KR101821810B1 - Refrigerator with ultra violet light emitting diode - Google Patents

Abstract

The refrigerator provided with the ultraviolet LED of the present invention comprises: a first wall surface and a third wall surface facing each other; A second wall surface and a fourth wall surface facing each other; A guide means having one side and the other side connected to a first wall surface and a second wall surface inside the refrigerator in which directions of the first and second surfaces cross each other; A slide member formed of a heat radiating material and slidable in the longitudinal direction on the upper surface of the guide means; A base portion disposed on the slide member; And an ultraviolet LED disposed on the base portion and emitting light to an inner space of the refrigerator; The slide member emits heat generated from the ultraviolet ray LED to the outside through surface contact, and the third wall surface and the fourth wall surface reflect light emitted from the ultraviolet ray LED.

Description

[0001] The present invention relates to a refrigerator having an ultra violet light emitting diode

An embodiment of the present invention relates to a refrigerator provided with an ultraviolet LED.

2. Description of the Related Art Generally, a refrigerator is a household appliance that can store food in an internal storage space shielded by a door at a low temperature. The refrigerator uses a cold air generated through heat exchange with a refrigerant circulating in a refrigeration cycle, So that the stored food can be stored in an optimal state.

As such, the refrigerator is in a trend of becoming larger and multifunctional as the dietary life changes and users' preferences become diverse, and various storage means such as drawers, shelves and baskets are provided in the storage space. Inside the refrigerator, there is provided illumination for illuminating the inside of the refrigerator when the door of the refrigerator is opened.

However, there is no means for effectively removing harmful substances and bacteria inside the refrigerator.

An embodiment of the present invention provides a refrigerator equipped with an ultraviolet LED for effectively removing harmful substances and germs from the inside of a refrigerator.

According to an embodiment of the present invention, there is provided a plasma display panel comprising: a first wall surface and a third wall surface facing each other; A second wall surface and a fourth wall surface facing each other; A guide means having one side and the other side connected to the first wall surface and the second wall surface inside the refrigerator in which directions of the first and second surfaces cross each other; A slide member formed of a heat radiating material and slidable in the longitudinal direction on an upper surface of the guide means; A base portion disposed on the slide member; And an ultraviolet LED disposed on the base to emit light into the inner space of the refrigerator, wherein the slide member emits heat generated from the ultraviolet LED through a surface contact to the outside, And the fourth wall surface reflect light emitted from the ultraviolet LED.

Another embodiment of the present invention is a display device comprising: a first wall surface and a third wall surface facing each other; A second wall surface and a fourth wall surface facing each other; A guide means having one side and the other side connected to the first wall surface and the second wall surface inside the refrigerator in which directions of the first and second surfaces cross each other; A moving member formed of a heat radiating material and capable of being moved stepwise in the longitudinal direction on the guide means; A base portion disposed on the moving member; And an ultraviolet LED disposed on the base to emit light to an inner space of the refrigerator, wherein the moving member emits heat generated from the ultraviolet LED to the outside through surface contact, And the fourth wall surface reflect light emitted from the ultraviolet LED.

According to the embodiment of the present invention, it is possible to effectively remove toxic substances and germs propagating in the refrigerator by using ultraviolet LED, so that the sanitary condition of the food or the like stored in the refrigerator can be cleaned.

In addition, according to the embodiment of the present invention, the heat generated in the ultraviolet LED can be emitted through the member having the base portion on which the ultraviolet LED is disposed, so that the heat radiation function can be smoothly performed.

