KR102501206B1 - Ultraviolet light irradiation device - Google Patents

Abstract

Embodiments include a first housing including an upper surface portion and a pair of first side portions facing each other with the upper surface portion interposed therebetween; a pair of second housings respectively coupled to the pair of first side surfaces; and a light source module disposed on an upper surface of the first housing and including an ultraviolet light emitting device, wherein the pair of first side parts include a first fastening hole, and each of the second housings includes a first fastening hole. A second side portion connected to the side portion, and a first bent portion bent from the second side portion and extending toward between the first side portions, wherein the second side portion is disposed at a position overlapping the first fastening hole. It includes 2 fastening holes, the second fastening hole has a long hole shape longer than the first fastening hole in a direction toward the first bent part, and the UV light emitting element is disposed to face between the pair of first bent parts. Disclosed is an ultraviolet irradiation device.

Description

Ultraviolet irradiation device {ULTRAVIOLET LIGHT IRRADIATION DEVICE}

The embodiment relates to an ultraviolet irradiation device.

Escalators and moving walks are installed in various places such as subways, airports, and department stores with a large floating population and are conveniently used by many people. However, handrails, which are safety devices of escalators and moving walks, have a problem in that they are easily exposed to germs.

Recently, a device for sterilizing a handrail using an ultraviolet light emitting device has been developed. The ultraviolet light emitting device may output light (UV-A) in the near ultraviolet wavelength range, may output light (UV-B) in the far ultraviolet wavelength range, or may output light (UV-C) in the deep ultraviolet wavelength range. there is. Among them, light (UV-C) in the deep ultraviolet wavelength range may have a sterilization function.

There are various types of escalators and moving walks, such as a glass type in which a glass plate is disposed inside a handrail rotating in an endless track, and a SUS type in which a metallic support frame is disposed. Therefore, a product design compatible with various types of escalators and moving walks is required.

In addition, the UV light emitting device needs to be manufactured in the form of a module for smooth maintenance and detachably coupled to the UV irradiation device.

In addition, since the user generally moves while holding the handrail, the side of the handrail may also be easily exposed to germs. Therefore, the sides of the handrail also need to be sterilized.

The embodiment provides an ultraviolet irradiation device compatible with various types of escalators and moving walks.

The embodiment provides an ultraviolet irradiation device capable of attaching and detaching a light source module.

The embodiment provides an ultraviolet irradiation device that sterilizes up to the side of the handrail.

The problem to be solved in the embodiment is not limited thereto, and it will be said that the solution to the problem described below or the purpose or effect that can be grasped from the embodiment is also included.

An ultraviolet irradiation device according to one feature of the present invention includes a first housing including an upper surface portion and a pair of first side portions facing each other with the upper surface portion interposed therebetween; a pair of second housings respectively coupled to the pair of first side surfaces; and a light source module disposed on an upper surface of the first housing and including an ultraviolet light emitting device, wherein the pair of first side parts include a first fastening hole, and each of the second housings includes a first fastening hole. A second side portion connected to the side portion, and a first bent portion bent from the second side portion and extending toward between the first side portions, wherein the second side portion is disposed at a position overlapping the first fastening hole. It includes 2 fastening holes, the second fastening hole has a long hole shape longer than the first fastening hole in a direction toward the first bent part, and the UV light emitting element is disposed to face between the pair of first bent parts. It can be.

A fastening member disposed in the first fastening hole and the second fastening hole may be included.

The first bent part may include a third fastening hole.

A distance between the pair of first bent parts may be shorter than a distance between the pair of second side parts.

The first side part includes a fourth fastening hole penetrating the first side part, the second housing includes a first protrusion bent from the second side part and disposed in the fourth fastening hole, The side portion and the first protrusion may be disposed on both surfaces of the first side portion, and the first protrusion may extend parallel to the second side portion in an opposite direction.

The light source module may include a frame; and a first circuit board disposed on the frame, wherein the plurality of UV light emitting devices are disposed on the first circuit board in a first direction, and the frame includes: a fixing part; a second bent part bent at the fixing part; and a pair of second protrusions bent to face each other at both ends of the fixing part, wherein the first circuit board is disposed on the second bent part, and the fixing part is connected to the second bent part. A first side surface and a second side surface facing the first side surface, wherein the fixing part passes through a first recess concavely formed from the second side surface toward the first side surface, and one surface and the other surface of the fixing part. It may include a fifth fastening hole to.

a first reflector disposed on the first circuit board; and a second reflector and a third reflector bent at both ends of the first reflector in a second direction perpendicular to the first direction, wherein the first reflector includes a plurality of first reflectors on which the plurality of ultraviolet light emitting elements are disposed. A through hole may be included, and a distance between the second reflector and the third reflector may increase as the distance from the first circuit board increases.

The first housing includes a front portion disposed perpendicular to the upper surface portion and the pair of first side surfaces, the front portion includes a sixth coupling hole corresponding to the fifth coupling hole, and the fifth coupling hole and a fastening member disposed within the sixth fastening hole.

a second circuit board disposed on the upper surface; and a connector disposed on the second circuit board, and the front portion may include a second through hole overlapping the first recess to expose the connector.

