JP2016141551A - Sterilization device for passenger conveyor handrail and passenger conveyor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a sterilization device for a passenger conveyor handrail that applies sterilization effect by a photocatalyst to the handrail, and besides can suppress deterioration in the handrail caused by action of the photocatalyst.SOLUTION: The sterilization device for a passenger conveyor handrail is provided for sterilizing an endless handrail which moves in an orbiting manner in synchronization with a step of a passenger conveyor. The sterilization device comprises: slurry application means that adheres slurry liquid containing water and/or aqueous media and photocatalyst particles dispersed in the water and/or the aqueous media to a surface of the handrail; photocatalyst excitation means that comprises at least one ultraviolet light emitting diode which emits ultraviolet light with a wavelength at which photocatalyst is excited, and that excites photocatalyst by irradiating the surface of the handrail to which the slurry liquid is adhered with ultraviolet light emitted from the ultraviolet light emitting diode; and slurry removing means that removes the slurry liquid from the irradiated surface of the handrail having passed through the photocatalyst exciting means.SELECTED DRAWING: Figure 4

Description

  The present invention relates to a novel handrail sterilizer for passenger conveyors, and more particularly to a handrail sterilizer for passenger conveyors that sterilizes the surface of an endless handrail that moves around.

  Passenger conveyors such as escalators and moving walkways are generally provided with endless moving handrails (handrails) that move in synchronization with the steps on both sides of the step where the user stands. This handrail is for gripping passengers who get on and off the step and passengers on the step. For safety reasons, the passenger must always hold the handrail while using the passenger conveyor. Is desirable.

  However, since the passenger conveyor is used by an unspecified number of people, there are also users who do not want to touch the handrail gripped by an unspecified number of users. In recent years, the importance of preventing infections such as influenza has been widely recognized, and in recent times hygiene has increased, there are few users who are concerned about infection via the handrail and avoid touching the handrail. It is not considered.

  The fact that dirt is attached to the handrail with the use of the passenger conveyor is also recognized by the main body providing the passenger conveyor, and it is common that the handrail of the passenger conveyor is regularly cleaned with a dust cloth. It is. However, since the rag itself has no sterilizing effect, if the handrail is cleaned with a rag, even if bacteria and viruses attached to the handrail can be removed, the result is that unless the rag is frequently replaced or washed. In some cases, bacteria and viruses attached to the rag can spread throughout the handrail. Therefore, it is desirable to add a function of positively sterilizing.

  In view of such circumstances, it has been proposed to form a coating layer having a photocatalytic function on the surface of a handrail of a passenger conveyor (Patent Document 1).

JP 2004-26448 A JP 2001-303434 A JP 2007-330953 A JP 2012-166193 A

  According to the technique described in Patent Document 1, since organic substances and inorganic gases are decomposed by the photocatalytic function, it is considered that an antifouling function and a sterilizing function can be imparted to the handrail. However, when a coating layer having a photocatalytic function is formed on the surface of the handrail, the coating layer and the main body of the handrail are always in contact with each other. There is a concern that it may act on the handrail body composed of a rubber material or an organic polymer material as well as against dirt adhering to the surface, and promote the deterioration of the handrail.

  Therefore, the present invention provides a handrail sterilizer for passenger conveyors that can suppress deterioration of the handrail due to the action of the photocatalyst while applying antifouling action and sterilization action due to the photocatalyst to the handrail. Let it be an issue. Moreover, the passenger conveyor provided with this handrail sterilizer is provided.

A first aspect of the present invention is an apparatus for sterilizing an endless handrail that moves around in synchronism with the steps of a passenger conveyor,
Slurry application means for attaching a slurry liquid containing water and / or an aqueous medium and photocatalyst particles dispersed in the water and / or the aqueous medium to the surface of the handrail;
Photocatalytic excitation, comprising at least one ultraviolet light emitting diode that emits ultraviolet light having a wavelength that excites the photocatalyst, and irradiating the surface of the handrail to which the slurry is adhered by irradiating ultraviolet light emitted from the ultraviolet light emitting diode. Means,
A handrail sterilization apparatus for passenger conveyor, comprising slurry removal means for removing the slurry liquid from the surface of the handrail that has passed through the photocatalyst excitation means.

  In the first aspect of the present invention, a deep ultraviolet light emitting diode that emits deep ultraviolet light having a bactericidal action is further provided. (1) Deep ultraviolet light emitted from the deep ultraviolet light emitting diode is applied to the surface of the handrail to which the slurry is adhered. It is preferable to irradiate or (2) irradiate the surface of the handrail after the slurry is removed by the slurry removing means with deep ultraviolet rays emitted from the ultraviolet light emitting diode.