FIG. 1 is an internal configuration diagram of a refrigerator provided with an ultraviolet LED according to the present invention.
2 is a perspective view showing the arrangement of guiding means in contact with the first wall surface and the second wall surface according to the present invention.
Fig. 3 is a perspective view showing an arrangement state in the case where the slide member of Fig. 2 is located at the first position; Fig.
Fig. 4 is a perspective view showing the arrangement of the slide member of Fig. 2 in a second position; Fig.
5 is an exploded perspective view of Figs. 3 and 4. Fig.
Fig. 6 is a view of Fig. 3 and Fig. 4 in the slide direction of the slide member. Fig.
7 is a plan view showing an arrangement state of the first wall surface, the second wall surface, the third wall surface, and the fourth wall surface according to the present invention.
8 is a perspective view showing the arrangement of guiding means in contact with the first wall surface and the second wall surface according to the present invention.
Fig. 9 is a perspective view showing an arrangement state when the moving member of Fig. 8 is located at the first position. Fig.
Fig. 10 is a perspective view showing the arrangement of the movable member of Fig. 8 in a second position; Fig.
11 is an exploded perspective view of Figs. 9 and 10. Fig.
Fig. 12 is a view of one side of the guide means of Fig. 9 from the outside.
Fig. 13 is a view of Fig. 9 and Fig. 10 in the moving direction of the moving member.
FIG. 14 is a block diagram of a refrigerator power control apparatus provided with an ultraviolet LED according to the present invention.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. However, the embodiments of the present invention may be modified into various other forms, and the scope of the present invention is not limited to the embodiments described below. The shape and the size of the elements in the drawings may be exaggerated for clarity and the same elements are denoted by the same reference numerals in the drawings.

In the description of the embodiment according to the present invention, in the case of being described as being formed "on or under" of each element, the upper (upper) or lower (lower) or under are all such that two elements are in direct contact with each other or one or more other elements are indirectly formed between the two elements. Also, when expressed as "on or under", it may include not only an upward direction but also a downward direction with respect to one element

FIG. 1 is an internal configuration diagram of a refrigerator provided with an ultraviolet LED according to the present invention. Referring to FIG. 1, the refrigerator is divided into upper and lower parts by a partition plate 240, and a freezer compartment and a refrigerating compartment are installed at upper and lower portions, respectively, and a machine room is installed at a lower rear portion of the refrigerating compartment. An evaporator 200 is installed on the rear side of the freezer compartment and a cool air supply fan 210 for supplying cold air to the freezer compartment and the refrigerating compartment is installed on the upper part of the evaporator 200. The evaporator 200 and the cold air supply fan 210 are isolated from each other by a louver 220 having a cool air discharge opening 230 formed therein. A compressor (100), a condenser, and a dryer are installed in the machine room.

The main cool air supply duct 270 is connected to the rear side of the evaporator 200 to communicate with the freezing chamber to supply cool air. The partition plate 240 is formed with return ducts 250a and 250b for returning air in the freezer compartment and the refrigerating compartment to the evaporator 200. In the upper and lower portions of the partition plate 240, Cooling air inlets 260a and 260b which are sucked into the air suction ports 250a and 250b are formed.

In addition, a base portion (e.g., PCB) having an ultraviolet LED mounted thereon is disposed at a portion A between the first member (not visible) and the second member 300b of the refrigerator to emit light into the internal space of the refrigerator . Thus, it is possible to effectively remove the harmful substances and germs propagating in the refrigerator, thereby sanitizing the food or the like stored in the refrigerator can be cleaned. The arrangement of the ultraviolet LED inside the refrigerator will be described in detail with reference to FIG.

Hereinafter, the cold air circulation state of the refrigerator provided with the ultraviolet LED having such a structure will be described. When the cool air supply fan 210 rotates, the cool air supply fan 210 sucks the cool air to supply the cool air to the freezing chamber and the freezing chamber.

The cool air supplied to the freezing chamber by the cool air supply fan 210 is supplied into the cavity through the cool air discharge port 230 of the louver 220 and is supplied to the cool air inlet 260a formed at the distal end of the partition plate 240 And the return duct 250a.

The cold air supplied to the refrigerating chamber by the cold air supply fan 210 is supplied to the refrigerating chamber through the main cooling air supply duct 270 of the evaporator 200 and is supplied to the side ducts 280 and the side ducts 280 of the refrigerating chamber And is supplied to each portion in the hearth through the formed cold air discharge port 290. The refrigerant that has been cooled in the furnace and is cooled in the furnace is recovered to the evaporator 200 through the inlet port 260b and the return duct 250b of the partition plate 240 and is returned to the evaporator 200 in the freezer compartment and the refrigerating compartment. The refrigerant is supplied to the refrigerating compartment and the freezing compartment of the freezing compartment by the cooler supply fan 210 after being brought into contact with the evaporator 200 to be cooled.

