CN108486842B

CN108486842B - Steam generator and garment steamer

Info

Publication number: CN108486842B
Application number: CN201810503950.4A
Authority: CN
Inventors: 李一峰; 梁海权
Original assignee: Bear Electrical Appliance Co Ltd
Current assignee: Bear Electrical Appliance Co Ltd
Priority date: 2018-05-23
Filing date: 2018-05-23
Publication date: 2024-02-27
Anticipated expiration: 2038-05-23
Also published as: CN108486842A

Abstract

The invention discloses a steam generator and a garment steamer. The steam generator comprises a heating device and a heating cavity with a steam outlet; the baffle plate is arranged in the heating cavity and divides the heating cavity into a steam cavity for generating steam, a backwater cavity for receiving backwater water formed by cooling in the steam discharging process and providing a buffering and gathering function for the steam generated by the steam cavity so as to ensure stable and continuous steam discharging; the lower end of the partition plate is provided with a water inlet groove communicated with the steam cavity and the water return cavity, the upper end of the partition plate is provided with a steam discharge groove communicated with the steam cavity and the steam outlet, and the position of the steam discharge groove is higher than the upper surface of the heating device; the heating device is arranged in the steam cavity. The steam generator can stably and continuously discharge steam, and the backflow water can not be blocked at the steam outlet, so that the backflow water noise can be hardly generated, and the steam generator is simple in structure and convenient to process and manufacture.

Description

Steam generator and garment steamer

Technical Field

The invention relates to the field of household appliances, in particular to a steam generator and a garment steamer with the same.

Background

The steam generator in the garment steamer heats and expands water rapidly into hot steam to be discharged through the steam guide pipe, the steam is used for contacting clothes and cloth to soften fiber tissues of the clothes and the cloth, and the clothes and the cloth are leveled through the actions of pulling, pressing and spraying, so that the clothes and the cloth are complete and new. However, the existing garment steamer has at least two problems when in use:

the problem is that the steam interval ejection of the garment steamer is discontinuous. The steam generator is characterized in that a large amount of expansion steam can cause the steam pressure in the steam generator to rise rapidly, so that the water can not be supplemented to the steam generator in practice by means of the principle of an atmospheric communication vessel, only after the water in the steam generator is completely vaporized and discharged through a steam guide pipe, cold water in the water storage vessel can enter the steam generator again after the pressure in the steam generator is reduced, the newly-fed cold water is heated again to vaporize and spray for a required time, and the problem that steam interval spraying of the garment steamer is discontinuous occurs. In order to solve the problem that steam is sprayed discontinuously from the garment steamer, chinese patent application CN2015201341268 discloses a steam generating device and a garment steamer with the same, a heating cavity is defined in a steam generator, a water inlet communicated with a water outlet is formed in a peripheral wall of the heating cavity, the heating cavity is divided into a plurality of heating areas which are spaced apart from each other, heat can be mutually transferred in the plurality of heating areas, the water outlet is communicated with the plurality of heating areas, a heating device is arranged in any one of the plurality of heating areas, and the heat of different heating areas is different by the heating device, so that enough cold water in the steam generator can be heated to generate steam, thereby realizing the technical purpose of continuous steam.

The second problem is that the garment steamer generates noise due to backflow of backflow water in the steam generating process. The steam generated by the steam generator can be conveyed to the spray head through the long steam conveying pipe, because the steam conveying pipe is long, under the influence of external temperature, part of the conveyed steam can be condensed on the inner wall surface of the steam conveying pipe to form reflux water, the reflux water flows back along the steam conveying pipe and flows back into the steam generator through the steam outlet of the steam generator, on one hand, the falling reflux water falls into the heating device in the steam generator to be rapidly heated to form bubble cracking so as to generate noise which is similar to the phenomenon that a kettle boils water, on the other hand, a large amount of rising steam with high air pressure can prevent the reflux water from smoothly flowing back to the steam generator along the steam conveying pipe, even a large amount of reflux water is accumulated at the steam outlet of the steam generator for a long time, and serious noise can be generated when the reflux water collides with the steam which is flushed upwards at the steam outlet, and the noise can cause the anxiety of part of users. In order to solve the problem of noise generated by backflow of backflow water, chinese patent application CN2016110880134 discloses a backflow water and steam separation device, a steam generator, a garment steamer and an electric cooker, wherein a steam separation structure extending to a steam outlet is arranged in a steam cavity to form a steam discharge channel and a backwater channel, and discharged steam and generated backwater water are separated from each other, so that condensed water can smoothly flow back into the steam cavity, and steam in the steam cavity can be smoothly discharged, thereby avoiding noise generated by collision of backwater water and steam. However, in this technical solution, the steam-water separation structure includes a cone-shaped cylinder and a drainage cylinder, wherein a steam through hole penetrates through the wall of the cone-shaped cylinder, or the steam-water separation structure includes an inner sleeve which maintains a circumferential gap between the steam cavity and the inner circumferential surface of the steam outlet.