  In the first aspect of the present invention, it is preferable to further include a receptacle for receiving and collecting the slurry liquid removed from the surface of the handrail by the slurry removing means.

  1st aspect of this invention WHEREIN: It is preferable that a slurry removal means contains the water washing means which wash | cleans the surface of a handrail with water. In such a form, it is preferable that the washing means cleans the surface of the handrail by spraying pressurized water onto the surface of the handrail.

  In the first aspect of the present invention, it is preferable to further include a draining means for removing water remaining on the surface of the handrail after the washing by the water washing means from the surface of the handrail. In such a configuration, the draining means may have a scraper arranged to contact the surface of the handrail.

  1st aspect of this invention WHEREIN: It further has a sensor which detects the passenger who gets into a passenger conveyor, and the control part which starts and complete | finishes operation | movement of a passenger conveyor, and a control part is a hand by detecting a passenger. A mode in which the operation of the rail sterilizer is started and the operation of the hand rail sterilizer is stopped when the sensor does not detect a passenger for a predetermined time can be preferably adopted. In such a form, the predetermined time is preferably a time required for the endless handrail to move around at least once.

  The second aspect of the present invention includes a step of placing and moving a passenger, a pair of endless handrails arranged on both sides of the step and moving around in synchronism with the step, and the first aspect of the present invention It is a passenger conveyor characterized by having the handrail sterilizer concerning.

  According to the first aspect of the present invention, the handrail cleaning of a passenger conveyor that can suppress the deterioration of the handrail due to the action of the photocatalyst while applying the antifouling and antibacterial action by the photocatalyst to the handrail. An apparatus can be provided.

  The passenger conveyor according to the second aspect of the present invention has the handrail sterilizer according to the first aspect of the present invention, so that the anti-stain and antibacterial action by the photocatalyst is applied to the handrail, while the action of the photocatalyst. It is possible to suppress the deterioration of the handrail due to.

It is a schematic structure figure of passenger conveyor 100 to which handrail sterilizer 40 concerning one embodiment of the present invention is applied. 3 is a schematic view of a cross section in a direction perpendicular to the moving direction of the handrail 30. FIG. It is a figure which illustrates typically the handrail sterilizer 40 arrange | positioned in the vicinity of the entrance / exit 12b of the lower floor of the passenger conveyor 100. FIG. It is a figure which illustrates the handrail sterilizer 40 typically. It is sectional drawing which illustrates the photocatalyst excitation means 42 typically. FIG. 5 is a cross-sectional view taken along the line B-B in FIG. 4, schematically illustrating the slurry removing unit 43. It is CC arrow line view of FIG. FIG. 6 is a DD arrow view of FIG. 4. It is the EE arrow line view of FIG. It is sectional drawing which illustrates the deep ultraviolet light irradiation means 47 typically. In FIG. 4, it is the figure which represented the control part 50 without abbreviate | omitting. It is a flowchart explaining process routine S10 which controls the driving | operation of the handrail sterilizer 40. FIG.

  The above-mentioned operation and gain of the present invention will be clarified from embodiments for carrying out the invention described below. Hereinafter, embodiments of the present invention will be described with reference to the drawings. However, the present invention is not limited to these forms. In the drawing, some symbols may be omitted.

  FIG. 1 is a schematic configuration diagram of a passenger conveyor 100 to which a handrail sterilizer 40 according to an embodiment of the present invention is applied. Passenger conveyor 100 is an escalator that transports passengers between upper and lower floors. The passenger conveyor 100 includes a support structure 11 made of, for example, a metal plate that supports the entire passenger conveyor from below. The support structure portion 11 includes an upper support structure portion 11a disposed at the entrance / exit 12a on the upper floor, a lower support structure portion 11b disposed at the entrance / exit 12b on the lower floor, and the upper support structure portion 11a and the lower support. It has the inclination support structure part 11c connected in the state which inclined between the structure parts 11b.

  In the support structure 10, a large number of steps 13, 13,... (Hereinafter sometimes simply referred to as “step 13”) that move between the upper floor and the lower floor in a continuous state are disposed. Yes. Step 13 is a member that moves with the passenger on it, and has a tread surface on which the passenger rides. In the forward path region where step 13 is exposed upward, each step 13 moves in a staircase pattern. On the other hand, in the lower return path region located in the support structure portion 11, the tread surface of each step 13 moves in a state where they are substantially in the same plane.