The frame includes a pair of third protrusions bent from the fixing portion to face the second bent portion, the front portion includes a pair of seventh fastening holes, and the pair of third protrusions Each may be disposed within the pair of seventh fastening holes.

The fixing part may include a pair of convex portions protruding into the first recess and connected to the pair of third protrusions, and a concave portion disposed between the pair of convex portions.

A first width of the fixing part from the first side surface to the concave part may be smaller than a second width from the first side surface to the convex part.

A case surrounding the housing may include a top case facing the upper surface portion, a pair of side cases facing the pair of first side portions, and a front case facing the front portion. there is.

A fourth reflector and a fifth reflector are respectively disposed on the pair of side cases, the fourth reflector and the fifth reflector are spaced apart from each other in the first direction, and the fourth reflector and the fifth reflector are spaced apart from each other in the first direction. The distance between them may decrease as the distance from the first circuit board increases.

The fourth reflector and the fifth reflector may reflect some of the light emitted from the plurality of ultraviolet light emitting devices.

In the ultraviolet irradiation device according to the embodiment, the second fastening hole has a long hole shape so that it can be compatible with various sizes of sus-type escalators, etc., and can also be used for glass-type escalators by replacing the second housing with the third housing while leaving the first housing as it is. can be compatible

In addition, the light source module can be easily attached or detached from the ultraviolet irradiation device.

In addition, even the side of the handrail can be sterilized without disposing the light source on the side of the handrail.

Various advantageous advantages and effects of the present invention are not limited to the above description, and will be more easily understood in the process of describing specific embodiments of the present invention.

1 is a perspective view showing a state in which an ultraviolet irradiation device according to an embodiment of the present invention is mounted on a target structure;
Figure 2 is a perspective view of the ultraviolet irradiation device of Figure 1,
Figure 3 is an exploded perspective view of Figure 2,
4 is a plan view showing a state in which the housing of FIG. 3 is fixed to a target structure;
5 is a side view showing a state in which the housing of FIG. 3 is fixed to a target structure;
6 is a side view showing a state in which the housing of FIG. 3 is fixed to target structures of different sizes;
7 to 9 are views showing a process of coupling the second housing to the first housing of FIG. 3;
10 is a perspective view showing the light source module of FIG. 3;
11 is an exploded perspective view of FIG. 10;
12 is a front view of FIG. 10;
13 is a plan view of FIG. 10;
14 is a side view of FIG. 10;
15 is a plan view showing a front portion of the first housing of FIG. 3;
16 is a view showing a state in which the light source module is coupled to FIG. 15;
17 is a cross-sectional view of FIG. 2;
18 is a cross-sectional view in AA direction of FIG. 17;
19 is a perspective view showing an ultraviolet irradiation device according to another embodiment of the present invention;
20 is an exploded perspective view of the housing and fixing part of FIG. 19;
21 to 24 are views showing various installation examples of the ultraviolet irradiation device of FIG. 19,
25 is a basic example of the ultraviolet irradiation device of FIG. 1 .

The present embodiments may be modified in other forms or combined with each other, and the scope of the present invention is not limited to each of the embodiments described below.

Even if a matter described in a specific embodiment is not described in another embodiment, it may be understood as a description related to another embodiment, unless there is a description contrary to or contradictory to the matter in another embodiment.

For example, if the characteristics of component A are described in a specific embodiment and the characteristics of component B are described in another embodiment, the opposite or contradictory description even if the embodiment in which components A and B are combined is not explicitly described. Unless there is, it should be understood as belonging to the scope of the present invention.

In the description of the embodiment, in the case where an element is described as being formed “on or under” of another element, on or under (on or under) or under) includes both elements formed by directly contacting each other or by indirectly placing one or more other elements between the two elements. In addition, when expressed as "on or under", it may include the meaning of not only the upward direction but also the downward direction based on one element.

Hereinafter, with reference to the accompanying drawings, embodiments of the present invention will be described in detail so that those skilled in the art can easily carry out the present invention.

1 is a perspective view showing a state in which an ultraviolet irradiation device according to an embodiment of the present invention is mounted on a target structure.

Referring to FIG. 1 , an ultraviolet irradiation device 10 according to an embodiment of the present invention may be mounted on a target structure 20 to sterilize the movable structure 30 of the target structure 20 . The target structure 20 may include all of various structures that transport a user to a predetermined location, such as an escalator or a moving walk. The moving structure 30 may refer to a handrail provided in an escalate or a moving walk, but is not necessarily limited thereto. Hereinafter, the case where the moving structure 30 is a handrail of an escalator or a moving walk will be described.

The ultraviolet irradiation device 10 may be mounted to be exposed to the outside of the target structure 20, but is not necessarily limited thereto, and may be mounted inside the target structure 20. In this case, the light source module may be separated from the ultraviolet irradiation device 10 and independently disposed under the movable structure 30 .