The circulation state of the cold air of the refrigerator as described above is summarized as follows. The return ducts 250a and 250b of the freezing compartment and the refrigerating compartment include cold air inlets 260a and 260b at one end and return air in the freezing compartment and the refrigerating compartment through the cold air inlets 260a and 260b to the evaporator 200. [ The evaporator 200 cools the contacted air. The cool air supply fan 210 sucks the air cooled by the evaporator 200 by the rotation operation and supplies the cooled air to the freezer compartment 200 through the cool air discharge openings 230 and 290 provided in the freezer compartment and the refrigerating compartment. And the refrigerator.

FIG. 2 is a perspective view showing the arrangement of guiding means in contact with the first wall surface and the second wall surface according to the present invention, FIG. 3 is a perspective view showing the arrangement state of the slide member of FIG. 2 in the first position, Fig. 4 is a perspective view showing the arrangement of the slide member of Fig. 2 in the second position, Fig. 5 is an exploded perspective view of Figs. 3 and 4, 7 is a plan view showing the arrangement of the first wall surface, the second wall surface, the third wall surface, and the fourth wall surface according to the present invention. 2 to 7, a refrigerator having an ultraviolet LED includes a first member 300a, a second member 300b, a third member 300c, a fourth member 300d, a guide means 400, A slide member 500, a base 600, an ultraviolet LED 700, a first fixing member 800a, a second fixing member 800b, and a power source control device.

The wall surface of the refrigerator is composed of a first member 300a, a second member 300b, a third member 300c and a fourth member 300d. The first member 300a, the second member 300b, The third member 300c and the fourth member 300d are coated with a metal material having a reflection characteristic. The metal material of the first member 300a, the second member 300b, the third member 300c and the fourth member 300d may be made of the same material. In this case, the first member 300a, the second member 300b, The third member 300c, and the fourth member 300d are equal to each other, the light emitted from the ultraviolet LED 700 can be uniformly reflected inside the refrigerator. At least one of the first member 300a, the second member 300b, the third member 300c, and the fourth member 300d may be made of aluminum, 100%, it is possible to maximize the reflectance effect.

The direction in which one surface of the second member 300b is perpendicular to the direction in which one surface of the first member 300a is oriented and the direction in which one surface of the third member 300c is oriented is the second The direction in which one surface of the fourth member 300d is perpendicular to the direction in which one surface of the first member 300a and the third member 300c are oriented.

One side and the other side of the guide means 400 are connected to the first member 300a and the second member 300b inside the refrigerator in which the directions of the surfaces thereof cross each other. The guide means 400 includes a guide member 410 disposed at a lower portion of the guide means 400 and a pair of guide members 410 arranged in the longitudinal direction of one side and the other side of the upper surface of the guide member 410, And a pair of elastic members 430a and 430b disposed between the pair of guide members 420a and 420b to apply an elastic force to slide the slide member 500. [ One side and the other side of the guide means 400 are arranged symmetrically with respect to a reference plane dividing the first member 300a and the second member 300b.

The slide member 500 is formed of a heat radiation material and is slid in the longitudinal direction on the upper surface of the guide means 400. [ At this time, the slide member 500 is slid along the longitudinal direction of the tangent line where the first member 300a and the second member 300b abut each other. The slide member 500 is formed with guide rails 500a and 500b bent in a " C "form symmetrically formed on one side and the other side. The guide rails 500a and 500b extend from the upper surface of the guide member 410 Lt; / RTI >

The slide member 500 having such a structure emits heat generated from the ultraviolet LED 700 through the surface contact. The slide member 500 may be formed of a carbon nanotube (CNT) composite material because it is formed of a heat dissipation material. A carbon nanotube is a kind of carbon isotope consisting of a carbon, a tube in which one carbon is connected to another carbon atom in a hexagonal honeycomb shape, and the diameter of the tube is about 1 to 100 nm. The carbon nanotubes can be used for the heat radiation material of the ultraviolet LED 700 because of the high thermal property, the electric conductivity and the high strength property.

The base portion 600 is disposed on the slide member 500. A heat radiation sheet may be additionally provided between the base portion 600 and the slide member 500.

The ultraviolet LED 700 is disposed on the base 600 to emit light into the internal space of the refrigerator. In this way, the ultraviolet LED 700 can directly irradiate light to the first member 300a, the second member 300b, the third member 300c, and the fourth member 300d. The ultraviolet LED 700 is disposed between the first member 300a and the second member 300b so that the light emitted from the ultraviolet LED 700 reaches the first member 300a and the second member 300b Is shorter than the time required for reaching the third member 300c and the fourth member 300d.