  A drive unit (not shown) including a motor and a speed reducer is disposed in the upper support structure portion 11a. A pair of drive sprockets 14 and 14 are connected to the drive unit on both sides in the width direction of step 13 (perpendicular to the plane of FIG. 1), and the pair of drive sprockets 14 and 14 are driven by the drive unit. Rotate. A passenger conveyor control panel 20 that controls the entire passenger conveyor including the drive unit is disposed in the upper support structure 11a.

  On the other hand, a pair of driven sprockets 15 and 15 are disposed on both sides in the width direction of the step 14 in the lower support structure portion 11b. A pair of endless step chains 16 and 16 are wound around a pair of drive sprockets 14 and 14 in the upper support structure 11a and a pair of driven sprockets 15 and 15 in the lower support structure 11b. Yes. Both ends of each step 13 in the width direction are connected to the pair of step chains 16 and 16, respectively. When the drive unit drives the pair of drive sprockets 14, 14, steps 13, 13,... Move down or up between the upper floor and the lower floor while forming a stepped shape. In the following description, it is assumed that the passenger conveyor 100 is in a descending operation, that is, a case where steps 13, 13,... That are stepped are moving in the direction of arrow A.

  On the support structure 11, a pair of side walls 17, 17 are erected on both sides of the step 13. The pair of side walls 17 and 17 are formed of a metal plate or a resin plate. A guide rail (not shown) is provided at the peripheral edge of the pair of column trunks 17 and 17, and the endless handrail 30 is synchronized with the movement of steps 13, 13,... Along the guide rail. Move around. It is desirable from the viewpoint of safety that the passenger stands in step 13 and uses the passenger conveyor 100 while holding the handrail 30 by hand.

The handrail 30 exits the support structure 11 from the upper handrail entrance 18a formed in the upper part of the upper support structure 11a, and makes a U-turn at the entrance 12a on the upper floor to the upper edge of the side wall 17. Along the direction of arrow A, make a U-turn again at the lower floor entrance 12b, and enter the support structure 11 from the lower handrail entrance 18b formed at the upper part of the lower support structure 11b. It moves through the structure 11 to the upper handrail entrance 18a of the entrance 12a on the upper floor.
In addition, the passenger conveyor 100 can reverse a moving direction from a moving direction changeover switch (not shown).

  A handrail sterilizer 40 is disposed in the upper support structure portion 11a and in the vicinity of the upper handrail entrance 18a. Further, the handrail sterilizer 40 is also disposed in the lower support structure portion 11b and in the vicinity of the lower handrail entrance 18b. One of the two handrail sterilizers 40 operates when the handrail 30 moves in the direction of arrow A in conjunction with the movement direction changeover switch, and the handrail 30 moves in the direction opposite to arrow A. The other is activated when moving. And the order (arrangement) in which each element in each handrail sterilizer 40 is arranged is made the same arrangement along the movement direction of handrail 30. Either of the handrail sterilizers 40 may be operated according to the moving direction of the handrail 30, but a deep ultraviolet light irradiation means including a deep ultraviolet light emitting diode that emits deep ultraviolet light having a sterilizing action is additionally provided. From the viewpoint that it is easy to secure the installation space of the deep ultraviolet light irradiation means when irradiating the surface of the hand rail after the slurry is removed by the slurry removing means with the deep ultraviolet light emitted from the ultraviolet light emitting diode. When the rail 30 moves in the direction of arrow A, the handrail sterilizer 40 in the vicinity of the lower handrail entrance 18b is operated, and when the handrail 30 moves in the direction opposite to the arrow A, in the vicinity of the upper handrail entrance 18a. It is preferable to operate the handrail sterilizer 40.

  Human sensors 19a and 19b for detecting that a passenger has arrived at the entrance / exit are provided at the entrance / exit 12a on the upper floor and the entrance / exit 12b on the lower floor. Each of the human sensors 19a and 19b includes a pair of support columns disposed on both sides of the entrances 12a and 12b. One of the pair of support columns has a light emitter, and the other has a light receiver. , Respectively. The light receiver is disposed so as to receive an optical signal emitted from the light emitter. The human sensors 19a and 19b detect that the passenger has come to the entrance when the light signal emitted from the light emitter toward the light receiver is blocked.

