CN217013046U - High-efficient design curler - Google Patents

Abstract

The utility model discloses a high-efficiency shaping hair curler, which comprises a heating pipe and a handle connected with the heating pipe; a heating element, a heat insulation piece and a first air channel are arranged in the heating pipe, the heat insulation piece is used for separating the heating element from the first air channel, and a first air outlet used for enabling air flow to flow out is formed in the side wall of the heating pipe; the handle is internally provided with an airflow suction assembly and a second air duct communicated with the first air duct, and the airflow suction assembly is used for providing power for airflow entering the first air duct; the air flow flows through the second air duct and the first air duct in sequence and flows out from the first air outlet. At the in-process to hair heating design, cool down the hair by the cold wind that first air outlet flowed, can play the effect of cold design, the temperature that sets up simultaneously the messenger heat-generating body can not receive air current in the first wind channel or by the influence of the air current that first wind channel flowed, makes the temperature of heating pipe can satisfy the hair design demand to improve the efficiency and the design quality of hair design.

Description

High-efficient design curler

Technical Field

The utility model relates to the technical field of hairdressing equipment, in particular to an efficient shaping hair curler.

Background

In the prior art, hair is generally shaped by a heating mode, the hair is easily damaged when being contacted with high temperature for a long time, the shaping effect is poor, and the rapid shaping and the hair management are difficult to realize.

In the process of shaping hair, a scheme of introducing air flow into the curling iron exists, but the existing scheme is only to simply introduce the air flow into the curling iron, and the temperature of the air outlet is increased along with the increase of the temperature of the curling iron, so that the shaping effect is influenced.

In summary, the problem to be solved by those skilled in the art is how to improve the styling efficiency and styling effect of the hair curler.

SUMMERY OF THE UTILITY MODEL

In view of this, the present invention provides an efficient hair curler, which can cool hair by flowing air out of the first air outlet through the second air duct and the first air duct during use, and can prevent the temperature of the heating element from being affected by separating the heating element from the first air duct through the heat insulation member; thereby improving the efficiency and quality of hair styling.

In order to achieve the above purpose, the utility model provides the following technical scheme:

a high-efficiency shaping hair curler comprises a heating pipe and a handle connected with the heating pipe;

a heating body, a heat insulation piece and a first air duct are arranged in the heating pipe, the heat insulation piece is used for separating the heating body from the first air duct, and a first air outlet used for enabling air flow to flow out is formed in the side wall of the heating pipe;

the handle is internally provided with an airflow suction assembly and a second air channel communicated with the first air channel, and the airflow suction assembly is used for providing power for airflow entering the second air channel.

Optionally, the first air duct is a tubular structure arranged in the heating tube, a second air outlet is arranged on one side of the tubular structure facing the side wall of the heating tube, and the second air outlet is communicated with the first air outlet;

and the air outlet direction of the second air outlet is arranged in a staggered manner with the heating body.

Optionally, the heat insulation element is an anti-scald silica gel cover sleeved on the periphery of the first air duct, the anti-scald silica gel cover is provided with a third air outlet corresponding to the second air outlet, one end of the third air outlet is communicated with the second air outlet, and the other end of the third air outlet is communicated with the first air outlet;

and the air outlet direction of the third air outlet is arranged in a staggered manner with the heating body.

Optionally, the heating element includes a first heating element and a second heating element, and the first heating element and the second heating element are respectively disposed at the top and the bottom of the heating tube;

the first air duct comprises a first tubular structure and a second tubular structure, the first tubular structure and the second tubular structure are respectively and oppositely arranged on the side wall in the heating tube, and the tubular structures and the heating body are arranged in a staggered mode.

Optionally, one side of the first tubular structure facing the inner side wall of the heating pipe and one side of the second tubular structure facing the inner side wall of the heating pipe are both provided with a plurality of second air outlets, and the first air outlet and the third air outlet are both in one-to-one correspondence with the second air outlets.

