Water particle generating device and hair styling device

By setting a contact surface on the circumferential side of the condenser rod to fit the cooler, the problem of low cooling efficiency of the condenser rod is solved, thereby improving cooling efficiency and miniaturizing the equipment, making it easier to install the hair styling device.

CN224461246UActive Publication Date: 2026-07-07SHENZHEN FENDA TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHENZHEN FENDA TECH CO LTD
Filing Date
2025-07-08
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

In existing high-voltage corona atomizing water particle generators, the small contact area between the condenser rod and the cooling device results in low condensation efficiency.

Method used

A first contact surface is provided on the circumferential side of the condenser rod to make it fit against the cooling surface of the refrigerator, thereby increasing the contact area, and a horizontal assembly structure is adopted to shorten the cold energy transfer path.

Benefits of technology

It improves the cooling efficiency of the condenser rod by 30%-50%, shortens the cooling time, reduces the overall power consumption of the equipment, and facilitates the installation of the hair styling device.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model relates to the field of atomization device technology, and in particular to a water particle generating device and a hair styling device, including a condenser rod, a cooler, and an atomizing electrode. The condenser rod has at least one first contact surface on its peripheral side, and the cooler has a cooling surface. The first contact surface of the condenser rod can be in contact with the cooling surface. Compared with the prior art, firstly, by providing a first contact surface on the peripheral side of the condenser rod, and allowing the first contact surface to contact the cooling surface of the cooler, the contact area between the cooling surface and the condenser rod can be increased, thereby improving the cooling efficiency of the cooler on the condenser rod. Under the same power consumption cooling operation, the condensation efficiency can be increased by 30%-50%. Secondly, by providing a first contact surface on the peripheral side of the condenser rod and allowing it to contact the cooling surface, the cold energy transfer path can be shortened, thereby accelerating the cooling process of the condenser rod and further improving the cooling efficiency of the cooler on the condenser rod.
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Description

Technical Field

[0001] This utility model relates to the field of atomizing device technology, and in particular to a water microparticle generating device and a hair styling device. Background Technology

[0002] In related technologies, high-voltage corona atomized water particle generators use a cooling device to cool a condenser plate, causing condensate to form on the surface of a condenser rod. A high-voltage electric current is then applied by an atomizing motor to induce corona discharge, generating atomized particles. However, during actual research and development, the inventors discovered that with the condenser rod vertically mounted on the cooling device, only the bottom of the condenser rod contacts the device. This results in a small contact area between the condenser rod and the cooling device, leading to low cooling capacity transferred to the transmitting electrode. A significant amount of cooling capacity is not effectively conducted to the transmitting electrode, causing insufficient condensation efficiency.

[0003] Therefore, a new technical solution needs to be researched to address the above problems. Utility Model Content

[0004] In view of this, the present invention addresses the deficiencies of the existing technology and its main objective is to provide a water particle generator that effectively solves the technical defect of low condensation efficiency caused by the small contact area between the condenser rod and the cooling device in the existing high-voltage corona atomization water particle generator.

[0005] This application provides a water particle generator, including...

[0006] A condenser rod is a cylindrical structure used to condense water in the surrounding air onto the condenser rod.

[0007] The refrigerator comes into contact with the condenser rod, cooling the condenser rod; and...

[0008] Atomizing electrode: High voltage is applied to the atomizing electrode, causing the condensed water attached to the condenser rod to be excited by the high voltage corona to form atomized water particles;

[0009] The condenser rod has at least one first contact surface on its peripheral side, and the refrigerator has a cooling surface. The first contact surface of the condenser rod can be in contact with the cooling surface.

[0010] The beneficial effect of the water particle generator provided in this application is that, compared with the prior art,

[0011] Firstly, by providing a first contact surface on the circumferential side of the condenser rod, and then contacting the cooling surface of the refrigerator through the first contact surface, the contact area between the cooling surface and the condenser rod can be increased, thereby improving the cooling efficiency of the refrigerator for the condenser rod. Under the same power consumption cooling operation of the refrigerator, the condensing efficiency can be improved by 30%-50%.