  FIG. 2 is a schematic diagram of a cross section in a direction perpendicular to the moving direction of the handrail 30 of the handrail 30 included in the passenger conveyor 100. As shown in FIG. 2, the handrail 30 is formed on the surface of the endless handrail base material 32 that moves along the guide rail 31 disposed on the peripheral edge of the side wall 17, and the handrail base material 32. And a barrier coat layer 33. The handrail base material 32 is formed of a resin having sufficient strength and flexibility to maintain the shape of the handrail 30. The barrier coat layer 33 is a layer that protects the handrail base material 31 from the oxidation action of the photocatalyst while enhancing the antifouling property of the handrail 30. For example, polytetrafluoroethylene, polychlorotrifluoroethylene, polyvinylidene fluoride , Polyvinyl fluoride, tetrafluoroethylene-6 fluoropropylene copolymer, and perfluoroalkoxy fluororesin.

  FIG. 3 is a diagram schematically illustrating the handrail sterilizer 40 disposed in the vicinity of the entrance 12 b on the lower floor of the passenger conveyor 100. As shown in FIG. 3, the handrail sterilizer 40 includes a slurry application unit 41, a photocatalyst excitation unit 42, a slurry removal unit 43, a draining unit 44, a receiver 45, a slurry regeneration unit 46, and FIG. The control means 50 (described later) is not shown. The water and photocatalyst particles received in the receiver 45 are guided to the slurry regeneration means 46 through the pipe 49a, a part of the water is separated and sent to the water tank 431 of the slurry removal means 41 through the pipe 49b, and the remainder It is sent to the slurry tank 411 of the slurry applying means 41 through the pipe 49c. In the handrail sterilizer 40 disposed in the vicinity of the entrance 12b on the lower floor, the handrail 30 that orbits in the direction of arrow A in FIG. 1 includes a slurry application means 41, a photocatalyst excitation means 42, and slurry removal. The slurry applying means 41, the photocatalyst excitation means 42, the slurry removing means 43, and the draining means 44 are arranged so as to pass through the means 43 and the draining means 44 in this order.

  FIG. 4 is a diagram schematically illustrating the handrail sterilizer 40. FIG. 4 also shows a bottom 45a and a pair of side walls 45d and 45e of a water receiver 45, which will be described later, together with the sterilization unit 41. In FIG. 4, the left-right direction on the paper surface is the moving direction of the handrail 30. When the handrail 30 moves in the direction of arrow A in FIG. 3, the handrail 30 moves in the direction of arrow A in FIG. The handrail sterilizer 40 will be further described with reference to FIG.

  The slurry applying unit 41 attaches a slurry liquid 417 containing water and / or an aqueous medium and photocatalyst particles dispersed in the water and / or the aqueous medium to the surface of the handrail 30. As shown in FIG. 4, the slurry application unit 41 is driven by a slurry tank 411 that stores the slurry liquid 417 and a motor (not shown), and draws the slurry liquid 417 from the slurry tank 411 and sends it. And a nozzle 413 connected to the first slurry pump 412 through a pipe 414. A valve 415 is provided in the middle of the pipe 414, and the pipe 414 is shut off when the operation of the handrail sterilizer 40 is stopped. The slurry tank 411 is provided with a slurry agitation device 416. The slurry agitation device 416 agitates the slurry liquid 417 in the slurry tank 411 so that the concentration of the slurry liquid 417 is not uneven. The slurry liquid 417 delivered from the slurry tank 411 by the slurry feed pump 412 is discharged from the nozzle 413 toward the surface of the handrail 30 and adheres to the surface of the handrail 30. As the slurry feed pump 412, a pump having a known configuration can be used without particular limitation as a slurry feed pump, and for example, a gear pump, a hose pump, a single screw pump, or the like can be preferably used. As the nozzle 413, a nozzle having an opening having a diameter that does not cause clogging with the slurry liquid 417 can be employed without any particular limitation. Further, as the slurry agitator 416, a stirrer capable of stirring to such an extent that the concentration of the slurry liquid 417 is maintained can be employed without any particular limitation.

  The slurry liquid 417 includes water and / or an aqueous medium and photocatalyst particles dispersed in the water and / or the aqueous medium. As photocatalyst particles to be contained in the slurry liquid 417, titanium oxide can be preferably used from the viewpoint of safety. Titanium oxide may be either a rutile type or an anatase type, but anatase type can be preferably employed because of its generally high photocatalytic activity. The photocatalyst particles may be particles made of a photocatalytic material such as titanium oxide, or may be particles having a structure in which a photocatalytic material such as titanium oxide is supported on a carrier such as silica. The particle size of the photocatalyst particles is preferably 1 μm or less as a sphere equivalent diameter (average particle diameter D50) giving an intermediate value of the volume particle size distribution measured by a laser diffraction method in terms of ease of dispersion. 50 nm or less. Although a minimum is not specifically limited, From viewpoints, such as availability, it can be 5 nm or more. The content of the photocatalyst particles in the slurry liquid 417 is preferably 10% by mass or more, more preferably 20% by mass or more from the viewpoint of easily enhancing the sterilizing effect of the surface of the handrail 30 due to the photocatalytic action. In view of ease of ejection and the like, it is preferably 80% by weight or less, more preferably 70% by weight or less. As such a slurry liquid, the slurry liquid described in Unexamined-Japanese-Patent No. 2001-303434, Unexamined-Japanese-Patent No. 2007-330953, Unexamined-Japanese-Patent No. 2012-166193 etc. can be mentioned, for example.