Optionally, the second air duct includes a connector, a rear end cap and a fixing cover, the fixing cover is located in the handle, and the rear end cap is connected to the heating pipe and the handle;

the air suction assembly enables air to enter the fixed cover, the air inlet end of the rear end cover is communicated with the fixed cover, a plurality of air outlet pipes are arranged at the air outlet end of the rear end cover and are connected with the connectors in a one-to-one correspondence mode, and the other ends of the connectors are connected with the tubular structures in a one-to-one correspondence mode.

Optionally, a front end cover is arranged at one end of the heating tube far away from the handle, and the front end cover is used for blocking a front end opening of the tubular structure, so that the airflow flows out from a second air outlet of the tubular structure.

Optionally, one end of the front end cover, which faces away from the heating pipe, is provided with a burn-proof part.

Optionally, the airflow suction assembly includes a motor and a fan driven by the motor to rotate, the motor is located in the fixed cover, and the fan is located at an end of the fixed cover facing outward.

Optionally, the handle is provided with a temperature display lamp for displaying the heating pipe temperature information.

When the high-efficiency shaping hair curler provided by the utility model is used, firstly, the high-efficiency shaping hair curler needs to be electrified to enable the temperature of the heating element to rise, after the heating element heats the heating pipe to a proper temperature, the operation of hair shaping is carried out, hair is wound to the heating pipe, the air flow suction assembly is controlled to work, and the air flow enters the second air channel, enters the first air channel from the second air channel and then flows out from the first air outlet.

At the in-process that adds the fever design to hair, cool down to the hair by the cold wind that first air outlet flowed out, can play the effect of cold design, the temperature that sets up the messenger heat-generating body simultaneously can not receive in the first wind channel air current or by the influence of the air current that first wind channel flowed out, makes the temperature of heating pipe can satisfy the hair design demand to improve the efficiency and the design quality that the hair was stereotyped. And the air current is at the in-process that flows, receives the restriction in first wind channel, second wind channel, the condition that air leakage or flow direction are chaotic can not appear, very big improvement the air-out quality of first air outlet.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

FIG. 1 is an exploded view of an embodiment of the high efficiency styling iron of the present invention;

FIG. 2 is a schematic diagram illustrating an embodiment of a high-efficiency styling iron according to the present invention;

FIG. 3 is a front elevational view of the high efficiency styling iron of FIG. 2;

FIG. 4 is a schematic cross-sectional view taken along line A-A of the high efficiency styling iron of FIG. 3;

figure 5 is a schematic view of the direction of air flow out of the present invention during use of the present invention.

In fig. 1-5:

1 is an anti-scalding part, 2 is a front end cover, 3 is a heating pipe, 31 is a first air outlet, 4 is a clamping piece, 5 is a clamping piece handle, 6 is a support, 7 is a screw, 8 is a rear end cover, 9 is a lampshade, 10 is a key, 11 is an upper handle cover plate, 12 is a lower handle, 13 is a rotary tail component, 14 is a clamping piece cover plate, 15 is a torsion spring, 16 is a gasket, 17 is a heating body, 171 is a first heating body, 172 is a second heating body, 18 is an anti-scalding silica gel cover, 181 is a third air outlet, 19 is a tubular structure, 191 is a first tubular structure, 192 is a second tubular structure, 193 is a second air outlet, 20 is a connector, 21 is a circuit board component, 22 is a fixed cover, 23 is a motor, 24 is a fan, and 25 is a temperature display lamp.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The core of the utility model is to provide the high-efficiency hair curler, in the using process, airflow can flow out from the first air outlet through the second air duct and the first air duct to cool hair, and the heating element is separated from the first air duct through the heat insulation piece, so that the temperature of the heating element is prevented from being influenced; thereby improving the efficiency and quality of hair styling.

Please refer to fig. 1 to 5.

The specific embodiment discloses a high-efficiency shaping hair curler, which comprises a heating pipe 3 and a handle connected with the heating pipe 3, as shown in fig. 1 and 2; a heating element 17, a heat insulation piece and a first air channel are arranged in the heating pipe 3, the heat insulation piece is used for separating the heating element 17 from the first air channel, and a first air outlet 31 for enabling air flow to flow out is formed in the side wall of the heating pipe 3; the handle is internally provided with an airflow suction assembly and a second air duct communicated with the first air duct, and the airflow suction assembly is used for providing power for airflow entering the second air duct; the airflow sequentially flows through the second air duct and the first air duct, and flows out from the first air outlet 31.