[0012] Secondly, by setting a first contact surface on the circumferential side of the condenser rod to contact the cooling surface, the cold energy transfer path can be shortened, thereby accelerating the cooling process of the condenser rod and further improving the cooling efficiency of the condenser rod by the refrigerator.

[0013] As a preferred embodiment, the condenser rod includes an integrally formed discharge section and a cooling section, which are arranged sequentially along the first central axis of the condenser rod;

[0014] The first bonding surface is located on the peripheral side of the refrigeration section.

[0015] As a preferred embodiment, the first length L1 of the cooling section is greater than the second length L2 of the discharge section.

[0016] As a preferred embodiment, the discharge section includes a curved discharge head at the top and a radial water collection tank below the curved discharge head.

[0017] As a preferred embodiment, the device also includes a mounting bracket with a mounting notch on its rear side, into which the cooler is fixedly installed.

[0018] As a preferred embodiment, it also includes a radiator, which is fixedly installed on a mounting bracket, and has a heat dissipation notch on its front surface; the rear surface of the cooler can abut against the surface of the heat dissipation notch, and the front surface of the cooler is a cooling surface.

[0019] As a preferred embodiment, the upper part of the mounting bracket is provided with a first through hole, which penetrates the upper surface of the mounting bracket and the mounting notch, and the discharge part of the condenser rod extends upward through the first through hole to the upper part of the mounting bracket.

[0020] As a preferred embodiment, the atomizing electrode includes a first electrode mounted on a condenser rod and a second electrode mounted on a mounting bracket. The second electrode has a first clearance window, the center of which is coaxially arranged with the first central axis of the condenser rod.

[0021] As a preferred embodiment, the top of the mounting bracket is provided with a first extension platform and a first extension column, and the tops of the first extension platform and the first extension column are flush.

[0022] The first extension post has a first assembly post at its top, and the second electrode has a first assembly hole for the first assembly post to be inserted.

[0023] This application also provides a hair styling device equipped with a water particle generator; the hair styling device is any one of a curling iron, a hair comb, a hair dryer, a straightener, or a straightener / curler combo.

[0024] The beneficial effects of the hair styling device provided in this application are that, compared with the prior art, by installing a water droplet generator, the first contact surface of the peripheral side of the condenser rod can be used to contact the cooling surface of the cooler, increasing the contact area between the cooling surface and the condenser rod and improving the cooling efficiency of the cooler on the condenser rod; at the same time, the condenser rod contacts the peripheral side of the condenser rod with the cooling surface to form a horizontal assembly structure of the condenser rod and the cooler, thereby reducing the overall size of the water droplet generator and thus reducing the area it occupies in the hair styling device, making it easier to install the water droplet generator in the hair styling device. Attached Figure Description

[0025] To more clearly illustrate the technical solutions in the embodiments of this application, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this application. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0026] Figure 1 This is a three-dimensional structural schematic diagram of the water particle generator provided in the embodiments of this application;

[0027] Figure 2 yes Figure 1 An exploded three-dimensional view of the water particle generator shown.

[0028] Figure 3 yes Figure 1 A three-dimensional structural diagram of the condenser, cooler, and first electrode of the water particle generator shown.

[0029] Figure 4 yes Figure 1 The front view of the condenser, cooler, and second electrode of the water particle generator shown.

[0030] The following are the labeling elements in the figure:

[0031] 100. Water particle generator;

[0032] 10. Condensing rod; 11. First mating surface; 12. Discharge section; 121. Curved discharge head; 122. Radial water collection tank; 13. Cooling section; 14. First central axis; 15. Second mating surface;

[0033] 20. Refrigerator; 21. Cooling surface; 22. Radiator; 221. Heat dissipation notch; 222. Heat sink fins;

[0034] 30. Atomizing electrode; 31. First electrode; 32. Second electrode; 321. First clearance window; 322. First mounting hole;

[0035] 40. Mounting bracket; 41. Mounting notch; 42. First through hole; 43. First extension platform; 44. First extension column; 441. First assembly column. Detailed Implementation

[0036] To make the technical problems, technical solutions, and beneficial effects to be solved by this application clearer, the following detailed description is provided in conjunction with the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative and are not intended to limit the scope of this application.