  The photocatalyst excitation means 42 includes one ultraviolet light emitting diode that emits ultraviolet light having a wavelength for exciting the photocatalyst contained in the slurry liquid 417, for example, 250 to 400 nm, preferably 300 to 400 nm, particularly preferably 360 to 400 nm. The photocatalyst contained in the slurry liquid 417 is excited by irradiating ultraviolet light with a wavelength of 360 to 400 nm emitted from the ultraviolet light emitting diode onto the surface of the handrail 30 to which the slurry liquid 417 is attached. FIG. 5 is a cross-sectional view for schematically explaining the photocatalyst excitation means 42. In FIG. 5, the direction perpendicular to the paper surface is the moving direction of the handrail 30. As shown in FIG. 5, the photocatalyst excitation unit 42 excites the photocatalyst contained in the slurry liquid 417 arranged with the optical axis facing the surface of the handrail 30 so as to surround the surface of the handrail 30. , And ultraviolet LED support members 422 that support the ultraviolet light emitting diodes 421, 421,... Although not shown in FIG. 5, the ultraviolet LED support member 422 is fixed and held on side walls 45 d and 45 e (described later) of the receiver 45. The ultraviolet light emitting diodes 421, 421,... Are connected to a power source (not shown), and the ultraviolet light emitted from the ultraviolet light emitting diodes 421, 421,. As a result, the photocatalyst contained in the slurry liquid 417 attached to the surface of the handrail 30 is excited. As the ultraviolet light emitting diodes 421, 421,..., A known ultraviolet light emitting wavelength having a wavelength for exciting the photocatalyst contained in the slurry liquid 417, for example, a wavelength of 250 to 400 nm, preferably 300 to 400 nm, particularly preferably 360 to 400 nm. UV LEDs can be used without any particular limitation. In the photocatalyst excitation means 42, by using the ultraviolet light emitting diodes 421, 421,. The long operating life of the light source can reduce the operating cost. Furthermore, a discharge tube light source such as a low-pressure mercury lamp requires a warm-up operation for a certain period of time (the length varies depending on the light source) until the intensity of the ultraviolet light is stabilized to a sufficient value after the power is turned on. Since the light emitting diode can irradiate ultraviolet light having a stable intensity immediately after the power is turned on, it can sufficiently follow the control of the operation and stop of the passenger conveyor by the combination with the human sensors 19a and 19b described later.

Photocatalysts such as titanium oxide generate active oxygen species such as hydroxy radicals (.OH) and superoxide anions (.O ₂ ⁻ ) from water, oxygen, and the like when irradiated with excitation light. Among these, hydroxyl radicals generated from water have a large oxidizing power and easily break the bonds in the molecules of organic compounds, which are the main components of dirt attached to the handrail 30, so that they can be decomposed and disinfected by photocatalysts. The contribution of is considered to be large. The handrail 30 is irradiated with excitation light from the photocatalyst excitation means 42 in a state where the slurry liquid 417 adheres to the surface thereof, that is, in a state where water and photocatalyst particles coexist on the surface of the handrail 30, thereby decomposing and sterilizing. Since the hydroxy radical that greatly contributes to the function is efficiently generated, it is possible to more effectively exhibit the decomposition and bactericidal action of the photocatalyst.