2 is a perspective view of the ultraviolet irradiation device of FIG. 1, FIG. 3 is an exploded perspective view of FIG. 2, and FIG. 4 is a plan view showing a state in which the housing of FIG. 3 is fixed to a target structure.

2 to 4, the ultraviolet irradiation device 10 may include a housing 100 and a light source module 300, and may further include a power module 400 and/or a case 500. .

The housing 100 may include a first housing 110 and a pair of second housings 120 coupled to the first housing 110 .

The first housing 100 may include a top portion 111 and a pair of first side portions 113, and may further include a front portion 115 and/or a rear portion 117.

The upper surface portion 111 may be disposed perpendicular to the pair of first side portions 113 , the front portion 115 , and the rear portion 117 .

The pair of first side parts 113 may face each other. The front part 115 and the rear part 117 may be disposed to face each other and may be disposed perpendicular to the pair of first side parts 113 .

The second circuit board 130 may be disposed on the upper surface portion 111 , and the connector 140 may be disposed on the second circuit board 130 . The second circuit board 130 may be an interface board connecting the light source module 300 and the power module 400 . The light source module 300 may be connected to the second circuit board 130 through the connector 140 .

The second housing 120 may include a second side portion 121 and a first bent portion 123 bent from the second side portion 121 to face the upper surface portion 111 .

The second side part 121 may include a plurality of second fastening holes 121a passing through the second side part 121 .

The plurality of second fastening holes 121a may be disposed at positions corresponding to the plurality of first fastening holes 113a penetrating the first side part 113 . That is, the distance between the plurality of second fastening holes 121a may be the same as the distance between the plurality of first fastening holes 113a. Accordingly, the second housing 120 may be coupled to the first housing 110 by a fastening member such as a bolt disposed in the first fastening hole 113a and the second fastening hole 121a.

A distance D3 between the pair of first bent parts 123 may be shorter than a distance D4 between the pair of second side parts 121 . That is, the pair of first bent parts 123 may be connected to the pair of second side parts 121 and extend in a direction closer to each other.

The first bent part 123 may include a third fastening hole 123a passing through the first bent part 123 .

A fastening member such as a bolt fastened to one surface of the support frame 40 supporting the movable structure 30 may be disposed in the third fastening hole 123a. Thus, the housing 100 may be fixed to the support frame 40 of the target structure 20 .

Although the number of third fastening holes 123a is illustrated as being disposed two by one in each second housing 120, it is not necessarily limited thereto, and may be one or three or more.

The light source module 300 can irradiate ultraviolet light, and the power module 400 can produce power supplied to the light source module 300 .

The light source module 300 may be coupled to the front portion 115 of the first housing 110 by a fastening member such as a bolt.

The power module 400 may be coupled to the pair of first side parts 113 of the first housing 110 .

The case 500 may be coupled to the first housing 100 to form an external appearance of the UV irradiation device 10 . The case 500 may include a plastic material, but is not necessarily limited thereto.

The case 500 includes an upper case 510 facing the upper surface portion 111 of the first housing 110 and a pair of side cases facing the pair of first side portions 113 of the first housing 110. 520, and a front case 530 facing the front portion 115 of the first housing 110, and a rear case 540 facing the rear portion 117 of the first housing 110 may further include.

The upper case 510 may include a window 511 for outputting information related to sterilization.

The pair of side cases 520 may include a fourth reflector 521a and a fifth reflector 521b coupled to each other by a fastening member such as a bolt to face each other. The fourth reflector 521a and the fifth reflector 521b may reflect ultraviolet light emitted from the light source module 300 . Since the fourth reflector 521a and the fifth reflector 521b are coupled to the case 500 instead of the light source module 300, attachment and detachment of the light source module 300 can be facilitated. The fourth reflector 521a and the fifth reflector 521b may include aluminum (Al), but are not necessarily limited thereto, and may include other materials having high UV light reflectance.

The front case 530 may be detachable from the top case 510 . Accordingly, in a state where the front case 530 is separated from the upper case 510, the front portion 115 of the first housing 110 may be exposed to the outside. In addition, the light source module 300 coupled to the front portion 115 of the first housing 110 may be detachable.

The front case 530 may include a first elastic pad 531 , and the rear case 540 may include a second elastic pad 541 . The first elastic pad 531 and the second elastic pad 541 may prevent the user's hand from being introduced into the case 500 . In addition, it is possible to improve the problem that the user's hand is injured by being caught between the case 500 and the handrail.

The first elastic pad 531 and the second elastic pad 541 may include an elastic material such as silicon.

The first elastic pad 531 may be attached to and detached from the front case 530 and the second elastic pad 541 may be attached to the rear case 540 , respectively. Illustratively, the front case 530 and the rear case 540 may include eighth fastening holes 530a and 540a, and the first elastic pad 531 and the second elastic pad 541 may include eighth fastening holes. Sixth protrusions 531a and 541a inserted into the holes 530a and 540a may be included.

5 is a side view showing a state in which the housing of FIG. 3 is fixed to a target structure, and FIG. 6 is a side view showing a state in which the housing of FIG. 3 is fixed to a target structure of a different size.