[0037] It should be noted that when a component is referred to as being "fixed to" or "set on" another component, it can be directly on or indirectly on that other component. When a component is referred to as being "connected to" another component, it can be directly connected to or indirectly connected to that other component.

[0038] It should be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this application and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this application.

[0039] Furthermore, the terms "first" and "second" are used for descriptive purposes only and should not be construed as indicating or implying relative importance or implicitly specifying the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of this application, "multiple" means two or more, unless otherwise explicitly specified.

[0040] To make the objectives, technical solutions, and advantages of this utility model clearer, the present utility model will be further described in detail below with reference to the accompanying drawings and embodiments.

[0041] Please refer to the following: Figures 1 to 4 The water particle generator 100 provided in the embodiments of this application will now be described.

[0042] The water particle generator 100 includes a condenser rod 10, a cooler 20, and an atomizing electrode. The condenser rod 10 has a cylindrical structure and is used to condense water in the surrounding air onto the condenser rod 10. The cooler 20 is in contact with the condenser rod 10 to cool it. A high voltage is applied to the atomizing electrode 30, causing the condensed water attached to the condenser rod 10 to be excited by the high voltage corona discharge to form atomized water particles. The condenser rod 10 has at least a first contact surface 11 on its peripheral side, and the cooler 20 has a cooling surface 21. The first contact surface 11 of the condenser rod 10 can be in contact with the cooling surface 21.

[0043] Understandably, in traditional technology, the condenser rod 10 is perpendicularly attached to the cooling surface 21 of the refrigerator 20, meaning only the bottom of the condenser rod 10 is in contact with the cooling surface 21. This structure results in a small contact area between the condenser rod 10 and the cooling surface 21, leading to low cooling efficiency of the condenser rod 10. At the same time, the path for transferring cold energy from the bottom to the top of the condenser rod 10 is long, further limiting the cooling efficiency of the condenser rod 10.

[0044] Therefore, the water particle generator 100 provided in this application, by providing a first contact surface 11 on the peripheral side of the condenser rod 10, and by contacting the refrigeration surface 21 of the refrigerator 20 through the first contact surface 11, can increase the contact area between the refrigeration surface 21 and the condenser rod 10, thereby improving the cooling efficiency of the refrigerator 20 on the condenser rod 10. Under the same power consumption cooling operation of the refrigerator 20, the condensation efficiency can be improved by 30%-50%. By providing a first contact surface 11 on the peripheral side of the condenser rod 10 and contacting the refrigeration surface 21, the condenser rod 10 and the refrigerator 20 form a horizontal contact structure, which can shorten the cold energy transfer path, thereby accelerating the cooling process of the condenser rod 10 and further improving the cooling efficiency of the refrigerator 20 on the condenser rod 10.

[0045] In some embodiments, the condenser rod 10 includes an integrally formed discharge section 12 and a cooling section 13, which are sequentially arranged along the first central axis 14 of the condenser rod 10; a first contact surface 11 is provided on the peripheral side of the cooling section 13. When the first contact surface 11 of the condenser rod 10 is in contact with the cooling surface 21 of the cooler 20, the first central axis 14 can be arranged parallel to the cooling surface 21, so that the condenser rod 10 and the cooler 20 form a horizontal installation structure, thereby reducing the overall size of the water particle generator 100 and thus reducing the area it occupies in the hair styling device, thereby facilitating the installation of the water particle generator 100 in the hair styling device.

[0046] Specifically, the first length L1 of the cooling section 13 is greater than the second length L2 of the discharge section 12. This structure can further increase the contact area between the condenser rod 10 and the cooling surface 21, and shorten the transmission path of the cold source from the cooling section 13 to the discharge section 12, thereby further improving the cooling efficiency of the cooler 20 on the condenser rod 10. Under the condition that the cooler 20 uses the same cooling power consumption, more condensate can be condensed, reducing the overall power consumption of the equipment.