  The slurry removing unit 43 removes the slurry liquid 417 from the surface of the handrail 30 that has passed through the photocatalyst excitation unit 42. The slurry removing means 43 is a water washing means for washing the surface of the handrail with water, and the surface of the handrail 30 is washed by spraying pressurized water (high pressure water) onto the surface of the handrail 30. This is high-pressure water washing means for removing the slurry liquid 417 from the surface of the rail 30. FIG. 6 is a cross-sectional view taken along the line BB in FIG. 4 and schematically illustrates the slurry removing unit 43. 6 also shows the bottom 45a of the receiver 45 and a pair of side walls 45d, 45e. The slurry removing unit 43 includes a water tank 431, a water pump 432 driven by a motor (not shown), and a nozzle 433 connected to the water pump 432 via a pipe 435. The water pumped out from the water tank 431 is pressurized by the water pump 432 to become high-pressure water, and the high-pressure water is guided to the nozzle 433 through the pipe 435 and is directed from the opening of the nozzle 433 toward the surface of the handrail 30. Discharged. The high-pressure water is discharged from the opening of the nozzle 433 as a high-pressure water flow 434 so as to spread in a fan shape (planar radial shape), whereby the slurry liquid 417 is washed off from the surface of the handrail 30. A valve 436 is provided in the middle of the pipe 435 extending from the water pump 432 to the nozzle 433, and the pipe 435 is shut off when the operation of the handrail sterilizer 40 is stopped. As the water feed pump 432 and the nozzle 433 of the slurry removing means (water washing means) 43, a pump and a nozzle having a publicly known configuration can be used without particular limitation as used in a high-pressure water washing apparatus.

  The receiver 45 is a container that receives and collects the removed slurry and washing water (hereinafter sometimes referred to as “waste slurry”), and is discharged from the bottom 45 a and the nozzle 413 of the slurry applying means 41. The front wall 45b erected from the bottom 45a so as to prevent the slurry liquid 417 from scattering to the outside, the rear wall 45c erected at the end of the bottom 45 opposite to the front wall 45b, and the guide rail 30 And a pair of side walls 45d and 45e (not shown in FIG. 4) standing from the bottom 45a so as to prevent leakage of water and photocatalyst particles in the width direction. FIG. 7 is a view taken along the line CC of FIG. 4, and the shape of the front wall 45 b of the receiver 45 appears. FIG. 8 is a DD arrow view of FIG. 4, and the shape of the rear wall 45c of the receiver 45 appears. The bottom portion 45a of the receiver 45 is provided with a water collection portion 45f that is recessed from other portions of the bottom portion 45a. The inner surface of the bottom portion 45a collects waste slurry in the water collection portion 45f, and is directed toward the water collection portion 45f. Is inclined. One end of the pipe 49a is opened at the bottom of the water collecting section 45f, and the waste slurry collected in the water collecting section 45f is guided to a waste slurry tank (not shown) or the slurry regenerating means 46 through the pipe 49a. . The waste slurry guided to the waste slurry tank (not shown) may be periodically taken out and regenerated outside, but when the slurry liquid is a mixture of water and photocatalyst and the handrail is less contaminated. May be provided with a slurry regeneration means 46, and the photocatalyst separated thereby may be reused.

  FIG. 9 is a view taken along the line E-E in FIG. 4 and shows a pair of side walls 45d and 45e, a rear wall 45c, a bottom 45a, and draining means 44 of the receiver 45. The draining means 44 removes water remaining on the surface of the handrail 30 from the surface of the handrail 30 after high-pressure water washing by the slurry removing means (water washing means) 43. The draining means 44 is a scraper provided so that its tip comes into contact with the surface of the handrail 30, and is fixed to a pair of side walls 45 d and 45 e of the receiver 45. The tip of the draining means 44 that is a scraper that contacts the handrail 30 is made of a soft resin such as silicone resin so as not to damage the surface of the handrail 30. The water remaining on the surface of the handrail 30 after passing through the slurry removing means 43 is swept away by the draining means 44 that is a scraper and removed from the surface of the handrail 30, and then flows down the scraper surface and flows into the water receiver 45. Collected in the water collecting section 45f.