Before and after the slide member 500 is slid, the ultraviolet LED 700 has a structure in which the direction in which the first member 300a and the second member 300b are oriented is perpendicular to the direction in which one side of the second member 300b is oriented The third member 300c irradiates light at different positions of the fourth member 300d perpendicular to the direction in which the one surface faces the first member 300a and the third member 300c.

The first fixing member 800a is in contact with the one side lower surface of the guide means 400 and the first member 300a and fixes the guide means 400 to the first member. The second fixing member 800b contacts the other side lower surface of the guide means 400 and the second member 300b and fixes the guide means 400 to the second member 300b. The first fixing member 800a and the second fixing member 800b are disposed symmetrically with respect to a reference plane that divides the first member 300a and the second member 300b. The first fixing member 800a fixes the guiding means 400 to the first member 300a by a hardened adhesive agent on the one side lower surface of the guide means 400 and the first member 300a, The second fixing member 800b fixes the guiding means 400 to the second member 300b by a cured adhesive on the lower surface of the guide means 400 and the second member 300b. At this time, an epoxy resin is used as an adhesive, and the epoxy resin shows a strong adhesive strength as a synthetic high molecular weight adhesive.

The power control device (not shown) may be turned off when the first set time elapses after the UV LED 700 is turned on, and turned on when the second set time elapses after the UV LED 700 is turned on. The power supply control device will be described in detail with reference to FIG.

FIG. 8 is a perspective view showing the arrangement of guiding means in contact with the first wall surface and the second wall surface according to the present invention, FIG. 9 is a perspective view showing the arrangement of the moving member in the first position, Fig. 10 is a perspective view showing the arrangement of the movable member of Fig. 8 in the second position, Fig. 11 is an exploded perspective view of Figs. 9 and 10, And Fig. 13 is a view of Fig. 12 in a moving direction of the moving member. 7 to 13, a refrigerator having ultraviolet LEDs includes a first member 300a, a second member 300b, a third member 300c, a fourth member 300d, a guide means 400 ' A moving member 500 ', a base 600, an ultraviolet LED 700, a first fixing member 800a, a second fixing member 800b, and a power source control device.

The wall surface of the refrigerator is composed of a first member 300a, a second member 300b, a third member 300c and a fourth member 300d. The first member 300a, the second member 300b, The third member 300c and the fourth member 300d are coated with a metal material having a reflection characteristic. The metal material of the first member 300a, the second member 300b, the third member 300c and the fourth member 300d may be made of the same material. In this case, the first member 300a, the second member 300b, The third member 300c, and the fourth member 300d are equal to each other, the light emitted from the ultraviolet LED 700 can be uniformly reflected inside the refrigerator. At least one of the first member 300a, the second member 300b, the third member 300c, and the fourth member 300d may be made of aluminum, 100%, it is possible to maximize the reflectance effect.

The direction in which one surface of the second member 300b is perpendicular to the direction in which one surface of the first member 300a is oriented and the direction in which one surface of the third member 300c is oriented is the second The direction in which one surface of the fourth member 300d is perpendicular to the direction in which one surface of the first member 300a and the third member 300c are oriented.

The guide means 400 'is in contact with the first member 300a and the second member 300b inside the refrigerator, the direction of which faces one side is perpendicular to the other, with one side and the other side. The guide means 400'is arranged in the longitudinal direction of one side and the other side in the upper surface of the guide member 410'and the guide member 410'disposed below the guide means 400'and the guide grooves 420a ' And a pair of guide members 420 'forming a plurality of engagement grooves 420b' extending in the guide grooves 420a 'so that the moving member 500' can move step by step. One side and the other side of the guide means 400 'are symmetrically arranged with respect to a reference plane dividing the first member 300a and the second member 300b.

The moving member 500 'is formed of a heat-radiating material and is movable stepwise in the longitudinal direction on the guide means 400'. At this time, the moving member 500 'moves along the longitudinal direction of the tangent line where the first member 300a and the second member 300b contact with each other. The shifting member 500 'includes a bent portion 500a' bent in a "" shape formed symmetrically with respect to one side and the other side, and a bent portion 500b ' And a protrusion 500b 'for forming a plurality of protrusions on the side surface. That is, it is easy to see that it is cut in the one-dot chain line in FIG. 12 and becomes the same as FIG. 13 in the AA direction. The bent portions 500a 'and the protrusions 500b' are formed symmetrically with each other, and the protrusions formed on the protrusions 500b 'are engaged with the plurality of the engagement grooves 420b' one by one. At this time, since the plurality of projections and the plurality of engagement grooves 420b 'are formed at equal intervals, the moving member 500' can be moved step by step.

