly connected to the tap water pipe. Further, a water pump (not shown) is disposed on a communication pipeline between the water inlet 211 and the water source, and the water pump pumps water from the water inlet 211 into the vaporization chamber 212 by increasing water pressure. In addition, the gas outlet 213 may directly face the ground, or a gas channel may be provided on the floor brush body, one end of the gas channel communicates with the gas outlet 213, and the other end faces the ground as a gas injection port, so that the steam generated by the steam generator 20 is guided toward the ground.
In one use mode, after the steam generator 20 is powered on, the vaporization chamber 212 generates high temperature, the water source flows into the vaporization chamber 212 from the water inlet 211 to be vaporized to generate steam, and the steam is sprayed out from the air outlet 213. Meanwhile, the roll brush in the floor brush body rolls, and the steam generator 20 sprays steam to the floor to perform a function of cleaning the floor. The machine body 12 generates negative pressure when working, and dust, sewage and other dirt are sucked by the suction port of the floor brush main body and collected in the recovery barrel, so that the functions of dust absorption and sewage collection are realized through the floor brush main body.
Since the vaporization chamber 212 generally has a relatively large pressure when the steam generator 20 generates steam, the water inlet 211 is easily backwashed when the pressure in the vaporization chamber 212 is relatively large. To prevent the reverse flow, it is conventional to provide a non-return valve at the water inlet 211 of the steam generator 20. However, when the outlet 213 is blocked, for example, the clean water tank of the cleaning device 100 usually uses tap water, the scale carried by the tap water may be accumulated at the outlet 213 of the steam generator 20 due to the pressure, which may cause the outlet 213 to be blocked due to the scale, and at the same time, the inlet 211 is provided with the check valve, which may cause the pressure in the steam generator 20 to be too high, which may cause danger.
In this regard, in the embodiment of the present application, the steam generator 20 includes a housing 21 and a capillary 22, the housing 21 has a vaporization chamber 212 and an air outlet 213 communicating with the vaporization chamber 212, one end of the capillary 22 is connected to the vaporization chamber 212, and the other end of the capillary 22 is used for connecting to a water source.
In the embodiment of the present application, since the diameter of the capillary 22 is small, the flow resistance is large, and the liquid or gas can be prevented from passing through to some extent. Therefore, by arranging the capillary tube 22 on the steam generator 20 to connect with a water source, when the steam generator 20 is in normal operation and the pressure in the vaporization chamber 212 is high, the capillary tube 22 can prevent the water and the steam in the vaporization chamber 212 from flowing backwards, and reduce the interference of the steam pressure on the flow of the water pump. When the vapor generator 20 is in an abnormal condition, for example, the air outlet 213 of the vaporization chamber 212 is blocked, which causes the pressure in the vaporization chamber 212 to be too high, because the capillary 22 is not completely sealed with respect to the check valve, the gas and the liquid in the vaporization chamber 212 can flow to the capillary 22, thereby relieving the pressure in the vaporization chamber 212 to a certain extent and avoiding the danger caused by the too high pressure.
Set up the check valve at water inlet 211 for traditional way, this application embodiment not only can play the check effect of check valve through setting up capillary 22, prevents to appear water countercurrent phenomenon in the vaporization chamber 212 when steam generator 20 normally works, has the release vaporization chamber 212 pressure that the check valve does not possess again, avoids the effect that the dangerous condition takes place. Meanwhile, the capillary tube 22 has a simple structure, is convenient to install, has low cost, and is beneficial to reducing the cost of the whole machine.
The steam generator 20 of the present application will be described in detail with reference to some embodiments.
The shape of the housing 21 includes, but is not limited to, a tube shape, a box shape, a sphere shape, etc., and the housing 21 is exemplarily a tube shape having the water inlet 211 at one end and the air outlet 213 at the other end. The tubular casing 21 is long, and the vaporization chamber 212 formed inside is long, that is, the flow path of water is long from the water inlet 211 to the air outlet 213, so that the water can fully contact with the casing 21 to realize heat exchange, and the steam can be generated by fully vaporizing the water.
