阅读说明：本技术 一种过热自保护型美黑仪 (Overheating self-protection type blackening instrument ) 是由 邓艳琼 于 2020-12-18 设计创作，主要内容包括：本发明公开了一种过热自保护型美黑仪,包括壳体,所述壳体内壁固定连接有灯管,所述壳体内壁下方开设有储液腔,所述壳体内壁开设有圆形腔,所述圆形腔内壁通过转轴转动连接有风杯,所述圆形腔内底部进气管,所述圆形腔内顶部通过单向出气管与储液腔内顶部连接,所述壳体内嵌设有冷凝管,所述壳体内壁上方开设有冷却腔,所述冷凝管一端与冷却腔内壁连接。本发明通过蒸发液对灯管处产生的热量进行吸收,对灯管对的降温效果好,并且蒸发后的气态蒸发液进入单向出气管内后在冷却腔的作用下使得气态蒸发液液化后再次进入储液腔内,对储液腔内的蒸发液进行补充,通过蒸发液内热量的转化可以长时间的对灯管处进行降温处理。(The invention discloses an overheating self-protection type blackening instrument which comprises a shell, wherein a lamp tube is fixedly connected to the inner wall of the shell, a liquid storage cavity is formed below the inner wall of the shell, a circular cavity is formed in the inner wall of the shell, an air cup is rotatably connected to the inner wall of the circular cavity through a rotating shaft, an air inlet pipe is arranged at the bottom of the circular cavity, the top of the circular cavity is connected with the top of the liquid storage cavity through a one-way air outlet pipe, a condensing pipe is embedded in the shell, a cooling cavity is formed above the inner wall of the shell, and one end of the condensing pipe is connected with the. The lamp tube cooling device absorbs heat generated at the lamp tube through the evaporating liquid, has a good cooling effect on the lamp tube, liquefies the gaseous evaporating liquid under the action of the cooling cavity after the evaporated gaseous evaporating liquid enters the one-way air outlet tube, and then enters the liquid storage cavity again to supplement the evaporating liquid in the liquid storage cavity, so that the lamp tube can be cooled for a long time through the conversion of the heat in the evaporating liquid.)

1. The utility model provides an overheated self-protection type black beauty instrument, includes casing (1), casing (1) inner wall fixedly connected with fluorescent tube (2), its characterized in that, stock solution chamber (3) have been seted up to casing (1) inner wall below, casing (1) inner wall has seted up circular chamber (4), circular chamber (4) inner wall rotates through the pivot and is connected with air cup (5), bottom intake pipe (6) in circular chamber (4), circular chamber (4) interior top is connected with stock solution chamber (3) interior top through one-way outlet duct (7), casing (1) embedded condenser pipe (9) that is equipped with, casing (1) inner wall top has seted up cooling chamber (8), condenser pipe (9) one end and cooling chamber (8) inner wall connection, seted up strip chamber (10) in casing (1), install the pump liquid mechanism to condenser pipe (9) inner loop pump liquid in strip chamber (10), casing (1) inner wall fixedly connected with control box (16), bottom fixedly connected with condenser (17) in control box (16), top has electricity connection board (19) through conductive spring (18) elastic connection in control box (16), electricity connection post (20) of bottom fixedly connected with and electricity connection board (19) lower extreme contact in control box (16).

2. The overheating self-protection type tanning instrument according to claim 1, wherein the liquid pumping mechanism comprises a magnetic sliding plug (11) which is symmetrically and slidably connected to the inner wall of the bar-shaped cavity (10), the side wall of the magnetic sliding plug (11) is elastically connected with the inner wall of the bar-shaped cavity (10) through a telescopic spring (12), one end of a rotating shaft penetrates through the inner wall of the shell (1) and extends into the bar-shaped cavity (10), the rotating shaft is located on the inner side wall of the bar-shaped cavity (10) and is symmetrically and fixedly connected with a magnetic plate (13) which is repellent to the magnetic sliding plug (11), the inner wall of the bar-shaped cavity (10) is connected with the inner wall of the cooling cavity (8) through a one-way liquid suction pipe (14), and the inner wall of the bar-shaped cavity (10) is connected with the other end of the condensing pipe.

3. The overheating self-protection type tanning instrument according to claim 2, wherein a spiral coil (21) is embedded in the inner wall of the strip-shaped cavity (10), the spiral coil (21) is coupled with a capacitor (17), the capacitor (17) is coupled with a conductive spring (18), one of the electric connecting columns (20) is coupled with one end of the lamp tube (2), and the other electric connecting column (20) is coupled with an external power supply.