The moving member 500 'having such a structure emits heat generated from the ultraviolet LED 700 through the surface contact to the outside. The moving member 500 'may be formed of a carbon nanotube (CNT) composite material because it is formed of a heat dissipation material. A carbon nanotube is a kind of carbon isotope consisting of a carbon, a tube in which one carbon is connected to another carbon atom in a hexagonal honeycomb shape, and the diameter of the tube is about 1 to 100 nm. The carbon nanotubes can be used for the heat radiation material of the ultraviolet LED 700 because of the high thermal property, the electric conductivity and the high strength property.

The base portion 600 is disposed on the moving member 500 '. A heat radiation sheet may further be provided between the base unit 600 and the moving member 500 '.

The ultraviolet LED 700 is disposed on the base 600 to emit light into the internal space of the refrigerator. In this way, the ultraviolet LED 700 can directly irradiate light to the first member 300a, the second member 300b, the third member 300c, and the fourth member 300d. The ultraviolet LED 700 is disposed between the first member 300a and the second member 300b so that the light emitted from the ultraviolet LED 700 reaches the first member 300a and the second member 300b Is shorter than the time required for reaching the third member 300c and the fourth member 300d.

Before and after the shifting member 500 'is moved, the ultraviolet LED 700 has a first member 300a, a second member 300b, a direction in which one surface faces is perpendicular to a direction in which one surface of the second member 300b faces, The third member 300c and the fourth member 300d perpendicular to the direction in which the one surface faces the first member 300a and the third member 300c.

The first fixing member 800a is in contact with the one side lower surface of the guide means 400'and the first member 300a and fixes the guide means 400'to the first member 300a. The second fixing member 800b contacts the lower surface of the other side of the guide unit 400'and the second member 300b and fixes the guide unit 400'to the second member 300b. The first fixing member 800a and the second fixing member 800b are disposed symmetrically with respect to a reference plane that divides the first member 300a and the second member 300b. The first fixing member 800a fixes the guiding means 400'to the first member 300a by a cured adhesive on the lower surface of one side of the guiding means 400'and the first member 300a , The second fixing member 800b is fixed to the second member 300b by the cured adhesive on a portion of the guide member 400'attached to the other side lower surface and the second member 300b do. At this time, an epoxy resin is used as an adhesive, and the epoxy resin shows a strong adhesive strength as a synthetic high molecular weight adhesive.

The power control device (not shown) may be turned off when the first set time elapses after the UV LED 700 is turned on, and turned on when the second set time elapses after the UV LED 700 is turned on. The power supply control device will be described in detail with reference to FIG.

FIG. 14 is a block diagram of an air conditioner power supply control apparatus provided with an ultraviolet LED according to the present invention. Referring to FIG. 14, the power control apparatus 900 includes a time counting unit 910 and an operation control unit 920. FIG. 14 will be described with reference to FIGS. 2 to 13. FIG.

With respect to the operation of the ultraviolet LED 700 of FIGS. 2 to 13, the ultraviolet LED 700 can be always turned on to remove harmful substances and bacteria that propagate inside the refrigerator. However, The ultraviolet LED 700 may be turned ON only for a predetermined period of time.

That is, the operation may be repeated when the first set time elapses after the ultraviolet LED 700 is turned on, and turned on when the second set time elapses after the ultraviolet LED 700 is turned on. For example, it is possible to repeat the operation of turning off when the ultraviolet LED 700 is turned on for 30 minutes, and turning on for 1 hour after turning off the ultraviolet LED 700. As described above, the ON / OFF control of the ultraviolet LED 700 can be variously set without being limited to the time setting.

A power supply control device 900 may be additionally provided in the base unit 600 to control the ON and OFF operations of the ultraviolet LED 700. In this case, 900 may be connected to each other through the base unit 600. The power supply control device 900 includes a time counting unit 910 and an operation control unit 920.