The above-mentioned chinese patent application CN2015201341268 cannot solve the problem of noise generated by the backflow of the backflow water, while the above-mentioned chinese patent application 2016110880134 cannot solve the problem of steam discontinuity, and the use of a relatively complex water-steam separation structure is also inconvenient for the processing and manufacturing of the steam generator.

Disclosure of Invention

The invention aims to solve the problems of discontinuous steam discharge and noise generated by backwater water in a steam generator to a certain extent, and provides the steam generator which has a simple structure and is convenient to process and manufacture and the garment steamer with the steam generator, wherein the steam generator can stably and continuously discharge steam, and backwater water can not be blocked at a steam outlet, so that backwater water noise can not be generated almost.

The invention is realized by adopting the following technical scheme: a steam generator comprising a heating device and a heating chamber having a steam outlet; the baffle plate is arranged in the heating cavity and divides the heating cavity into a steam cavity for generating steam, a backwater cavity for receiving backwater water formed by cooling in the steam discharging process and providing a buffering and gathering function for the steam generated by the steam cavity so as to ensure stable and continuous steam discharging; the lower end of the partition plate is provided with a water inlet groove communicated with the steam cavity and the water return cavity, the upper end of the partition plate is provided with a steam discharge groove communicated with the steam cavity and the steam outlet, and the position of the steam discharge groove is higher than the upper surface of the heating device; the heating device is arranged in the steam cavity.

The steam outlet is externally connected with a steam conduit which is convenient for leading out the steam at the steam outlet.

Wherein the steam outlet is located above the water return chamber but not directly above the steam chamber.

Wherein the height of the notch of the steam discharge groove is not less than 2mm.

Wherein, the position of the water inlet groove is lower than the upper surface of the heating device.

The upper surface of the heating device is provided with a first evaporation area, and the bottom of the steam cavity positioned at the periphery of the outer side of the heating device is provided with a second evaporation area in a surrounding mode, and the position of the second evaporation area is lower than that of the first evaporation area.

Wherein, set up the one deck water retaining circle in heating device's periphery, the upper end periphery of this water retaining circle is higher than heating device's upper surface and is less than the intake groove, and this water retaining circle is inside to form first evaporation zone, and this water retaining circle outside forms the second evaporation zone of steam chamber.

The invention also discloses a garment steamer which at least comprises a base, a shell arranged on the base, a water storage cavity arranged in the shell and communicated with the outside air, and the steam generator, wherein the water storage cavity is communicated with the backwater cavity through a water inlet channel.

The water inlet channel is horizontally arranged, and two ends of the water inlet channel are respectively communicated with the cavity bottom of the water storage cavity and the cavity bottom of the water return cavity.

Wherein the water inlet channel is positioned lower than the upper surface of the heating device.

The invention essentially solves the technical problems of discontinuous steam discharge and noise generated by reflux water formed by condensation in the steam discharge process, and obtains the corresponding beneficial technical effects by the following technical means:

according to the invention, the partition plate is arranged in the heating cavity to divide the heating cavity into the steam cavity with the heating device and the water return cavity directly communicated with the steam outlet, the water return cavity receives the water return to reduce noise generated by the water return, has a buffer aggregation function on steam to ensure stable and continuous steam discharge, recovers the water return and is beneficial to improving the efficiency of generating steam, so that the steam generator can stably and continuously discharge the steam, and the water return is not blocked at the steam outlet, so that the noise of the water return is hardly generated. And the steam generator has a simple integral structure and is convenient to process and manufacture.