The capillary 22 and the housing 21 may be provided separately, and specifically, the housing 21 has a water inlet 211 communicating with the vaporization chamber 212, and the capillary 22 is connected to the water inlet 211. Thus, the water inlet 211 communicates with a water source through the capillary tube 22. In other embodiments of the present application, the capillary 22 and the housing 21 may be integrally formed, and for example, the capillary 22 and the housing 21 are integrally formed by a metal material, so that the capillary 22 itself forms the water inlet 211.
The following description will be given by taking an example in which the capillary 22 and the housing 21 are provided as separate bodies.
For convenient processing, water inlet 211 can be seted up greatly, and the pipe diameter of capillary 22 is less, consequently in order to realize the connection of capillary 22 and water inlet 211, and avoid leaking, in this application embodiment, capillary 22 includes water pipe 221 and spacing portion 222, and spacing portion 222 connects the outer peripheral face of water pipe 221 and is cyclic annular setting around the circumference of water pipe 221, and the outer peripheral face of water pipe 221 is all connected to its whole internal perisporium of cyclic annular spacing portion 222. One end of the water passing pipe 221 extends into the water inlet 211, the other end of the water passing pipe 221 is used for connecting a water source, the limiting part 222 is abutted to the outer surface of the shell 21, the limiting part 222 surrounds the water inlet 211 and seals a gap between the water inlet 211 and the water passing pipe 221, and the water leakage phenomenon at the joint of the water inlet 211 and the water passing pipe 221 is avoided.
In some embodiments of the present application, the limiting portion 222 and the water pipe 221 are integrally formed, and the limiting portion 222 and the water pipe 221 do not need to be assembled again, so that the installation steps are simplified, and water leakage caused by a connection gap between the limiting portion 222 and the water pipe 221 is avoided. Illustratively, the stopper 222 is integrally injection-molded with the water passage pipe 221.
Further, the limiting portion 222 includes an annular connecting section 222a and an annular closed section 222b, the annular connecting section 222a surrounds the periphery of the water passing pipe 221, the inner peripheral wall of the annular connecting section 222a is connected with the water passing pipe 221, the outer peripheral wall of the annular connecting section 222a is connected with the annular closed section 222b, the annular closed section 222b is spaced from the outer peripheral surface of the water passing pipe 221, and the annular closed section 222b covers the water inlet 211 and abuts against the outer surface of the housing 21. In this embodiment, the outer diameter of the annular closing section 222b needs to be larger than the aperture of the water inlet 211, so that the water inlet 211 can be covered inside, and the water and the steam in the vaporization chamber 212 are prevented from flowing out from the connection position of the annular closing section 222b and the annular connecting section 222 a. Therefore, by arranging the annular closing section 222b and the water passing pipe 221 at a distance, the water inlet 211 can be surrounded by the annular closing section 222b, the material consumption of the annular closing section 222b is reduced, and the increase of the material cost is controlled.
In other embodiments, the outer diameter of the capillary 22 may be set larger and adapted to the water inlet 211 to achieve a tight fit. Further, a sealant is arranged between the capillary tube 22 and the water inlet 211 to realize sealing, so that water and steam are prevented from escaping from the space between the capillary tube 22 and the water inlet 211.
In order to prevent the capillary 22 from being separated from the housing 21, the steam generator 20 further includes a connection hose, which is sleeved on the periphery of the water inlet 211 and wraps the capillary 22. To avoid confusion, the following description takes the connection hose at the water inlet 211 as the first hose 23 as an example, specifically, the first hose 23 includes a first large pipe 231 and a first small pipe 232 which are connected, the inner diameter of the first large pipe 231 is larger than the inner diameter of the first small pipe 232, the first large pipe 231 is sleeved on the outer surface of the shell 21, the shell 21 is tubular, the first large pipe 231 is sleeved on one end of the shell 21 where the water inlet 211 is opened and is tightly fitted with the shell 21, and the first large pipe 231 wraps the limiting portion 222; the first small pipe 232 is sleeved on the outer peripheral surface of the water passing pipe 221 and is tightly matched with the water passing pipe 221. In this way, by providing the first hose 23, the capillary 22 and the housing 21 can be connected hermetically, and the water and the vapor in the vaporization chamber 212 are prevented from flowing out from the connection between the capillary 22 and the housing 21. The first hose 23 is made of a high temperature resistant material, such as but not limited to silicone tube, rubber tube, silicone rubber tube.