[0047] Furthermore, the discharge section 12 includes a curved discharge head 121 located at the top and a radial water-gathering tank 122 located below the curved discharge head 121. By providing the curved discharge head 121 at the top of the discharge section 12, a high-intensity electric field can be formed, thereby improving ionization efficiency.

[0048] In other embodiments, a mounting bracket 40 is also included, with a mounting notch 41 on its rear side, into which the cooler 20 is fixedly mounted. The cooler 20 also includes a radiator 22, which is fixedly mounted to the mounting bracket 40. The front surface of the radiator 22 has a heat dissipation notch 221; the rear surface of the cooler 20 can abut against the surface of the heat dissipation notch 221, and the front surface of the cooler 20 is a cooling surface 21.

[0049] Preferably, the rear surface of the radiator 22 is provided with a plurality of heat sinks 222, which can extend rearward. The heat sink 222 structure can increase the heat dissipation area of ​​the radiator 22.

[0050] Specifically, the mounting bracket 40 has a first through hole 42 on its upper part, which penetrates the upper surface of the mounting bracket 40 and the mounting notch 41. The discharge part 12 of the condenser rod 10 extends upward through the first through hole 42 to the upper part of the mounting bracket 40. The atomizing electrode 30 includes a first electrode 31 mounted on the condenser rod 10 and a second electrode 32 mounted on the mounting bracket 40. The second electrode 32 has a first clearance window 321, the center of which is coaxially arranged with the first central axis 14 of the condenser rod 10.

[0051] Preferably, the circumferential side of the condenser rod 10 is provided with a second contact surface 15, which is arranged parallel to the first contact surface 11. The first electrode 31 can be in contact with the second contact surface to transmit high voltage electricity to the condenser rod 10 via the second electrode 32, and generate an electric arc through the discharge part 12 at the top of the condenser rod 10 and the second electrode 32 to ionize the condensate in the condenser rod 10. The distance between the first contact surface 11 and the first central axis 14 is greater than the distance between the second contact surface 15 and the first central axis 14, which allows the entire condenser rod 10 to be positioned closer to the cooling surface 21 of the cooler 20.

[0052] More specifically, the mounting bracket 40 has a first extension platform 43 and a first extension post 44 on its top, and the tops of the first extension platform 43 and the first extension post 44 are flush; the top of the first extension post 44 has a first mounting post 441, and the second electrode 32 has a first mounting hole 322 for the first mounting post 441 to be inserted.

[0053] The assembly process of the water microparticle generator 100 provided in this application is described in detail as follows: First, the first contact surface 11 of the condenser rod 10 is attached to the cooling surface 21 of the cooler 20, and then the first electrode 31 is attached and fixed to the second contact surface 15; next, the cooler 20, the condenser rod 10 and the first electrode 31 are installed into the mounting notch 41, and the radiator 22 is fixedly installed on the mounting bracket 40, and the cooler 20, the condenser rod 10 and the first electrode 31 are clamped together by the radiator 22 and the mounting bracket 40; then the second electrode 32 is installed on the top of the mounting bracket 40, and the first assembly post 441 is inserted into the first assembly hole 322; subsequently, the first electrode 31 and the second electrode 32 are connected to high voltage, so that the water microparticle generator 100 can ionize the condensed water of the condenser rod 10.

[0054] Preferably, the condenser rod 10 can be fixedly installed on the cooler 20 by any of the following methods: screw fastening, welding, snap-fitting, gluing or clamping; the first electrode 31 can be fixedly installed on the condenser rod 10 by any of the following methods: screw fastening, welding, snap-fitting, gluing or clamping; the radiator 22 can be fixedly installed on the mounting bracket by any of the following methods: screw fastening, welding, snap-fitting, gluing or clamping.

[0055] In other embodiments, a hair styling device is also provided; the hair styling device is equipped with a water particle generator 100, and the hair styling device is any one of a curling iron, a hair comb, a hair dryer, a straightener, or a straightener / curler combo.