Drawings

Fig. 1 is a schematic view of a part of an internal cross-sectional structure of a garment steamer.

Fig. 2 is a schematic view of a part of the internal perspective structure of the steam generator of fig. 1.

Detailed Description

In order to further describe the technical means and effects adopted by the present application to achieve the preset purpose, the following detailed description refers to the specific implementation, structure, characteristics and effects according to the present application with reference to the accompanying drawings and preferred embodiments. In the following description, different "an embodiment" or "an embodiment" do not necessarily refer to the same embodiment. Furthermore, the particular features, structures, or characteristics of one or more embodiments may be combined in any suitable manner.

The invention discloses a steam generator which is simple in structure and convenient to process and manufacture, and can simultaneously solve the problems of discontinuous steam discharge and noise generated by return water of the steam generator.

Referring to fig. 1, the present invention proposes a garment steamer, which at least includes a base 901, a housing 902 disposed on the base 901, a water storage chamber 1 disposed in the housing 902 and communicating with the outside air, and a steam generator communicating with the water storage chamber 1 through a water inlet channel 2.

Further shown in connection with fig. 2. The steam generator includes: a heating chamber 3 having a steam outlet 30, the heating chamber 3 being in communication with the water storage chamber 1 through the water inlet channel 2; the partition board 4 is arranged in the heating cavity 3, the partition board 4 divides the heating cavity 3 into a steam cavity 31 and a backwater cavity 32, the lower end and the upper end of the partition board 4 are respectively provided with a water inlet groove 41 and a steam outlet groove 42, the steam cavity 31 is communicated with the steam outlet 30 through the steam outlet groove 42, the steam outlet 30 of the heating cavity 3 is positioned above the backwater cavity 32 and not positioned right above the steam cavity 31, the heating device 5 is arranged in the steam cavity 31 (wherein, the heating device 5 can adopt traditional technical means such as an electric heating wire, an electric heating pot and the like, the invention does not improve the heating device 5), and the heating device 5 is used for heating water so as to generate steam. It is also possible to connect a steam conduit 6 externally to the steam outlet 30 to facilitate the removal of steam from the steam outlet 30.

Wherein the water inlet groove 41 is positioned below the upper surface of the heating device 5, so that water is conveniently supplied to the steam cavity 31 through the water inlet groove 41. The steam discharge groove 42 is located higher than the upper surface of the heating device 5, and water above the heating device 5 is preferentially evaporated to form steam and then discharged from the steam discharge groove 42.

Wherein the number of the steam discharging grooves 42 may be plural. Also, the notch size of the steam discharge groove 42 is not easily excessively small in view of facilitating the steam discharge and not generating noise when the steam passes. For example, the height of the notch of the steam discharging groove 42 is preferably not less than 2mm.

The water storage cavity 1 is provided with a water adding port 11, so that a user can conveniently add water into the water storage cavity 1 through the water adding port 11, and the water storage cavity is convenient for the user to use.

Furthermore, the water in the water storage cavity 1 is utilized to supplement water for the water return cavity 32 by utilizing the atmospheric pressure. It can be understood that the position of the water inlet channel 2 is lower, the water inlet channel 2 is horizontally arranged, and two ends of the water inlet channel 2 are respectively communicated with the cavity bottom of the water storage cavity 1 and the cavity bottom of the water return cavity 32. And, the position of the water inlet channel 2 is preferably lower than the upper end face of the heating device 5.