Referring to FIGS. 5 and 6 , the second fastening hole 121a may have a long hole shape extending in the Z-axis direction (third direction) connecting the upper surface portion 111 and the first bent portion 123 . That is, the width of the second fastening hole 121a in the Z-axis direction may be greater than the width in the Y-axis direction (second direction) perpendicular to the Z-axis direction, and the width of the second fastening hole 121a in the Z-axis direction. may be greater than the width of the first fastening hole in the Z-axis direction. Therefore, even if the distance D5 between one surface of the movable structure 30 and one surface of the support frame 40 supporting the movable structure 30 varies according to the size of the target structure 20, the light source module and the movable structure ( 30) can be adjusted so that the distance between one side is kept constant.

7 to 9 are views illustrating a process of coupling the second housing to the first housing of FIG. 3 .

Referring to FIG. 7 , the first side portion 113 may include a fourth fastening hole 113b passing through the first side portion 113, and the second housing 120 is bent at the second side portion 121. It may include a first protrusion 125 to be. The first protrusion 125 may be inserted into the fourth fastening hole 113b. At this time, the second side part 121 may be disposed inclined with respect to the first side part 113 .

Referring to FIG. 8 , in a state in which the first protrusion 125 is disposed in the fourth fastening hole 113b, the second side portion 121 may be rotated to adhere to one surface of the first side portion 113 .

The first protrusion 125 may extend parallel to the second side surface 121 in an opposite direction.

Accordingly, the first protruding portion 125 may stably support the second side portion 121 by coming into close contact with the other surface of the first side portion 113 . In addition, bolt fastening between the first housing 110 and the second housing 120 can be facilitated.

Referring to FIG. 9 , coupling between the first housing 110 and the second housing 120 may be completed by fastening a fastening member such as a bolt.

10 is a perspective view showing the light source module of FIG. 3, and FIG. 11 is an exploded perspective view of FIG.

10 and 11, the light source module 300 may include a frame 310, a first circuit board 320, and a plurality of ultraviolet light emitting devices 330, and further include a reflective member 340. You may.

The frame 310 includes a fixing part 311, a second bent part 313 bent at the fixing part 311, and a pair of second protrusions 315 bent to face each other at both ends of the fixing part 311. It may include, and a pair of third protrusions 317 bent to face the second bent part 313 in the fixing part 311 may be further included.

The second bent part 313 and the second protruding part 315 may be bent in opposite directions from the fixing part 311 . Illustratively, the second bent part 313 may be bent downward of the fixing part 311 , and the second protrusion 315 may be bent upward of the fixing part 311 .

The frame 310 may include aluminum (Al), but is not necessarily limited thereto, and may include other materials having excellent heat dissipation characteristics.

The first circuit board 320 may be disposed on the second bent portion 313 .

The first circuit board 320 may include a wire (not shown) used for power supply or the like.

A plurality of UV light emitting devices 330 may be arranged in a line on the first circuit board 320 .

The ultraviolet light emitting device 330 may output light (UV-A) in a near-ultraviolet wavelength range, may output light (UV-B) in a far-ultraviolet wavelength range, or output light (UV-C) in a deep ultraviolet wavelength range. can also be printed out. The wavelength range of light may be determined by the composition ratio of Al in the semiconductor structure.

Illustratively, light (UV-A) in the near ultraviolet wavelength range may have a peak wavelength in the range of 320 nm to 420 nm, and light (UV-B) in the far ultraviolet wavelength range may have a peak wavelength in the range of 280 nm to 320 nm, Light (UV-C) in the deep ultraviolet wavelength range may have a peak wavelength ranging from 100 nm to 280 nm.

The reflective member 340 may be disposed on the first circuit board 320 . The reflective member 340 may be fixed on the second bent portion 313 together with the first circuit board 320 by a fastening member such as a bolt.

The reflective member 340 may reflect light emitted from the UV light emitting device 330 . In addition, the reflective member 340 may perform a heat dissipation function of dissipating heat generated from the UV light emitting device 330 to the outside. In the UV light emitting device 330, it may be important to quickly release heat.

The reflective member 340 may include aluminum (Al), but is not necessarily limited thereto, and may include other materials having high UV light reflectance.

12 is a front view of FIG. 10 , FIG. 13 is a plan view of FIG. 10 , and FIG. 14 is a side view of FIG. 10 .

Referring to FIG. 12 , the frame 310 is a pair of fourth protrusions bent at one end in the Y-axis direction (second direction) perpendicular to the X-axis direction (first direction) of the second bent portion 313 ( 319a), and a pair of fifth protrusions 319b bent at the other end of the second bent portion 313 in the second direction. The fourth protrusion 319a may be disposed under the fifth protrusion 319b. That is, the distance between the fixing part 111 and the fourth protrusion 319a may be greater than the distance between the fixing part 111 and the fifth protrusion 319b.