It should be noted that, the first air duct in this embodiment may be formed by enclosing an air duct shell specially used for forming the first air duct, or may be directly formed inside the heating pipe 3, so that the heating pipe 3 serves as the air duct shell of the first air duct, or other setting manners, which are not described herein again. When the first air duct is formed by enclosing an air duct shell specially used for forming the first air duct, the air flow enters the first air duct, flows out from the second air outlet 193 of the first air duct, and then flows out from the first air outlet 31 on the heating pipe 3; when the heating pipe 3 is used as an air duct shell of the first air duct, the air flow enters the first air duct and then flows out from the first air outlet 31. The second air duct in this embodiment may be formed by enclosing an air duct casing specially used for forming the second air duct, or may be directly formed inside the handle, and the casing of the handle is used as the air duct casing of the second air duct, or in other setting manners, which is not described herein again.

In the process of using the efficient hair styling curler provided by the embodiment, firstly, the efficient hair styling curler needs to be powered on to raise the temperature of the heating element 17, when the heating element 17 heats the heating tube 3 to a proper temperature, the hair styling operation is performed, the hair is wound on the heating tube 3, the air flow suction assembly is controlled to work, and the air flow enters the second air channel, enters the first air channel from the second air channel and then flows out from the first air outlet 31.

Preferably, the air outlet direction of the first air outlet 31 avoids the heating element 17, so as to avoid the air flow from influencing the temperature of the heating element 17.

At the in-process that adds heat setting to the hair, cool down the hair by the cold wind that first air outlet 31 flows, can play the effect of cold setting, the setting up of heat-insulating part makes the temperature of heat-generating body 17 can not receive in the first wind channel air current or by the influence of the air current that first wind channel flows, make the temperature of heating pipe 3 can satisfy the hair demand of setting to improve the efficiency and the design quality that the hair was set shape. And the air current is at the in-process that flows, receives the restriction in first wind channel, second wind channel, the condition that air leakage or flow direction are chaotic can not appear, very big improvement first air outlet 31's air-out quality.

In an embodiment, as shown in fig. 1, the first air duct is a tubular structure 19 disposed in the heating pipe 3, a side of the tubular structure 19 facing the side wall of the heating pipe 3 is provided with a second air outlet 193, and the second air outlet 193 is communicated with the first air outlet 31; the air outlet direction of the second air outlet 193 avoids the heating element 17.

After entering the second air duct, the air flow enters the tubular structure 19 through the second air duct, flows out to the first air outlet 31 through the second air outlet 193 of the tubular structure 19, and finally flows out through the first air outlet 31.

In this embodiment, the number of the tubular structures 19 may be one or multiple, which is determined according to actual situations and is not described herein.

Preferably, the heating element 17 is disposed outside the tubular structure 19, and the air outlet direction of the second air outlet 193 avoids the heating element 17, so that in the using process, the influence of the air flow on the temperature of the heating element 17 can be avoided, and meanwhile, the temperature of the air flow can be effectively prevented from being raised by the heating element 17, and the cooling effect of the blowing air can be improved.

Preferably, the tubular structure 19 has an axial direction parallel to the axial direction of the heating tube 3.

As shown in fig. 1, the heat insulation member is an anti-scald silica gel cover 18 sleeved on the periphery of the first air duct, the anti-scald silica gel cover 18 is provided with a third air outlet 181 corresponding to the second air outlet 193, one end of the third air outlet 181 is communicated with the second air outlet 193, and the other end is communicated with the first air outlet 31; the air outlet direction of the third air outlet 181 avoids the heating element 17.

In the using process, because the anti-scald silica gel cover 18 has certain elasticity, the anti-scald silica gel cover 18 can be tightly attached to the outer side surface of the tubular structure 19, and the airflow sequentially flows through the second air duct, the first air duct, the second air outlet 193, the third air outlet 181 and the first air outlet 31 and flows out from the first air outlet 31.