4. The overheating self-protection type tanning instrument as claimed in claim 1, wherein an evaporated liquid is disposed in the liquid storage cavity (3), a cooling liquid is disposed in the cooling cavity (8), the one-way air outlet pipe (7) is disposed through an inner wall of the cooling cavity (8), and a portion of the one-way air outlet pipe (7) located in the cooling cavity (8) is disposed obliquely.

5. An overheated self-protecting type tanning instrument as claimed in claim 1, wherein an elastic membrane (22) is fixedly connected to the inner wall of said cooling chamber (8).

Technical Field

The invention relates to the technical field of beauty equipment, in particular to an overheating self-protection type blackening instrument.

Background

With the development of times, people understand fashionable more and more, white is not the only embodiment of beauty, bronze skin or wheat skin with a healthy sense is the embodiment of fashion trend, and at present, the black can be beautified through a black beautifying device besides the sun-drying process.

The tanning instrument is used as a lighter device in tanning, and is mainly used for tanning through ultraviolet light emitted by an ultraviolet lamp, and the skin can be chapped and cracked under the irradiation of the ultraviolet light for a long time, so that the tanning instrument is not easy to use for a long time.

Based on the above, the invention provides an overheating self-protection type blackening instrument.

Disclosure of Invention

The invention aims to solve the defects in the prior art and provides an overheating self-protection type tanning instrument.

In order to achieve the purpose, the invention adopts the following technical scheme:

an overheating self-protection type blackening instrument comprises a shell, wherein the inner wall of the shell is fixedly connected with a lamp tube, a liquid storage cavity is arranged below the inner wall of the shell, a circular cavity is arranged on the inner wall of the shell, the inner wall of the circular cavity is rotatably connected with a wind cup through a rotating shaft, the air inlet pipe is arranged at the bottom in the circular cavity, the top in the circular cavity is connected with the top in the liquid storage cavity through the one-way air outlet pipe, a condenser pipe is embedded in the shell, a cooling cavity is arranged above the inner wall of the shell, one end of the condenser pipe is connected with the inner wall of the cooling cavity, a strip-shaped cavity is arranged in the shell, a liquid pumping mechanism for pumping liquid circularly in the condensation pipe is arranged in the strip-shaped cavity, the inner wall of the shell is fixedly connected with a control box, the inner bottom of the control box is fixedly connected with a capacitor, the top in the control box is elastically connected with an electricity connecting plate through a conductive spring, and the bottom in the control box is fixedly connected with an electricity connecting column which is in contact with the lower end of the electricity connecting plate.

Preferably, pump liquid mechanism includes the magnetism sliding plug of symmetry sealing sliding connection at bar intracavity wall, the magnetism sliding plug lateral wall passes through expanding spring and bar intracavity wall elastic connection, pivot one end runs through shells inner wall and extends to the bar intracavity, the pivot is located bar intracavity lateral wall symmetry fixedly connected with and the magnetism board that the magnetism sliding plug is repulsive mutually, bar intracavity wall passes through one-way pipette and cooling chamber inner wall connection, bar intracavity wall is connected with the condenser pipe other end through one-way drain pipe.

Preferably, the inner wall of the bar-shaped cavity is embedded with a spiral coil, the spiral coil is coupled with a capacitor, the capacitor is coupled with a conductive spring, one of the electric connecting posts is coupled with one end of the lamp tube, and the other electric connecting post is coupled with an external power supply.

Preferably, an evaporation liquid is arranged in the liquid storage cavity, a cooling liquid is arranged in the cooling cavity, the one-way air outlet pipe penetrates through the inner wall of the cooling cavity, and the part, located in the cooling cavity, of the one-way air outlet pipe is obliquely arranged.

Preferably, the inner wall of the cooling cavity is fixedly connected with an elastic membrane.

The invention has the following beneficial effects:

1. by arranging the liquid storage cavity, the air inlet pipe, the cooling cavity and the one-way air outlet pipe, the evaporated liquid in the liquid storage cavity absorbs the heat generated by the lamp tube, the cooling effect on the lamp tube pair is good, the evaporated gaseous evaporated liquid enters the one-way air outlet pipe through the air inlet pipe, the gaseous evaporated liquid is liquefied under the action of the cooling cavity and then enters the liquid storage cavity again, the evaporated liquid in the liquid storage cavity is supplemented, and therefore, the lamp tube can be cooled for a long time through the conversion of the heat in the evaporated liquid;