The fourth protrusion 319a and the fifth protrusion 319b may be adjacent to opposite sides of the first circuit board 320 . In particular, the pair of fourth protrusions 319a may be disposed within the pair of second recesses 320a formed in the first circuit board 320 . Accordingly, the first circuit board 320 may be stably supported on the second bent portion 313 by the fourth protrusion 319a and the fifth protrusion 319b. As a result, the user can fasten fastening members such as bolts in a state where the first circuit board 320 is stably supported.

The fourth protrusion 319a and the fifth protrusion 319b may be spaced apart from each other in the X-axis direction. That is, the fourth protrusion 319a and the fifth protrusion 319b may be misaligned with each other. Accordingly, an area in which the circuit pattern (not shown) of the first circuit board 320 can be formed without interfering with the second recess 320a can be secured above or below the UV light emitting device 330. .

The plurality of UV light emitting devices 330 may be disposed spaced apart from each other in the X-axis direction.

The reflective member 340 includes a first reflector 341 disposed on the first circuit board 320, and second and third reflectors 342 and 343 bent at both ends of the first reflector 341 in the Y-axis direction. can include

The first to third reflectors 341 , 342 , and 343 may extend in the X-axis direction, and the second reflector 342 and the third reflector 343 may be spaced apart from each other in the Y-axis direction. The first reflector 341 may include a plurality of first through holes 341a in which a plurality of ultraviolet light emitting devices 330 are respectively disposed.

Referring to FIG. 13, the fixing part 311 includes a first side surface 311a connected to the second bent part 313, a second side surface 311b facing the first side surface 311a, and a second side surface 311b. ) may include a first recess 311c concavely formed toward the first side surface 311a, and a fifth fastening hole 311d penetrating one surface and the other surface of the fixing part 311 .

The fixing portion 311 protrudes into the first recess 311c and is disposed between a pair of convex portions 311e respectively connected to the pair of third protrusions 317 and the pair of protrusions 311e. A concave portion 311f may be included. The convex portion 311e may extend in the Z-axis direction (third direction) perpendicular to the X-axis and Y-axis directions, and the pair of convex portions 311e may be spaced apart from each other in the X-axis direction. . Accordingly, in the fixing part 311, the first width W1 from the first side surface 311a to the concave portion 311f is greater than the second width W2 from the first side surface 311a to the convex portion 311e. can be small In other words, the width of the first recess 311c may be increased by the width of the concave portion 311f.

The first through hole 341a of the first reflector 341 may extend to the second reflector and the third reflector 343 . Accordingly, the side surface of the UV light emitting device 330 may be exposed to the outside of the reflective member 340 through the first through hole 341a.

Referring to FIG. 14 , the second reflector 342 and the third reflector 343 may be inclined at a predetermined angle with respect to the first reflector 341 .

The second reflector 342 and the third reflector 343 may be spaced apart from each other in the Y-axis direction. The distance D1 between the second reflector 342 and the third reflector 343 may increase as the distance from the first circuit board 320 increases. Illustratively, the angle formed by the second reflector 342 and the third reflector 343 may be 20 degrees to 60 degrees, but is not necessarily limited thereto.

FIG. 15 is a plan view showing a front portion of the first housing of FIG. 3 , and FIG. 16 is a view showing a state in which the light source module is coupled to FIG. 15 .

Referring to FIGS. 3 and 15 , the front part 115 may include a sixth fastening hole 115a passing through the front part 115 . The sixth fastening hole 115a may be disposed to correspond to the fifth fastening hole 311d of the light source module 300 . Accordingly, the light source module 300 may be fixed to the first housing 110 by fastening members such as bolts disposed in the fifth fastening hole 311d and the sixth fastening hole 115a.

The front part 115 may include a second through hole 115b penetrating the front part 115 . The second through hole 115b may expose the connector 140 disposed on the second circuit board 130 .

The front part 115 may include a pair of seventh fastening holes 115c passing through the front part 115 . The third protrusion 317 of the light source module 300 may be inserted into the seventh fastening hole 115c. Therefore, the user can fix the position of the light source module 300 by inserting the third protrusion 317 into the seventh fastening hole 115c, and in that state, the light source module 300 is secured by a fastening member such as a bolt. It may be coupled to the first housing 110 .

Referring to FIG. 16 , the light source module 300 may be fixed to the front portion 115 of the first housing 110 by a fastening member such as a bolt. In this case, the first recess 311c of the fixing part 311 may overlap the second through hole 115b of the front part 115 . Accordingly, the connector 140 disposed on the second circuit board 130 may be exposed to the outside through the second through hole 115b and the first recess 311c. As a result, the user first connects a wire (not shown) of the first circuit board 320 to the connector 140 of the second circuit board 130 while stably fixing the light source module 300 to the housing 100. can connect In addition, the concave portion 311f of the fixing portion 311 also overlaps the second through hole 115b of the front portion 115, thereby further improving the wire connection operation. Meanwhile, the pair of second protrusions 315 may be used as handles when a user attaches or detaches the light source module 300, but is not necessarily limited thereto.

17 is a cross-sectional view of FIG. 2 .