In this embodiment, the heat insulation member is set as the anti-scald silica gel cover 18, so that the heating element 17 can be effectively prevented from heating the tubular structure 19, the air outlet direction of the third air outlet 181 avoids the heating element 17, the influence of the air flow on the temperature rise of the heating element 17 can be avoided, and the hair styling efficiency and quality can be further improved.

Preferably, the inner side wall of the anti-scald silica gel cover 18 can be attached to the outer side wall of the corresponding tubular structure 19, so that the airflow can completely enter the third air outlet 181 after flowing out of the second air outlet 193, and the additional loss and leakage of the airflow are avoided; further, one side of the scald-proof silica gel cover 18, which is provided with the third air outlet 181, is tightly attached to the inner wall of the heating pipe 3, so that the airflow completely enters the first air outlet 31 after flowing out of the third air outlet 181.

In a specific embodiment, two heating elements 17 are provided, including a first heating element 171 and a second heating element 172, the first heating element 171 and the second heating element 172 are respectively disposed at the top and the bottom of the heating tube 3, the first air duct includes a first tubular structure 191 and a second tubular structure 192, the first tubular structure 191 and the second tubular structure 192 are respectively disposed opposite to the side wall of the heating tube 3, and the first tubular structure 191 and the second tubular structure 192 are disposed to avoid the first heating element 171 and the second heating element 172.

As shown in fig. 1, the first heating element 171 and the second heating element 172 are respectively disposed at the top and the bottom of the heating pipe 3, the first tubular structure 191 and the second tubular structure 192 are respectively disposed at the left side wall and the right side wall of the heating pipe 3, the first tubular structure 191 and the second tubular structure 192 are respectively sleeved with an anti-scald silica gel cover 18, the first tubular structure 191 faces one side of the inner side wall of the heating pipe 3, one side of the second tubular structure 192 faces one side of the inner side wall of the heating pipe 3 is provided with a plurality of second air outlets 193, and the first air outlet 31 and the third air outlet 181 are respectively disposed in one-to-one correspondence with the second air outlets 193.

In the using process, the airflow enters the first tubular structure 191 and the second tubular structure 192 through the second air duct, sequentially flows through the second air outlet 193 and the third air outlet 181, and flows out from the first air outlet 31.

In this embodiment, the heating element 17 and the tubular structure 19 are separately disposed at different positions in the heating pipe 3, and the tubular structure 19 and the heating element 17 are separated by the heat insulation member, so that the influence of the air flow on the temperature of the heating element 17 can be effectively avoided, and the heat of the heating element 17 can be prevented from being conducted to the tubular structure 19.

In a specific embodiment, the second air duct includes a connector 20, a rear end cap 8 and a fixing cover 22, the fixing cover 22 is located in the handle, and the rear end cap 8 connects the heating pipe 3 and the handle;

the airflow suction assembly enables airflow to enter the fixed cover 22, the air inlet end of the rear end cover 8 is communicated with the fixed cover 22, the air outlet end of the rear end cover 8 is provided with a plurality of air outlet pipes, the air outlet pipes are connected with the connectors 20 in a one-to-one correspondence mode, and the other ends of the connectors 20 are connected with the tubular structures 19 in a one-to-one correspondence mode.

The end of the heating tube 3 away from the handle is provided with a front end cap 2, and the front end cap 2 is used for blocking the front end opening of the tubular structure 19, so that the air flow flows out from the second air outlet 193 of the tubular structure 19.

The airflow suction assembly comprises a motor 23 and a fan 24 driven by the motor 23 to rotate, the motor 23 is positioned in the fixed cover 22, and the fan 24 is positioned at the end part of the fixed cover 22 facing to the outside; of course, the airflow suction assembly may also be other structures meeting the requirement, which will not be described herein.