2. by arranging the circular cavity, the air cup, the condensation pipe and the liquid pumping mechanism, when gaseous evaporation liquid enters the circular cavity through the air inlet pipe, the air cup is driven to rotate, so that the two magnetic plates are driven to rotate, the two magnetic plates are opposite to the two magnetic sliding plugs in an intermittent manner, the two magnetic sliding plugs slide up and down in a reciprocating manner on the inner wall of the strip-shaped cavity under the action of magnetic repulsion force of the magnetic plates and elastic force of the expansion spring, and then cooling liquid in the cooling cavity is intermittently pumped into the condensation pipe, so that the cooling liquid circularly flows in the condensation pipe, and the absorption of heat at the lamp tube is further accelerated;

3. when the magnetic sliding plug slides up and down in a reciprocating manner, the magnetic induction wire is cut on the spiral coil and induced current is generated, so that the capacitor is charged and electric energy is stored, heat energy generated by the lamp tube is converted into electric energy to be stored, energy recycling is realized, energy waste is avoided, and energy is saved;

4. when the heat of the lamp tube is very high, so that the temperature in the cooling liquid is higher, at the moment, the gaseous evaporating liquid is not liquefied, and then the evaporating liquid in the liquid storage cavity is completely vaporized, the pressure in the liquid storage cavity and the pressure in the circular cavity are unchanged, and then the wind cup does not rotate any more, so that the magnetic plate and the magnetic sliding plug are kept static, and further induction current is not generated on the spiral coil, and further the spiral coil does not supply power to the capacitor, so that the capacitor is equivalent to a power supply for supplying power to the conducting spring, and further the conducting spring contracts to separate the conducting plate from the power connection column, so that the circuit at the lamp tube is disconnected, the high-load work of the lamp tube is avoided, the ultraviolet rays emitted by the lamp tube are harmful to.

Drawings

Fig. 1 is a schematic structural diagram of an overheating self-protection type tanning instrument provided by the invention;

fig. 2 is an enlarged schematic view of the structure at a in fig. 1.

In the figure: the device comprises a shell 1, a lamp tube 2, a liquid storage cavity 3, a circular cavity 4, an air cup 5, an air inlet pipe 6, a one-way air outlet pipe 7, a cooling cavity 8, a condenser pipe 9, a strip-shaped cavity 10, a magnetic sliding plug 11, a telescopic spring 12, a magnetic plate 13, a one-way liquid suction pipe 14, a one-way liquid outlet pipe 15, a control box 16, a capacitor 17, a conductive spring 18, a power connection plate 19, a power connection post 20, a spiral coil 21 and an elastic membrane 22.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein, but rather should be construed as broadly as the present invention is capable of modification in various respects, all without departing from the spirit and scope of the present invention.

Referring to fig. 1-2, an overheated self-protection type black and white instrument comprises a shell 1, a lamp tube 2 is fixedly connected to the inner wall of the shell 1, a liquid storage cavity 3 is formed below the inner wall of the shell 1, a circular cavity 4 is formed in the inner wall of the shell 1, an air cup 5 is rotatably connected to the inner wall of the circular cavity 4 through a rotating shaft, a bottom air inlet tube 6 is arranged in the circular cavity 4, the top of the circular cavity 4 is connected with the top of the liquid storage cavity 3 through a one-way air outlet tube 7, and it needs to be explained that the one-way air outlet tube 7 only allows gaseous evaporation liquid to enter the.

The embedded condenser pipe 9 that is equipped with of casing 1, cooling chamber 8 has been seted up to 1 inner wall top of casing, 9 one end of condenser pipe and 8 interior wall connections in cooling chamber, bar chamber 10 has been seted up in casing 1, install the pump liquid mechanism to condenser pipe 9 inner loop pump liquid in the bar chamber 10, 1 inner wall fixedly connected with control box 16 of casing, bottom fixedly connected with condenser 17 in the control box 16, top has electricity connection board 19 through 18 elastic connection of conducting spring in the control box 16, bottom fixedly connected with and the electricity connection post 20 who connects the contact of electricity board 19 lower extreme in the control box 16.

The liquid pumping mechanism comprises a magnetic sliding plug 11 which is symmetrically connected to the inner wall of a strip-shaped cavity 10 in a sealing mode, the side wall of the magnetic sliding plug 11 is elastically connected with the inner wall of the strip-shaped cavity 10 through an expansion spring 12, it needs to be explained that a through hole communicated with the outside is formed in the inner wall, close to the expansion spring 12, of the strip-shaped cavity 10, the through hole is used for balancing pressure change in the strip-shaped cavity 10 when the magnetic sliding plug 11 slides, one end of a rotating shaft penetrates through the inner wall of the shell 1 and extends into the strip-shaped cavity 10, the rotating shaft is located on a magnetic plate 13 which is symmetrically and fixedly connected to the inner wall of the strip-shaped cavity 10 and is repellent to the magnetic sliding plug 11, the inner wall of the strip-shaped cavity 10 is connected.