  Please refer to FIG. 3 and FIG. 4 again. The slurry regenerating unit 46 supplies at least a part of the waste slurry collected in the receiver 45 to the slurry applying unit 41. The slurry regenerating unit 46 includes a concentrating unit 461 for removing a part of water and / or an aqueous medium from the waste slurry collected in the receiver 45. The concentrating means 461 supplies water and / or an aqueous medium removed from the waste slurry collected in the receiver 45 to the slurry removing means (water washing means) 43. The waste slurry collected in the receiver 45 is guided to the concentration means 461 through the pipe 49a. As shown in FIG. 4, the concentration means 461 includes a filter 462, a first chamber 461a and a second chamber 461b separated by the filter 462, an agitator 463 provided in the first chamber 461a, and piping. It has a water supply pump 464 connected to the second chamber through 49b and a slurry liquid supply pump 465 connected to the first chamber through a pipe 49c. The waste slurry guided through the pipe 49 a is added to the slurry removing means (water washing means) 43 in addition to the water and / or aqueous medium and photocatalyst particles contained in the initial slurry liquid 417 discharged from the slurry applying means 41. Since the derived water is contained, it is a diluted slurry liquid having a lower concentration than the initial slurry liquid 417. The waste slurry is introduced into the first chamber 461 a of the concentrating means 461 and stirred by the stirring device 463 to generate a flow parallel to the filter 462. By operating the water pump 464 connected to the second chamber 461b, a pressure difference is generated across the filter 462 between the first chamber 461a and the second chamber 461b. Only the aqueous medium passes through the filter 462 and moves from the first chamber 461a to the second chamber 461b. The water and / or the aqueous medium moved to the second chamber 461b is transferred to the water tank 431 of the slurry removing means (water washing means) 43 through the pipe 49b by the water supply pump 464. As a result, a slurry liquid in which the content of water and / or the aqueous medium is reduced (ie, concentrated) remains in the first chamber 461a. The concentrated slurry remaining in the first chamber 461a is transferred to the slurry tank 411 of the slurry applying unit 41 through the pipe 49c by the slurry feeding pump 465. By this series of slurry regeneration processes, the concentration of the slurry liquid 417 discharged by the slurry applying means 43 is kept within a certain range. Further, the water and / or the aqueous medium in the water tank 431 of the slurry removing means (water washing means) 43 is not depleted.

  As the filter 462, a filter that can filter out the photocatalyst particles contained in the slurry liquid 417 can be employed without any particular limitation. As the stirrer 463, a known rotary stirrer such as an impeller that has sufficient ability to stir the slurry 417 to such an extent that crossflow filtration can be used without particular limitation. As the water supply pump 464, a known water pump capable of generating a pressure difference that can be cross-flow filtered can be used without particular limitation. As the slurry feed pump 465, a known pump capable of feeding the slurry solution 417 can be used without particular limitation.

By using a photocatalyst as described above, it is possible to perform sterilization while removing dirt from the handrail. In order to further enhance the bactericidal effect, in the first aspect of the present invention, one or more light emitting deep ultraviolet rays (preferably ultraviolet rays having a wavelength of 200 to 350 nm, more preferably ultraviolet rays having a wavelength of 260 to 320 nm) having a bactericidal action are emitted. A deep ultraviolet light emitting diode is further provided, and (1) the surface of the handrail 30 to which the slurry liquid 417 is attached is irradiated with deep ultraviolet light emitted from the deep ultraviolet light emitting diode, or (2) the slurry liquid 417 by the slurry removing means 43. It is preferable to irradiate the surface of the handrail 30 after the removal of the deep ultraviolet light emitted from the ultraviolet light emitting diode. From the viewpoint that more reliable sterilization can be performed, it is particularly preferable to adopt the form (2).
In the case of adopting the form (1) above, in the photocatalyst excitation means 42 shown in FIG. 5, a part of the ultraviolet light emitting diodes 421, 421,. A deep ultraviolet light emitting diode may be substituted.
Further, in the case of adopting the form (2), a deep ultraviolet light irradiation means 47 as shown in FIG. 10 may be installed on the downstream side of the draining means 44. In this case, the installation place of the deep ultraviolet light irradiation means 47 may be inside or outside the receiver 45.
FIG. 10 is a cross-sectional view for schematically explaining the deep ultraviolet light irradiation means 47. In FIG. 10, the direction perpendicular to the paper surface is the moving direction of the handrail 30. As shown in FIG. 10, the deep ultraviolet light irradiation means 47 is a deep ultraviolet light emission having an emission wavelength of 260 to 320 nm, which is arranged with its optical axis facing the surface of the handrail 30 so as to surround the surface of the handrail 30. , And a deep ultraviolet LED support member 472 that supports the deep ultraviolet light emitting diodes 471, 471,. The deep ultraviolet light emitting diodes 471, 471,... Are connected to a power source (not shown), and the deep ultraviolet light emitted from the deep ultraviolet light emitting diodes 471, 471,. The surface of the rail 30 is sterilized. As the deep ultraviolet light emitting diodes 471, 471,..., Known deep ultraviolet LEDs having an emission wavelength of 260 to 320 nm can be employed without any particular limitation.