[0056] Specifically, by installing the water droplet generator 100, the first contact surface 11 of the peripheral side of the condenser 10 can be used to contact the cooling surface 21 of the cooler 20, increasing the contact area between the cooling surface 21 and the condenser 10 and improving the cooling efficiency of the cooler 20 on the condenser 10. At the same time, the condenser 10 contacts the peripheral side of the condenser 10 with the cooling surface 21 to form a horizontal assembly structure of the condenser 10 and the cooler 20, thereby reducing the overall size of the water droplet generator 100 and reducing the area it occupies in the hair styling device, thus facilitating the installation of the water droplet generator 100 in the hair styling device.

[0057] The above are merely preferred embodiments of the present utility model, and only specifically describe the technical principles of the present utility model. These descriptions are only for explaining the principles of the present utility model and should not be construed as limiting the scope of protection of the present utility model in any way. Based on this explanation, any modifications, equivalent substitutions, and improvements made within the spirit and principles of the present utility model, as well as other specific embodiments of the present utility model that can be conceived by those skilled in the art without creative effort, should be included within the scope of protection of the present utility model.

Claims

1. A water microparticle generator, comprising: The condenser rod (10) is a cylindrical structure used to condense water in the surrounding air onto the condenser rod (10); The refrigerator (20) comes into contact with the condenser rod (10) to cool the condenser rod (10); and, Atomizing electrode (30): High voltage is applied to atomizing electrode (30) so that the condensed water attached to the condensing rod (10) is excited by high voltage corona to form atomized water particles; Its features are, The condenser rod (10) has at least a first contact surface (11) on its peripheral side, and the refrigerator (20) has a cooling surface (21). The first contact surface (11) of the condenser rod (10) can be in contact with the cooling surface (21).

2. The water particle generator according to claim 1, characterized in that, The condenser rod (10) includes an integrally formed discharge section (12) and a cooling section (13), which are arranged sequentially along the first central axis (14) of the condenser rod (10); The first bonding surface (11) is located on the peripheral side of the cooling section (13).

3. The water particle generator according to claim 2, characterized in that, The first length L1 of the cooling section (13) is greater than the second length L2 of the discharge section (12).

4. The water particle generator according to claim 2 or 3, characterized in that, The discharge section (12) includes a curved discharge head (121) located at the top and a radial water collection tank (122) located below the curved discharge head (121).

5. The water particle generator according to claim 2 or 3, characterized in that, It also includes a mounting bracket (40), the rear side of which is provided with a mounting notch (41), and the cooler (20) is fixedly installed in the mounting notch (41).

6. The water particle generator according to claim 5, characterized in that, It also includes a radiator (22), which is fixedly installed on the mounting bracket (40). The front surface of the radiator (22) has a heat dissipation notch (221); the rear surface of the cooler (20) can abut against the surface of the heat dissipation notch (221), and the front surface of the cooler (20) is a cooling surface (21).

7. The water particle generator according to claim 5, characterized in that, The mounting bracket (40) has a first through hole (42) on its upper part. The first through hole (42) penetrates the upper surface of the mounting bracket (40) and the mounting notch (41). The discharge part (12) of the condenser rod (10) extends upward through the first through hole (42) to the upper part of the mounting bracket (40).

8. The water particle generator according to claim 5, characterized in that, The atomizing electrode (30) includes a first electrode (31) mounted on the condenser rod (10) and a second electrode (32) mounted on the mounting bracket (40). The second electrode (32) has a first clearance window (321), the center of which is coaxial with the first central axis (14) of the condenser rod (10).

9. The water particle generator according to claim 8, characterized in that, The mounting bracket (40) is provided with a first extension platform (43) and a first extension column (44) at the top, and the tops of the first extension platform (43) and the first extension column (44) are flush. The first extension post (44) has a first assembly post (441) at its top, and the second electrode (32) has a first assembly hole (322) for the first assembly post (441) to be inserted.

10. A hair styling device, equipped with a water particle generating device as described in any one of claims 1-9, characterized in that, Hair styling devices are any of the following: curling iron, hair dryer, hair straightener, or a combination curling iron.