The upper side of the heating device 5 is provided as a first evaporation zone, and a second evaporation zone lower than the upper surface of the heating device 5 is provided around the outside of the heating device 5 at the bottom of the steam chamber 31, the second evaporation zone being located lower than the first evaporation zone. I.e. the heating device 5 is fixed at the bottom of the steam chamber 31, the upper side of the heating device 5 is provided with a first evaporation zone, and a second evaporation zone is provided between the periphery of the heating device 5 and the chamber wall of the steam chamber 31. During the operation of the heating device 5, the water of the first evaporation zone is preferentially evaporated to form steam; when the water in the first evaporation zone is consumed, the upper end edge of the water retaining ring is higher than the upper surface of the heating device 5, so that the second evaporation zone still has water, and the water in the second evaporation zone can not overflow to the upper surface of the heating device 5 for direct heating, but the heating device 5 can heat the water in the second evaporation zone through heat radiation, so that steam discharge is prevented from being interrupted. In fact, when the water in the second evaporation zone is mainly used to generate steam, the internal pressure of the steam chamber 31 is reduced so that the water return chamber 32 supplements the water in the first evaporation zone and the second evaporation zone through the water inlet groove 41.

Of course, if the overall height of the heating device 5 is low, that is, the upper surface position of the heating device 5 is almost identical to the bottom (cavity bottom) position of the steam cavity 31, a water blocking ring may be further disposed at the periphery of the heating device 5, and the upper end periphery of the water blocking ring is higher than the upper surface of the heating device 5 and lower than the water inlet groove 41, so that a first evaporation area is formed inside the water blocking ring, and a second evaporation area of the steam cavity 31 is formed outside the water blocking ring, and the phenomenon that the steam generator interrupts the steam discharge is avoided by disposing the second evaporation area.

The applicant has emphasized that the return water chamber 32 has at least the following three functions in the whole technical solution:

first, the return water chamber 32 is used for receiving return water to reduce noise generated by the return water. Cold water in the water storage chamber 1 can enter the water return chamber 32 through the water inlet passage 2, and water in the water return chamber 32 can flow into the steam chamber 31 through the water inlet groove 41 at the lower end of the partition plate 4 (the arrow to the left in fig. 1 indicates the cold water flowing direction). The water in the steam chamber 31 is heated by the heating device 5 to generate steam, the steam is accumulated in the space above the water surface of the steam chamber 31, the pressure of the accumulated steam increases, the steam enters the water return chamber 32 and the steam outlet 30 from the steam discharge groove 42, and the steam is discharged upward from the steam outlet 30 through the steam conduit 6 (the upward arrow in fig. 1 indicates the flow direction of the steam). The steam is cooled by the inner wall of the steam conduit 6 to condense and form backwater water, although the steam is sprayed upwards with a certain air pressure, the backwater water has gravity to enable the backwater water to flow downwards along the inner wall of the steam conduit 6 (the downwards arrow in fig. 1 indicates the flowing direction of the backwater water) to the steam outlet 30, and then the backwater water continuously flows downwards along the inner wall of the heating cavity 3 or directly falls into the backwater cavity 32 under the steam outlet 30, so that the technical problems that the backwater water falls directly on the surface of the heating device 5 and is gasified at a high speed to generate bubble cracking noise and the backwater water collides with the rising steam directly to generate noise are avoided, and the noise generated by the backwater water is greatly relieved.

Secondly, the backwater chamber 32 has a buffer accumulation function for steam to ensure stable and continuous steam discharge. In the above-described process of generating steam, since steam is required to enter the return water chamber 32 through the steam discharge groove 42 at the upper end of the partition plate 4, the steam is introduced into the steam guide 6 from the steam outlet 30 directly above the return water chamber 32. Since the steam must first accumulate in the steam chamber 31 to form a first pressure, the steam enters the water return chamber 32 through the steam discharge groove 42, and the steam entering the water return chamber 32 first accumulates in the water return chamber 32 to form a second pressure, and then enters the steam conduit 6 from the steam outlet 30. It will be appreciated that the first pressure is slightly greater than the second pressure, and that the second pressure is also slightly greater than the ambient atmospheric pressure. Therefore, when enough water is present in the steam chamber 31, the water in the return water chamber 32 is almost impossible to be supplemented to the steam chamber 31 through the water inlet groove 41 because the pressure in the steam chamber 31 is slightly greater than that in the return water chamber 32. Only when the water in the steam chamber 31 is less and the corresponding generated steam is less, the first pressure in the steam chamber 31 is reduced to be equal to or less than the second pressure in the return water chamber 32, and the water in the return water chamber 32 is supplemented to the steam chamber 31 through the water inlet groove 41. In this process, since the steam generated in the steam chamber 31 is reduced, the second pressure will also decrease, and as the water in the water return chamber 32 is replenished to the steam chamber 31 through the water inlet groove 41, the second pressure in the water return chamber 32 will approach the atmospheric pressure infinitely, so that the cold water in the water storage chamber 1 is replenished to the water return chamber 32 correspondingly through the water inlet channel 2, and thus the generation of steam will not be interrupted. In addition, because the water replenishing process takes place for a very short time, and a large amount of steam is accumulated in the water return cavity 32, the steam accumulated in the water return cavity 32 further enters the steam conduit 6 through the steam outlet 30 in the water replenishing process, so that a user can hardly perceive the change of the steam discharge amount, and the stable continuous steam discharge of the garment steamer is ensured by utilizing the buffering and accumulating function of the water return cavity 32 on the steam.