Further, the air outlet 213 of the housing 21 is provided with a second hose 24, the second hose 24 includes a second large pipe 241 and a second small pipe 242 connected to each other, the inner diameter of the second large pipe 241 is larger than the inner diameter of the second small pipe 242, and the second large pipe 241 is tightly sleeved on the outer surface of the housing 21 and is disposed around the air outlet 213. The second small tube 242 is used to connect other components, such as a gas channel on the floor brush 13.
Further, a spiral passage is formed in the vaporization chamber 212, and the spiral passage extends from the water inlet 211 to the air outlet 213. The spiral channel prolongs the flow path of water, so that the time for the water to reach the air outlet 213 is greatly increased after the water enters from the water inlet 211, the contact time of the water flow and the inner wall of the shell 21 is prolonged, and the water flow is fully heated to realize vaporization to the maximum extent. Meanwhile, the spiral channel can play a role in turbulent flow, and the effect of diffusing water flow is achieved, so that the water flow is fully heated and vaporized.
There are various ways of forming the spiral passage, and one way of realizing the spiral passage is to provide a spring 25 in the vaporization chamber 212 to form the spiral passage. The length and the density of the spring 25 can be arranged according to the requirement, and the flexibility is stronger. Moreover, the spring 25 is hollow (the inside formed by winding the spring 25), so that water can flow through the inside and the periphery of the spring 25, the space occupied by the spring 25 is small, the structure formed by combining the spring 25 and the shell 21 can be arranged more compactly, and the large vaporization cavity 212 ensures that enough space is provided for accommodating water flow for vaporization.
The outer diameter of the spring 25 can be smaller than the inner diameter of the housing 21, so that there is a small gap between the spring 25 and the wall of the vaporization chamber 212, and this gap allows water to pass through, and provides sufficient contact with the housing 21. Meanwhile, a gap is formed between the spring 25 and the shell 21, so that the spring 25 is conveniently installed in the shell 21.
The spiral channel is realized by arranging a screw in the vaporization chamber 212, the screw extends from the water inlet 211 to the air outlet 213, and a spiral channel is formed between the screw and the inner wall of the vaporization chamber 212.
The spiral channel can be realized by integrally forming a thread on the inner wall of the housing 21, i.e., the wall of the vaporization chamber 212.
Further, a water absorbent cotton (not shown) is disposed in the vaporization chamber 212. Because the temperature in the vaporization cavity 212 is high, the water absorption cotton adopts high temperature resistant cotton, so that the water absorption cotton can absorb water and can avoid melting in a high temperature environment. After the water absorption cotton is arranged in the vaporization cavity 212, the water absorption cotton can absorb part of water flowing into the vaporization cavity 212 and occupy part of the space in the vaporization cavity 212, so that the water flowing in the vaporization cavity 212 is reduced, less water in a flowing state is in full contact with the inner wall of the shell 21 to exchange heat, and the vaporization of the part of water in the flowing state is accelerated. Meanwhile, the water adsorbed in the absorbent cotton is heated in the high-temperature vaporization cavity 212 to gradually increase the temperature and is primarily vaporized and released, when the primarily vaporized steam meets the shell 21, the temperature of the shell 21 is higher, so that the steam can be vaporized again to form a larger amount of more delicate steam. Therefore, the arrangement of the water absorption cotton can increase the steam quantity and improve the steam effect under the condition of the same water quantity.