Referring to FIG. 17 , the housing 100 may include an inlet E1 and an outlet E2. The handrail may continuously pass through the housing 100 through the inlet E1 and the outlet E2. The first elastic pad 531 and the second elastic pad 541 may be disposed spaced apart from one surface 30a of the handrail at the inlet E1 and the outlet E2.

The upper surface portion 111 of the first housing 110 may be disposed to face one surface 30a of the handrail, and a pair of first side portions 113 may be disposed to face both sides of the handrail. . The second circuit board 130 may be disposed on the upper surface portion 111 to face one surface 30a of the handrail.

The first housing 110 may accommodate the light source module 300 and the power module 400 . The light source module 300 may irradiate ultraviolet light to one surface 30a of the handrail, and the power module 400 may produce power supplied to the light source module 300 by contacting the one surface 30a of the handrail. there is.

The power module 400 may include a roller 410 in contact with one surface 30a of the handrail, and a power supply unit 420 that generates power by rotation of the roller 410. The roller 410 and the power supply 420 may be connected by a gear (not shown). The power supply unit 420 may include various types of self-generator structures capable of converting the rotational force of the roller 410 into electric power.

The power module 400 may directly supply power generated by the power supply unit 420 to the light source module 300, but is not necessarily limited thereto. For example, the power module 400 may store some of the power generated by the power supply unit 420 in a battery (not shown) and use it as emergency power.

The roller 410 and the power supply unit 420 may be disposed in a direction from the inlet E1 to the outlet E2 of the housing 100 . That is, the roller 410 may be disposed farther from the inlet E1 than the power supply 420 and may be disposed closer to the light source module 300 . With this configuration, it is possible to improve the problem that the user's hand is sucked into the UV irradiation device by the roller 410 .

The power supply unit 420 may be disposed higher than a position where the roller 410 contacts the one surface 30a of the handrail by a predetermined height h1. That is, the power supply unit 420 may be disposed spaced apart from one surface 30a of the handrail.

The power module 400 may be rotatably coupled to the pair of first side parts 113 of the first housing 110 through the rotation shaft 400a and may include an elastic member 430 . The elastic member 430 may rotate the power module 400 so that the roller 410 adheres to one surface 30a of the handrail. The elastic member 430 may be coupled to the rotating shaft 400a. The elastic member 430 may include a spring, but is not necessarily limited thereto. Also, the power module 400 may have a limited rotation range. Illustratively, the power module 400 may contact the upper surface portion 111 of the first housing 110 to limit clockwise rotation, and the stopper pin 113c coupled to the first side portion 113 Rotation in the counterclockwise direction can be limited by contacting. Accordingly, product stability and work convenience may be improved.

18 is a cross-sectional view in the direction A-A of FIG. 17;

Referring to FIG. 18 , a pair of first side parts 113 of the first housing 110 may be disposed to face both side surfaces 30b of the handrail. Accordingly, the side case 520 surrounding the first side portion 113 of the first housing 110 may also be disposed to face both side surfaces 30b of the handrail. The fourth reflector 521a and the fifth reflector 521b may be coupled to the side case 520 by a fastening member such as a bolt, and may be disposed to face both side surfaces 30b of the handrail.

The fourth reflector 521a and the fifth reflector 521b may reflect some of the light emitted from the UV light emitting device 330 and radiate it to both side surfaces 30b of the handrail.

The fourth reflector 521a and the fifth reflector 521b may be spaced apart from each other in the X-axis direction, and the distance D2 between the fourth reflector 521a and the fifth reflector 521b is the first circuit board ( 320), it may decrease. By this configuration, even if a light source is not additionally disposed on the side surface 30b of the handrail, a part of the light irradiated from the UV light emitting device 330 is reflected from the fourth reflector 521a and the fifth reflector 521b, thereby increasing the light intensity of the handrail. The side surface 30b may be irradiated. The fourth reflector 521a and the fifth reflector 521b may have the same or different curvatures.

19 is a perspective view showing an ultraviolet irradiation device according to another embodiment of the present invention, and FIG. 20 is an exploded perspective view of a housing and a fixing part of FIG. 19 .

Referring to FIG. 19, an ultraviolet irradiation device 10' according to another embodiment of the present invention may include a housing 100, a coupling part 200, and a light source module (not shown), and a power module (not shown). ) and/or the case 500 may be further included. Since the light source module, the power module, and the case 500 are substantially the same as those applied to the ultraviolet irradiation device 10 according to an embodiment of the present invention, a description thereof will be omitted.

Referring to FIG. 20 , the housing 100 may include a first housing 100 and a pair of third housings 150 coupled to the first housing 100 .

The first housing 100 may include a top portion 111 and a pair of first side portions 113, and may further include a front portion 115 and/or a rear portion 117.

The upper surface portion 111 may be disposed perpendicular to the pair of first side portions 113 , the front portion 115 , and the rear portion 117 .

The pair of first side parts 113 may face each other. The front part 115 and the rear part 117 may be disposed to face each other and may be disposed perpendicular to the pair of first side parts 113 .

The third housing 150 may include a third side portion 151 , and the third side portion 151 may include a plurality of ninth fastening holes 151a passing through the third side portion 151 .