In the using process, the motor 23 drives the fan 24 to rotate, so that the airflow enters the fixing cover 22 of the second air duct and enters the rear end cover 8 through the fixing cover 22, the air inlet end of the rear end cover 8 is communicated with the fixing cover 22, the air outlet end of the rear end cover 8 is provided with a plurality of air outlet pipes, the number of the air outlet pipes is the same as that of the tubular structures 19, as shown in fig. 1, two air outlet pipes are arranged and are connected with the tubular structures 19 through the connectors 20 in a one-to-one correspondence manner, so that the airflow is divided and then enters the first tubular structures 191 and the second tubular structures 192 respectively, flows out through the second air outlets 193 of the first tubular structures 191 and the second tubular structures 192, and then flows out through the third air outlets 181 and the first air outlets 31.

Preferably, the connector 20 is a tubular structure 19, and one end of the connector 20 is connected with the tubular structure 19 in a sealing and sleeving manner, and the other end is connected with the air outlet pipe in a sealing and sleeving manner.

In a specific embodiment, the one end that front end housing 2 deviates from heating pipe 3 is provided with prevents scalding portion 1, is provided with support 6 in the position that heating pipe 3 is connected with rear end housing 8, and support 6 is through when placing high-efficient design curler, can avoid heating pipe 3 direct and contact such as desktop, avoids scalding.

As shown in fig. 2, the heating pipe 3 is provided with a rotatable clip handle 5, the clip handle 5 is connected with a clip 4 and a clip cover plate 14, the clip handle 5 is connected to the heating pipe 3 through a torsion spring 15, and the torsion spring 15 and a gasket 16 are fixed on the heating pipe 3 and fixed through a screw 7.

The handle includes upper handle apron 11 and lower handle 12, and the tail end of handle is provided with commentaries on classics tail subassembly 13, is provided with circuit board subassembly 21 in the handle, and the circuit board is connected with temperature display lamp 25, and upper handle apron 11 is provided with lamp shade 9 and button 10, and button 10 can include power button, temperature regulation button etc..

As shown in fig. 3, the clip 4 is in a closed state, in which the hair can be clamped; as shown in fig. 2, when the clip handle 5 is pressed, the clip 4 is in an open state, and in this state, hair can be placed between the clip 4 and the heating tube 3; as shown in fig. 5, the first air outlets 31 are disposed at two opposite sides of the heating pipe 3, and the air outlet direction is shown in fig. 5; preferably, the first air outlets 31 are symmetrically arranged about the middle section of the heating pipe 3, and the number and the arrangement positions of the first air outlets 31 need to be determined according to actual situations, which is not described herein again.

When the high-efficiency shaping hair curler shown in fig. 1-5 is used, firstly, a power supply is connected, the high-efficiency shaping hair curler starts to work by pressing the key 10, the heating element 17 heats the heating pipe 3 until the temperature display lamp 25 displays that the heating pipe 3 reaches a proper temperature, at this time, the motor 23 drives the fan 24 to rotate, and air flow sequentially flows through the fixed cover 22, the rear end cover 8, the connector 20 and the tubular structure 19 and flows out from the first air outlet 31; the user is fixed to clamping piece 4 and heating pipe 3 surface with the hair to wind on locating heating pipe 3 and clamping piece 4, carry out the heat setting, there is the cold wind that first air outlet 31 flows to carry out cold wind to the hair and stereotype this moment, can protect the hair matter, can also prevent that the high temperature from scalding the scalp.

Along the flowing direction of the air flow in the first air duct, the plurality of first air outlets 31 may be uniformly distributed along the flowing direction of the air flow in the first air duct, or the interval between adjacent first air outlets 31 may be gradually decreased along the flowing direction of the air flow in the first air duct, so as to make the air flow rates of the first air outlets 31 equal as much as possible, or other setting manners, which are not described herein again.

The first tubular structure 191, the second tubular structure 192, the first heating element 171, the second heating element 172, the first air outlet 31, the second air outlet 193, and the third air outlet 181 mentioned in the present specification are only for distinguishing the difference of the positions, and are not sequentially distinguished.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. Any combination of all embodiments provided by the present invention is within the protection scope of the present invention, and details are not described herein.