The shape of the absorbent cotton includes but is not limited to a cylinder, a square block, a triangular block, a round table and the like. In a specific embodiment of the application, the cotton that absorbs water is rectangular form, and the cotton that absorbs water of rectangular form extends along casing 21 length direction, therefore the cotton length direction that absorbs water is heated evenly, and the cotton diameter that absorbs water is less, and the cotton inside and outside difference in temperature that absorbs water is little, and whole vaporization is effectual. Optionally, the spring 25 is wound on the absorbent cotton, so that the absorbent cotton is fixed by the spring 25, and the absorbent cotton is prevented from being impacted by water flow or shaking when the whole machine works.
In order to heat the water in the vaporization chamber 212, the steam generator 20 further includes a heating material 26, and the heating material 26 is electrically conducted to generate heat to heat the water in the vaporization chamber 212. The exothermic material 26 includes, but is not limited to, a heating tube, a heating wire, and the shape of the exothermic material 26 includes, but is not limited to, a spiral shape, a coil shape, a twisted shape, and the like. The heat generating material 26 may be disposed outside the housing 21, for example, on the outer surface of the housing 21, and the heat is transferred into the vaporization chamber 212 by heating the housing 21, so as to indirectly heat and vaporize the water in the vaporization chamber 212. Of course, the heat generating material 26 may be disposed in the housing 21 so that the heat generating material 26 is directly contacted with the water in the vaporization chamber 212 to perform direct heating. When the heat generating material 26 is disposed outside the case 21, the heat generating material 26 is in contact with the outer surface of the case 21 to reduce heat dissipation through air in order to improve heat transfer efficiency.
Illustratively, the heat generating material 26 is a heat generating wire wound around the outer surface of the housing 21, and the housing 21 is a heat conductive housing 21. Through twine the heater on casing 21 surface, direct contact casing 21 can reduce the calorific loss of heater, and the heat that the heater produced more transfers casing 21 to water vaporization. The heating wire is wound on the outer surface of the shell 21 and is spirally arranged, and optionally, the heating wire extends in the length direction of the shell 21 and is spirally arranged, so that each position in the length direction of the shell 21 is heated by the heating wire, the temperature of each position of the vaporization cavity 212 in the shell 21 is more uniform, and the vaporization effect on water is better. In other embodiments, the heater may also be disposed within the vaporization chamber 212.
The shell 21 adopts the heat-conducting shell 21, and the heat of the heat-generating material 26 can be quickly conducted into the vaporization chamber 212 for vaporizing the water. The heat conducting shell 21 includes, but is not limited to, a metal shell 21 or a quartz shell 21, the metal shell 21 and the quartz shell 21 have high heat conducting efficiency and small heat loss, and heat of the heat generating material 26 can be fully utilized for vaporization. The metal case 21 may be made of any one of stainless steel, copper, aluminum, and the like.
In the embodiment of the present application, by adding the instant heating type steam generator 20 to the cleaning device 100, part of the hot water and part of the steam can be obtained when the water flows through the housing 21, and the heating efficiency is high because the heating material 26 of the instant heating type steam generator 20 is a superconducting wire. In addition, hot water and steam all have antibacterial and degerming effect and all have the increase dust collection efficiency, consequently when cleaning device 100 is wireless cleaning device 100, the total energy rate of utilization of cleaning device 100 internal battery is high, and is long during the use, can avoid frequently changing the battery.
The inner diameter of the capillary 22 is small, for example, the inner diameter of the capillary 22 is less than or equal to 3.0mm, the inner diameter of the capillary 22 can be selected according to the power of the heat-generating material 26, and the larger the power of the heat-generating material 26 is, the larger the inner diameter of the capillary 22 is, and the smaller the irregular is. Illustratively, the exothermic material 26 has a power of 250W, and the capillary 22 may have an inner diameter of between 0.5mm and 1.0mm, e.g., the capillary 22 may have an inner diameter of 0.5mm, 0.6mm, 0.8mm, 1.0mm, etc.