The plurality of ninth fastening holes 151a may be disposed at positions corresponding to the plurality of first fastening holes 113a penetrating the first side part 113 . That is, the distance between the plurality of ninth fastening holes 151a may be the same as the distance between the plurality of first fastening holes 113a. Accordingly, the third housing 150 may be coupled to the first housing 110 by a fastening member such as a bolt disposed in the first fastening hole 113a and the ninth fastening hole 151a.

The coupling part 200 may fix the housing 100 to the target structure. The coupling part 200 is between the first and second coupling plates 210 and 220 coupled to the pair of third side portions 151, and between the third side portion 151 and the first coupling plate 210 and/or Alternatively, it may include a plurality of nuts 230 and 240 disposed between the third side portion 151 and the second coupling plate 220, and the plurality of nuts 230 and 240 may include a pair of first nuts 230 ), and a pair of second nuts 240 shorter than the first nuts 230.

The coupling between the third side portion 151, the first coupling plate 210, the second coupling plate 220 and the nuts 230 and 240 may be performed by bolts. In this case, the bolt may include a stud bolt.

21 to 24 are views showing various installation examples of the ultraviolet irradiation device of FIG. 19 .

21 to 24, the target structure 20 includes a movable structure 30, for example, a plate 50 disposed inside a handrail rotating in an endless orbit to support the movable structure 30. can do. The plate 50 may be a glass plate, but is not necessarily limited thereto.

The placement position of the plate 50 may vary depending on the type of target structure 20 . Illustratively, as shown in FIG. 23, it may be disposed on the center line (A) of the movable structure 30, but as shown in FIGS. 21, 22 and 24, from the center line (A) of the movable structure 30 They may be spaced apart by a predetermined distance (e). Accordingly, through various arrangements of the pair of first nuts 230 and the pair of second nuts 240, the distance (a) between one first side portion 151 and the first coupling plate 210, And the distance (b) between the other first side portion 151 and the second coupling plate 220 can be adjusted.

The length c1 of the first nut 230 may be 2 to 3 times the length c2 of the second nut 240, preferably 2.5 times.

The length c1 of the first nut 230 may be 22 mm to 28 mm, preferably 25 mm. The length c2 of the second nut 240 may be 9 mm to 11 mm, preferably 10 mm.

The thickness t1 of the first coupling plate 210 and the second coupling plate 220 may be 10 mm to 12 mm, preferably 11 mm. Films (f) may be attached to surfaces of the first coupling plate 210 and the second coupling plate 220 facing each other, respectively. The thickness t2 of the film f may be 0.9 mm to 1.1 mm, preferably 1 mm. The thickness t3 of the plate 50 may be 6 mm to 10 mm, preferably 8 mm.

The distance d1 between the pair of third side parts 151 may be 110 mm to 120 mm, preferably 114 mm.

The length adjustable by the bolt coupled to the first nut 230 may be 0 mm to 13 mm. That is, the distance between the first coupling plate 210 and the second coupling plate 220 may be adjusted by adjusting the protrusion length d2 of the bolt coupled to the first nut 230 .

25 is a basic example of the ultraviolet irradiation device of FIG. 1 .

Referring to FIG. 25 , the ultraviolet irradiation device 10 may include a first housing 110, a pair of second housings 120, and a light source module 300. The first housing 110 may include an upper surface part 111 and a pair of first side parts 113 facing each other with the upper surface part 111 interposed therebetween. The pair of second housings 120 may be respectively coupled to the pair of first side parts 113 . The second housing 120 includes a second side portion 121 connected to the first side portion 113 and a first bent portion 123 bent at the second side portion 121 to face the upper surface portion 111. can do. The first side part 111 may include a plurality of first fastening holes 113a passing through the first side part 111 . The second side part 121 may include a plurality of second fastening holes 121a penetrating the second side part 121 at positions corresponding to the plurality of first fastening holes 113a. The first bent part 123 may include a third fastening hole 123a passing through the first bent part 123 . The second fastening hole 121a may have a long hole shape longer than the first fastening hole 113a in a direction toward the upper surface portion 111 and the first bent portion 123, for example, in the Z-axis direction. The description based on FIGS. 1 to 18 can be equally applied to the ultraviolet irradiation device 10 of FIG. 25 .

A method of installing an ultraviolet irradiation device is a method of installing an ultraviolet irradiation device on a moving structure, wherein the ultraviolet irradiation device includes an upper surface portion and a pair of first side surfaces facing each other with the upper surface portion interposed therebetween. 1 housing; a pair of second housings respectively coupled to the pair of first side surfaces; and a light source module disposed on an upper surface of the first housing, wherein the second housing includes a second side surface connected to the first side surface, and a first surface bent from the second side surface to face the upper surface. It includes a bent portion, the first side portion includes a plurality of first fastening holes penetrating the first side portion, and the second side portion passes through the second side portion at a position corresponding to the plurality of first fastening holes. and a plurality of second fastening holes, wherein the first bent part includes a third fastening hole penetrating the first bent part, and the second fastening hole is directed toward the upper surface part and the first bent part. It has a long hole shape longer than the first fastening hole, and the method of installing the ultraviolet irradiation device may include disposing a first bent portion of the second housing on a support frame of the movable structure; fixing the second housing to a target structure by fastening a fastening member such as a bolt to the support frame through the third fastening hole; arranging fastening members such as bolts in the first fastening hole and the second fastening hole to connect the first side surface of the first housing and the second side surface of the second housing; and arranging the light source module on an upper surface of the first housing so as to face one surface of the moving structure. In the above, each step of the installation method of the ultraviolet irradiation device is not limited in order. Components mentioned in the installation method of the ultraviolet irradiation device may have the same reference numerals as components of the same names in FIGS. 1 to 24 .