It should be noted that the one-way pipette 14 only allows the coolant to enter the bar-shaped cavity 10 from the cooling cavity 8, and the one-way drain 15 only allows the coolant to enter the condenser tube 9 from the bar-shaped cavity 10.

The inner wall of the bar-shaped cavity 10 is embedded with a spiral coil 21, the spiral coil 21 is coupled with a capacitor 17, the capacitor 17 is coupled with a conductive spring 18, one of the electric poles 20 is coupled with one end of the lamp tube 2, and the other electric pole 20 is coupled with an external power supply.

Stock solution intracavity 3 is equipped with the evaporating liquid, and is further, the ether solution that the boiling point is 34.6 ℃ is selected for use to the evaporating liquid to stock solution intracavity 3, intake pipe 6, the equal sealing connection of junction between circular chamber 4 and the one-way outlet duct 7, ether solution can not liberate when normal use, is equipped with the coolant liquid in the cooling chamber 8, and one-way outlet duct 7 runs through the setting of 8 inner walls in cooling chamber, and the part that one-way outlet duct 7 is located cooling chamber 8 is the slope setting.

The inner wall of the cooling cavity 8 is fixedly connected with an elastic membrane 22 for balancing the pressure change in the cooling cavity 8 when the cooling liquid flows in the condensation pipe 9 and the strip-shaped cavity 10.

In the invention, when the lamp tube 2 is illuminated, the evaporating liquid in the liquid storage cavity 3 absorbs heat generated at the lamp tube 2, the lamp tube 2 is preliminarily cooled, the evaporating liquid is vaporized after the evaporating liquid absorbs heat, meanwhile, the gaseous evaporating liquid enters the one-way air outlet pipe 7 through the air inlet pipe 6 and the circular cavity 4, the gaseous evaporating liquid is liquefied under the action of the cooling cavity 8 and then enters the liquid storage cavity 3 again, the evaporating liquid in the liquid storage cavity 3 is supplemented, and further, the lamp tube 2 can be cooled for a long time;

gaseous evaporated liquid enters the circular cavity 4 to enable the funnel 5 to rotate under the action of impulsive force of the gaseous evaporated liquid, so that the two magnetic plates 13 fixedly connected with the side wall of the rotating shaft rotate, the two magnetic plates 13 intermittently rotate to be perpendicular to the two magnetic sliding plugs 11, when the two magnetic plates 13 rotate to be perpendicular to the two magnetic sliding plugs 11, the space in the strip-shaped cavity 10 is increased, then the cooling liquid is absorbed from the cooling cavity 8 through the one-way pipette 14, when the two magnetic plates 13 rotate to be horizontal to the two magnetic sliding plugs 11, the space in the strip-shaped cavity 10 is reduced, then the cooling liquid in the strip-shaped cavity 10 is extruded into the condenser pipe 9 through the one-way liquid outlet pipe 15, and when the two magnetic plates 13 intermittently rotate to be perpendicular to the two magnetic sliding plugs 11, the magnetic sliding plugs 11 slide up and down on the inner wall of the strip-shaped cavity 10 in a reciprocating manner, so that the space in the strip-shaped cavity 10 is small, then, the cooling liquid in the cooling cavity 8 is intermittently pumped into the condensing tube 9, so that the cooling liquid circularly flows in the condensing tube 9, and the absorption of heat at the lamp tube 2 is accelerated;

when the magnetic sliding plug 11 slides up and down on the inner wall of the strip-shaped cavity 10, the spiral coil 21 cuts the magnetic induction lines and generates induction current, and further charges the capacitor 17 and stores electric energy, when the temperature of the lamp tube 2 is higher and higher along with the long-time use of the lamp tube 2, the temperature in the cooling liquid is higher at the moment, and further the gaseous evaporating liquid in the one-way air outlet tube 7 is not cooled and liquefied, so that the evaporating liquid in the liquid storage cavity 3 is completely in the form of the gaseous evaporating liquid, the pressure in the liquid storage cavity 3 and the circular cavity 4 is kept balanced, further the air cup 5 is not rotated, so that the magnetic sliding plug 11 does not slide up and down, further the spiral coil 21 does not supply power to the capacitor 17, the capacitor 17 is equivalent to the power supply to the conducting spring 18, further the conducting spring 18 contracts to separate the conducting plate 19 from the connecting post 20, and further the circuit at, avoiding high load operation of the lamp 2.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.