The efficient styling iron provided by the present invention is described in detail above. The principles and embodiments of the present invention are explained herein using specific examples, which are presented only to assist in understanding the method and its core concepts. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, it is possible to make various improvements and modifications to the present invention, and those improvements and modifications also fall within the scope of the claims of the present invention.

Claims (10)

1. A high-efficiency shaping hair curler comprises a heating pipe (3) and a handle connected with the heating pipe (3); it is characterized in that the preparation method is characterized in that,

a heating body (17), a heat insulation piece and a first air channel are arranged in the heating pipe (3), the heat insulation piece is used for separating the heating body (17) from the first air channel, and a first air outlet (31) used for enabling air flow to flow out is arranged on the side wall of the heating pipe (3);

an airflow suction assembly and a second air channel communicated with the first air channel are arranged in the handle, and the airflow suction assembly is used for providing power for airflow entering the second air channel.

2. The efficient styling iron according to claim 1, wherein the first air duct is a tubular structure (19) disposed inside the heating tube (3), a side of the tubular structure (19) facing the side wall of the heating tube (3) is provided with a second air outlet (193), and the second air outlet (193) is communicated with the first air outlet (31);

the air outlet direction of the second air outlet (193) and the heating body (17) are arranged in a staggered mode.

3. The efficient hair styling curler according to claim 2, wherein the heat insulation member is an anti-scald silicone cover (18) sleeved on the periphery of the first air duct, the anti-scald silicone cover (18) is provided with a third air outlet (181) corresponding to the second air outlet (193), one end of the third air outlet (181) is communicated with the second air outlet (193), and the other end of the third air outlet is communicated with the first air outlet (31);

and the air outlet direction of the third air outlet (181) and the heating body (17) are arranged in a staggered manner.

4. The high efficiency styling iron according to claim 3, wherein the heating element (17) comprises a first heating element (171) and a second heating element (172), and the first heating element (171) and the second heating element (172) are respectively disposed at the top and bottom inside the heating tube (3);

the first air duct comprises a first tubular structure (191) and a second tubular structure (192), the first tubular structure (191) and the second tubular structure (192) are respectively and oppositely arranged on the side wall in the heating pipe (3), and the tubular structures (19) and the heating body (17) are arranged in a staggered mode.

5. The efficient styling iron according to claim 4, wherein the side of the first tubular structure (191) facing the inside wall of the heating tube (3) and the side of the second tubular structure (192) facing the inside wall of the heating tube (3) are provided with a plurality of second air outlets (193), and the first air outlet (31) and the third air outlet (181) are provided in a one-to-one correspondence with the second air outlets (193).

6. A high efficiency styling iron according to any of claims 2-5, wherein the second air duct comprises a connection head (20), a rear end cap (8) and a fixed cover (22), the fixed cover (22) being located inside the handle, the rear end cap (8) connecting the heating tube (3) and the handle;

the air current inhales the subassembly and makes the air current get into fixed cover (22), the inlet end of rear end cap (8) with fixed cover (22) intercommunication, the end of giving vent to anger of rear end cap (8) is provided with a plurality of play tuber pipes, go out the tuber pipe with connector (20) one-to-one is connected, the other end of connector (20) with tubular structure (19) one-to-one is connected.

7. A high efficiency styling iron according to any of claims 2-5, wherein the heating tube (3) is provided with a front end cap (2) at the end remote from the handle, the front end cap (2) being adapted to close off the front end opening of the tubular structure (19) to allow air flow out of the second outlet opening (193) of the tubular structure (19).

8. A high efficiency styling iron according to claim 7, characterized in that the end of the front end cap (2) facing away from the heating tube (3) is provided with an anti-burn portion (1).

9. The high efficiency styling iron of claim 6 wherein the air flow intake assembly comprises a motor (23) and a fan (24) rotated by the motor (23), the motor (23) being located within the stationary housing (22) and the fan (24) being located at an outwardly facing end of the stationary housing (22).

10. A high efficiency styling iron according to any of claims 1-5, wherein the handle is provided with a temperature display light (25) for displaying information on the temperature of the heating tube (3).

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