Although the above has been described with reference to the embodiments, these are only examples and do not limit the present invention, and those skilled in the art to which the present invention belongs will not deviate from the essential characteristics of the present embodiment. It will be appreciated that various variations and applications are possible. For example, each component specifically shown in the embodiment can be modified and implemented. And differences related to these variations and applications should be construed as being included in the scope of the present invention as defined in the appended claims.

Claims (15)

a first housing including an upper surface portion and a pair of first side portions facing each other with the upper surface portion interposed therebetween;
a pair of second housings respectively coupled to the pair of first side surfaces; and
It is disposed on the upper surface of the first housing and includes a light source module including an ultraviolet light emitting device,
The pair of first side parts include a first fastening hole,
Each of the second housings includes a second side portion connected to the first side portion, and a first bent portion bent from the second side portion and extending toward between the first side portions;
The second side portion includes a second fastening hole disposed at a position overlapping the first fastening hole,
The second fastening hole has a long hole shape longer than the first fastening hole in a direction toward the first bent part,
The ultraviolet light emitting device is arranged to face between the pair of the first bent portion.
According to claim 1,
An ultraviolet irradiation device comprising a fastening member disposed in the first fastening hole and the second fastening hole.
According to claim 1,
Wherein the first bent portion includes a third fastening hole.
According to claim 1,
A distance between a pair of the first bent parts is shorter than a distance between a pair of the second side parts.
According to claim 1,
The first side portion includes a fourth fastening hole penetrating the first side portion,
The second housing includes a first protrusion bent from the second side portion and disposed in the fourth fastening hole;
The second side portion and the first protrusion are respectively disposed on both sides of the first side portion,
The first protrusion extends in parallel in a direction opposite to the second side portion of the ultraviolet irradiation device.
According to claim 1,
The light source module,
frame; and
A first circuit board disposed on the frame;
A plurality of the ultraviolet light emitting devices are disposed on the first circuit board in a first direction;
the frame,
fixing part;
a second bent part bent at the fixing part; and
And a pair of second protrusions bent to face each other at both ends of the fixing part,
The first circuit board is disposed on the second bent portion,
The fixing part includes a first side surface connected to the second bent part and a second side surface facing the first side surface,
The fixing part includes a first recess formed concavely from the second side surface toward the first side surface, and a fifth fastening hole penetrating one surface and the other surface of the fixing part.
According to claim 6,
A reflective member disposed on the first circuit board;
The reflective member,
a first reflector disposed on the first circuit board; and
A second reflector and a third reflector bent at both ends of the first reflector in a second direction perpendicular to the first direction;
The first reflector includes a plurality of first through holes in which a plurality of the ultraviolet light emitting elements are disposed,
The distance between the second reflector and the third reflector increases as the distance from the first circuit board increases.
According to claim 6,
The first housing includes a front portion disposed perpendicular to the upper surface portion and the pair of first side surfaces,
The front portion includes a sixth fastening hole corresponding to the fifth fastening hole,
The ultraviolet irradiation device including a fastening member disposed in the fifth fastening hole and the sixth fastening hole.
According to claim 8,
a second circuit board disposed on the upper surface; and
A connector disposed on the second circuit board;
The front portion includes a second through hole overlapping the first recess to expose the connector.
According to claim 8,
the frame,
Including a pair of third protrusions bent to face the second bent portion in the fixing portion,
The front part includes a pair of seventh fastening holes,
The pair of third protrusions are respectively disposed in the pair of seventh fastening holes.
According to claim 10,
The fixing part includes a pair of convex portions protruding into the first recess and connected to the pair of third protrusions, and a concave portion disposed between the pair of convex portions.
According to claim 11,
Wherein the fixing part has a first width from the first side surface to the concave portion smaller than a second width from the first side surface to the convex portion.
According to claim 8,
Including a case surrounding the housing,
The case includes a top case facing the upper surface portion, a pair of side cases facing the pair of first side portions, and a front case facing the front portion.
According to claim 13,
Including a fourth reflector and a fifth reflector respectively disposed on the pair of side cases,
The fourth reflector and the fifth reflector are spaced apart from each other in the first direction,
The distance between the fourth reflector and the fifth reflector decreases as the distance from the first circuit board decreases.
According to claim 14,
The fourth reflector and the fifth reflector reflect part of the light emitted from the plurality of ultraviolet light emitting devices.

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