Third, the return water chamber 32 is used to recover return water and facilitate the efficiency of steam generation. The backwater water that falls back mixes with the cold water that flows into return water chamber 32 through inlet channel 2 and stores in return water chamber 32 to through the heat transfer of steam generation chamber 6 let the water in the return water chamber 32 continue the intensification, make the water temperature that gets into steam chamber 31 from return water chamber 32 higher, the device 5 that generates heat can produce steam more fast like this, the efficiency of producing steam is improved, can produce continuous even steam and reduce the noise that produces by the difference in temperature is big.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims

1. A steam generator comprising a heating device (5) and a heating chamber (3) with a steam outlet (30); characterized by further comprising:

the partition board (4) is arranged in the heating cavity (3), the partition board (4) divides the heating cavity (3) into a steam cavity (31) for generating steam, a backwater cavity (32) for receiving backwater water formed by cooling in the steam discharging process and providing a buffering and gathering function for the steam generated by the steam cavity (31) so as to ensure stable and continuous steam discharging;

the lower end of the partition board (4) is provided with a water inlet groove (41) which is communicated with the steam cavity (31) and the water return cavity (32), the upper end of the partition board (4) is provided with a steam discharge groove (42) which is communicated with the steam cavity (31) and the steam outlet (30), and the position of the steam discharge groove (42) is higher than the upper surface of the heating device (5);

wherein, heating device (5) sets up in steam chamber (31), and steam outlet (30) are located the top of return water chamber (32) and are not located directly over steam chamber (31), and the notch height of steam escape groove (42) is not less than 2mm.

2. A steam generator according to claim 1, characterized in that the steam outlet (30) is externally connected with a steam conduit (6) facilitating the removal of steam from the steam outlet (30).

3. A steam generator according to claim 1, characterized in that the water inlet channel (41) is located below the upper surface of the heating means (5).

4. A steam generator according to claim 1, characterized in that the upper surface of the heating means (5) is provided as a first evaporation zone, and that the bottom of the steam chamber (31) located around the outside of the heating means (5) is provided around as a second evaporation zone, which is located lower than the first evaporation zone.

5. A steam generator according to claim 1, characterized in that a water deflector is arranged at the periphery of the heating means (5), the upper end periphery of which deflector is located above the upper surface of the heating means (5) and below the water inlet channel (41), the water deflector forming a first evaporation zone inside and a second evaporation zone outside the water deflector forming a steam chamber (31).

6. The utility model provides a garment steamer, its includes base (901), locates shell (902) on base (901), locates water storage chamber (1) that shell (902) internal and external air communicate, its characterized in that still includes: a steam generator according to any one of claims 1-5, wherein the water storage chamber (1) is in communication with the return water chamber (32) via the water inlet channel (2).

7. Garment steamer according to claim 6, characterized in that the water inlet channel (2) is arranged horizontally, and both ends of the water inlet channel (2) are respectively communicated with the cavity bottom of the water storage cavity (1) and the cavity bottom of the water return cavity (32).

8. Garment steamer according to claim 6, characterized in that the water inlet channel (2) is positioned lower than the upper surface of the heating device (5).