When the counted time does not correspond to the set time, the time counting unit 910 does not generate the operation control signal, and counts the time corresponding to the set time Only the operation control signal is generated and transmitted to the operation control unit 920. That is, when the counted time corresponds to the set time, the time counting unit 910 continuously generates an operation control signal and transmits the operation control signal to the operation control unit 920. If the counted time does not correspond to the set time The operation control signal is not generated.

The operation control unit 920 receives the operation control signal from the time count unit and operates the ultraviolet LED 700 when the counted time corresponds to the set time. That is, when the counted time corresponds to the set time, the operation control unit 920 continuously receives the operation control signal from the time counting unit 910, operates the ultraviolet LED 700, and displays the counted time The operation control signal is not received from the time counting unit 910 and the ultraviolet LED 700 can not be operated.

The present invention is not limited to the above-described embodiments and the accompanying drawings. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims, .

100: compressor 200: evaporator
210: cold air supply fan 220: louver
230, 290: cold air outlet 240:
250a, 250b: return ducts 260a, 260b: cold air inlet
270: cold air supply duct 280: side duct
300a: first member 300b: second member 300c: third member 300d: fourth member
400, 400 ': guide means 410, 410': guide member
420 ', 420a, 420b: Guide member 420a': Guide groove
The first fixing member 800b and the second fixing member 800b are fixed to each other by a fixing member 800a and a fixing member 800b. : Second fixing member 900: power supply control device 910: time counting unit 920:

Claims (6)

A first wall surface and a third wall surface facing each other;
A second wall surface and a fourth wall surface facing each other;
A guide means having one side and the other side connected to the first wall surface and the second wall surface inside the refrigerator in which directions of the first and second surfaces cross each other;
A slide member formed of a heat radiating material and slidable in the longitudinal direction on an upper surface of the guide means;
A base portion disposed on the slide member;
An ultraviolet LED disposed on the base and emitting light to an inner space of the refrigerator;
A first fixing member contacting the one side lower surface of the guide means and the first wall surface and fixing the guide means to the first wall surface; And
And a second fixing member contacting the other side lower surface of the guide means and the second wall surface and fixing the guide means to the second wall surface,
The slide member emits heat generated from the ultraviolet LED to the outside through surface contact,
Wherein the third wall surface and the fourth wall surface are provided with an ultraviolet ray LED that reflects the light emitted from the ultraviolet ray LED. The method according to claim 1,
The guide means
A guide member disposed at a lower portion of the guide means,
A pair of guide members arranged on the upper surface of the guide member in the longitudinal direction of one side and the other side and forming guide grooves outwardly,
And a pair of elastic members disposed between the pair of guide members to apply an elastic force to slide the slide member. 3. The method of claim 2,
Wherein the slide member includes a guide rail bent in a " C "shape formed symmetrically with respect to one side and the other side of the slide member,
Wherein the slide member is provided with an ultraviolet ray LED which is slid in a longitudinal direction on an upper surface of the guide member when the guide rail is inserted into the guide groove. A first wall surface and a third wall surface facing each other;
A second wall surface and a fourth wall surface facing each other;
A guide means having one side and the other side connected to the first wall surface and the second wall surface inside the refrigerator in which directions of the first and second surfaces cross each other;
A moving member formed of a heat radiating material and capable of being moved stepwise in the longitudinal direction on the guide means;
A base portion disposed on the moving member;
An ultraviolet LED disposed on the base and emitting light to an inner space of the refrigerator;
A first fixing member contacting the one side lower surface of the guide means and the first wall surface and fixing the guide means to the first wall surface; And
A second fixing member contacting the other side lower surface of the guide means and the second wall surface and fixing the guide means to the second wall surface;
Wherein the moving member emits heat generated from the ultraviolet LED through a surface contact,
Wherein the third wall surface and the fourth wall surface are provided with an ultraviolet ray LED that reflects the light emitted from the ultraviolet ray LED. 5. The method of claim 4,
The guide means
A guide member disposed at a lower portion of the guide means, and
A pair of guide members arranged in the longitudinal direction of one side and the other side of the upper surface of the guide member and forming guide grooves outwardly and forming a plurality of engaging grooves extending in the guide grooves so that the moving member can move stepwise And an ultraviolet LED. 6. The method of claim 5,
The moving member
A bent part bent in a "? &Quot; shape formed symmetrically with one side and the other side of the moving member;
And a protrusion formed on an inner surface of the bent portion so as to be engaged with the latching groove.

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