Further, the steam generator 20 further includes a heat insulation layer 27, and the heat insulation layer 27 is coated on the outer surface of the housing 21. After the heating material 26 is arranged on the outer surface of the shell 21, for example, the heating wire is wound, the heat insulation layer 27 wraps the heating material 26 and the shell 21 together, and the heat insulation layer 27 can prevent heat generated by the heating material 26 from being transferred to the outside, plays a role in heat insulation for the shell 21, reduces heat loss, and improves heating efficiency, so that heat generated by the heating material 26 can be intensively applied to the vaporization cavity 212 to vaporize water. The heat insulation layer 27 may be made of high temperature resistant heat insulation cotton or high density heat insulation tile. Further, the outer surface of the shell 21 may be provided with a plurality of insulation layers 27, which have multiple insulation effects.
In a specific embodiment of the present application, the heat insulation layer 27 covers the entire outer peripheral surface of the tubular housing 21, meanwhile, the heat insulation layer 27 also covers the entire outer peripheral surface of the limiting portion 222 of the capillary 22, and the first hose 23 and the second hose 24 are sleeved on the outer peripheral surface of the heat insulation layer 27. Heating material 26 still has binding post 261, and binding post 261 exposes outside insulating layer 27, is convenient for with power electric connection, to heating material 26 power supply.
Further, the steam generator 20 further comprises a housing (not shown) in which the insulation layer 27 and the shell 21 are mounted. The housing includes, but is not limited to, tubular, box-like, etc. Illustratively, the housing is tubular and houses the insulation 27 and the shell 21. The material of the housing includes, but is not limited to, heat-resistant plastic, metal, etc. By arranging the shell 21 and the thermal insulation layer 27 in the shell, not only can the shell 21 and the thermal insulation layer 27 be protected, but also the shell can be provided with connecting structures such as buckles, screw holes and the like for fixing to other parts, so that the steam generator 20 can be conveniently installed and used.
Further, the steam generator 20 further includes a pressure relief valve (not shown), and a pressure relief opening (not shown) is opened in a wall of the vaporization chamber 212, and the pressure relief valve is installed in the pressure relief opening. When the steam generator 20 has an abnormal condition, for example, the pressure in the vaporization chamber 212 is too high due to the blockage of the air outlet 213, the pressure release valve can be opened in time to release the pressure in the vaporization chamber 212, so as to avoid the occurrence of a dangerous condition.
Further, the steam generator 20 may further include an alarm device (not shown) electrically connected to the main control board, and the main control board controls the alarm device to alarm when the pressure in the vaporization chamber 212 is greater than the upper pressure limit value. The alarm device can give an alarm through sound and/or light, and the alarm device comprises but is not limited to a buzzer and an LED lamp.
Further, the steam generator 20 further includes a temperature sensor (not shown) for detecting an operating temperature of the housing 21. Specifically, the temperature sensor may be disposed outside the housing 21 and in contact with the housing 21 to detect the operating temperature of the outer surface of the housing 21. Alternatively, the temperature sensor is provided inside the casing 21, and directly detects the temperature inside the vaporization chamber 212 to obtain the operating temperature. The temperature sensor is also electrically connected with the main control board, and the main control board can control the working temperature to be matched with the water flow flowing into the vaporization cavity 212 according to the obtained working temperature so as to generate steam, so that the steam generation effect is better. Wherein, the water flow can be obtained according to the working state of the water pump.
Specifically, the main control board adjusts the heating power of the heating material 26 and/or the rotation speed of the motor in the water pump according to the obtained working temperature and water flow, so that the working temperature and the water flow are precisely matched to generate continuous steam.
The embodiment of the present application further provides a floor brush 13, and the floor brush 13 includes:
a floor brush body; and the number of the first and second groups,
the steam generator 20 is mounted on the floor brush body, the steam generator 20 comprises a shell 21 and a capillary tube 22, the shell 21 is provided with a vaporization cavity 212 and an air outlet 213 communicated with the vaporization cavity 212, one end of the capillary tube 22 is communicated with the vaporization cavity 212, and the other end of the capillary tube 22 is used for connecting a water source.
In use, the floor brush 13 may be used in conjunction with a clean water tank on the body 12, which may provide clean water to the steam generator 20, which the steam generator 20 heats to generate steam. Please refer to the above embodiments for the specific structure of the floor brush body and the steam generator 20, which are not described in detail herein.
The embodiment of the present application further provides a steam generator 20, the steam generator 20 includes a housing 21 and a capillary 22, the housing 21 has a vaporization chamber 212 and an air outlet 213 communicated therewith, one end of the capillary 22 is communicated with the vaporization chamber 212, and the other end of the capillary 22 is used for connecting a water source. Similarly, in the present embodiment, please refer to the above embodiments for the specific structure of the steam generator 20, which is not described herein again.
The embodiment of the application further provides a steam generation method of the cleaning device, which comprises the following steps:
s101, acquiring the working temperature of the shell and the water flow of the water inlet;
and S102, controlling the working temperature to be matched with the water flow so as to generate steam.
Specifically speaking, operating temperature and discharge are the direct ratio, and when operating temperature was higher, can suitably increase discharge, when discharge was higher, can increase operating temperature to make operating temperature and the accurate matching of discharge, avoid having too much hot water in the vaporization chamber 212, and also avoid casing 21 dry combustion method.
Further, the steam generator 20 further comprises a temperature sensor for detecting the operating temperature of the housing 21. Specifically, the temperature sensor may be disposed outside the housing 21 and in contact with the housing 21 to detect the operating temperature of the outer surface of the housing 21. Alternatively, the temperature sensor is provided inside the casing 21, and directly detects the temperature inside the vaporization chamber 212 to obtain the operating temperature. Thereby changing the operating temperature of the housing 21. The temperature sensor is also electrically connected with the main control board, and the main control board can control the working temperature to be matched with the water flow flowing into the vaporization cavity 212 according to the obtained working temperature so as to generate steam, so that the steam generation effect is better. Wherein, the water flow can be obtained according to the working state of the water pump.
Controlling the operating temperature change refers to adjusting the heating power of the heat generating material 26, and the heat generating material 26 heats the housing 21. And controlling the water flow rate change may be adjusting the rotational speed of the motor of the water pump at the water inlet 211. The main control board adjusts the heating power of the heating material 26 and/or the rotating speed of the motor in the water pump according to the obtained working temperature and water flow, so that the working temperature and the water flow are precisely matched to generate continuous steam.
The technical solution adopted in the present application is described below with reference to specific application scenarios to help understanding. The following application scenarios take the cleaning device 100 for cleaning a floor as an example.
Application scenario one
When a user cleans the floor through the vacuum cleaner, the user starts the vacuum cleaner, and starts the steam mode, the clean water bucket on the main body 10 provides clean water to the steam generator 20, the clean water enters the vaporization cavity 212 of the steam generator 20 from the capillary tube 22 to be heated and vaporized, the steam is sprayed to the floor from the air outlet 213 of the vaporization cavity 212, and the steam cooperates with the rolling brush in the floor brush 13 to clean the floor.
Application scenario two
When a user cleans the ground through the dust collector, the user starts the dust collector and starts the steam mode, the clean water bucket on the main body 10 provides clean water to the steam generator 20, the clean water enters the vaporization cavity 212 of the steam generator 20 from the capillary tube 22 and is heated and vaporized, the steam flows to the gas channel of the floor brush 13 from the gas outlet 213 of the vaporization cavity 212 and is sprayed to the ground through the gas nozzle of the gas channel, and the steam is matched with the rolling brush in the floor brush 13 to clean the ground.
The export of air jet forward slope 20, so steam can not blow off subaerial dust, and the visibility of steam is high, and simultaneously, steam is spout towards the place ahead and below, can not spout on the round brush, can not influence the life-span of round brush hair.
Finally, it should be noted that: the above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present application.
Claims (15)
1. A cleaning apparatus, comprising:
a main body; and the number of the first and second groups,
steam generator, install in the host computer body, steam generator includes casing, heating material and capillary, the casing has vaporization chamber and the gas outlet that communicates with it, the one end of capillary with the vaporization chamber intercommunication, the other end of capillary is used for connecting the water source, heating material is used for right the vaporization chamber heats.
2. The cleaning apparatus defined in claim 1, wherein the capillary tube and the housing are provided separately, the housing having a water inlet in communication with the vaporization chamber, the capillary tube being connected to the water inlet.
3. The cleaning equipment as claimed in claim 2, wherein the capillary tube comprises a water passing tube and a limiting part, the limiting part is connected with the outer circumferential surface of the water passing tube and annularly arranged around the circumference of the water passing tube, one end of the water passing tube extends into the water inlet, the other end of the water passing tube is used for connecting a water source, and the limiting part is abutted against the outer surface of the shell and closes a gap between the water inlet and the water passing tube.
4. The cleaning apparatus as claimed in claim 2, wherein the steam generator further comprises a connection hose, the connection hose is sleeved on the periphery of the water inlet and wraps the capillary tube.
5. The cleaning apparatus defined in claim 2, wherein the vaporization chamber defines a spiral passage extending from the water inlet to the air outlet.
6. The cleaning apparatus defined in claim 5, wherein a spring is disposed within the vaporization chamber to form the helical passage.
7. The cleaning apparatus as claimed in claim 6, wherein a water absorbent cotton is further disposed in the vaporization chamber.
8. The cleaning apparatus as recited in claim 7 wherein said absorbent pledget is elongated and said spring is wound around said absorbent pledget.
9. The cleaning apparatus defined in claim 1, wherein the heat-generating material is disposed on an outer surface of the housing, the housing being a thermally conductive housing.
10. The cleaning apparatus defined in claim 9, wherein the housing is a metal housing or a quartz housing.
11. The cleaning apparatus as recited in claim 1, wherein the steam generator further comprises an insulating layer that coats an outer surface of the housing.
12. The cleaning apparatus defined in claim 11, wherein the steam generator further comprises a housing, the insulation layer and the housing both being mounted within the housing.
13. The cleaning apparatus defined in any one of claims 2-8, wherein the housing is tubular with the water inlet at one end and the air outlet at the other end.
14. A floor brush, comprising:
a floor brush main body; and the number of the first and second groups,
steam generator, install in the scrubbing brush main part, steam generator includes casing, heating material and capillary, the casing has vaporization chamber and the water inlet and the gas outlet that communicates with it, the capillary with the casing components of a whole that can function independently sets up, the one end of capillary with the water inlet intercommunication, the other end of capillary is used for connecting the water source, heating material is used for right the vaporization chamber heats.
15. The utility model provides a steam generator, its characterized in that includes casing, heating material and capillary, the casing has the water inlet and the gas outlet of vaporization chamber and intercommunication with it, the capillary with the casing components of a whole that can function independently sets up, the one end of capillary with the water inlet intercommunication, the other end of capillary is used for connecting the water source, heating material is used for right the vaporization chamber heats.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202123042721.3U CN217310131U (en) | 2021-12-06 | 2021-12-06 | Cleaning device, floor brush and steam generator |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202123042721.3U CN217310131U (en) | 2021-12-06 | 2021-12-06 | Cleaning device, floor brush and steam generator |
Publications (1)
Publication Number | Publication Date |
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CN217310131U true CN217310131U (en) | 2022-08-30 |
Family
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202123042721.3U Active CN217310131U (en) | 2021-12-06 | 2021-12-06 | Cleaning device, floor brush and steam generator |
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CN (1) | CN217310131U (en) |
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2021
- 2021-12-06 CN CN202123042721.3U patent/CN217310131U/en active Active
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