  Operation control of the handrail sterilizer 40 will be described with reference to FIGS. 11 and 12. FIG. 11 is a diagram showing the control unit 50 in FIG. 4 without omitting it. The control unit 50 is a part of the passenger conveyor control panel 20 and can be preferably configured by, for example, a microcomputer including a central processing unit (CPU) that executes a control program, a memory that stores a control program, and the like. The control part 50 can acquire the information regarding the driving | running state of the passenger conveyor 100, the detection result by the human sensitive sensor 19a, 19b, etc. as a part of the passenger conveyor control board 20, and the driving | operation start of the passenger conveyor 100 A command and an operation stop command can be transmitted. The control unit 50 has a timer function. Further, the control unit 50 includes a slurry feeding pump 412, a valve 415, and a slurry stirring device 416 of the slurry applying unit 41; a photocatalyst exciting unit 42; a water feeding pump 432 and a valve 436 of the slurry removing unit (water washing unit) 43; It is electrically connected to the stirring device 463, the water supply pump 464, and the slurry liquid supply pump 465 of the regeneration means 46, and a command for controlling these operations can be transmitted. The control unit 50 may be configured as a separate element from the passenger conveyor control panel 20.

  FIG. 12 is a flowchart for explaining a processing routine S10 for controlling the operation of the handrail sterilizer 40. The processing routine S10 is read from the memory at predetermined time intervals by the control means 50 and executed by the CPU. As shown in FIG. 12, the processing routine S10 has steps S11 to S16.

  First, it is determined whether or not a passenger has come to the entrance 12a (see FIG. 1) on the upper floor (step S11). This determination is made based on the detection signal of the human sensor 19b. If a negative determination is made in step S11, that is, if no passenger has arrived at the entrance / exit 12a on the upper floor, the processing is terminated as it is. If an affirmative determination is made in step S11, that is, if a passenger has arrived at the entrance / exit 12a on the upper floor, the descending operation of the passenger conveyor 100 that has been in an operation suspended state is started (step S12), and then the hand The handrail 30 is sterilized by the rail sterilizer 40 (step S13). Specifically, the valve 415 of the slurry application unit 41 is opened, and the slurry feed pump 412 is operated to discharge the slurry solution 417 from the nozzle 413 to the surface of the handrail 30; the ultraviolet light emitting diodes 421 and 421 of the photocatalyst excitation unit 42 Is turned on; the valve 436 of the slurry removing means (water washing means) 43 is opened, and the water pump 432 is operated to eject high-pressure water from the nozzle 433 to the surface of the handrail 30; the stirring device 463 of the slurry regenerating means 46 Then, the water feed pump 464 and the slurry feed pump 465 are operated to start the regeneration of the waste slurry collected in the water collecting part 45f of the water receiver 45.

  In subsequent step S14, it is determined whether or not a predetermined time has elapsed since the last passenger detection. This determination is made based on the count value of the timer included in the control unit 50. The timer included in the control unit 50 initializes the count value and starts counting every time a new passenger is detected by the human sensor 19a at the entrance 12a on the upper floor. Thereby, the count value of the timer included in the control unit 50 represents the time elapsed since the last passenger detection. The predetermined time in step S <b> 14 is set to a time required for the endless handrail 30 to move around at least one turn, and the time required for such a turn around one turn is known for the passenger conveyor 100. Information is stored in advance in the memory of the control unit 50. However, the predetermined time in step S14 may be a time during which the handrail 30 makes one or more rounds of movement.

  Since the operation of the handrail sterilizer 40 is continued until a predetermined time has elapsed since the last passenger detection in step S14, the entire surface of the endless handrail 30 is sterilized by the handrail sterilizer 40. And when affirmation judgment that predetermined time passed since the last passenger detection in Step S16 is made, sterilization of handrail 30 by handrail sterilizer 40 is stopped. Specifically, the slurry feed pump 412 of the slurry application unit 41 is stopped and the valve 415 is closed; the ultraviolet light emitting diodes 421, 421,... Of the photocatalyst excitation unit 42 are turned off; The water supply pump 432 is stopped and the valve 436 is closed; the agitation device 463, the water supply pump 464, and the slurry liquid supply pump 465 of the slurry regenerating means 46 are stopped to stop the regeneration of the waste slurry. And the operation | movement of the drive unit of the passenger conveyor 100 is stopped and it enters into an operation stop state (step S16).

  In the processing routine S10 described above, the passenger conveyor 100 is operated only when the passenger conveyor 100 needs to be operated, and the handrail 30 is sterilized at the same time. At this time, since the handrail sterilizer 40 uses ultraviolet light emitting diodes 421, 421,... In the photocatalyst excitation means 42, immediately follows the handrail sterilization start command in step S13, and generates stable intensity excitation light. The surface of the handrail 30 to which the slurry liquid 417 is attached can be irradiated.

  In the above description related to the present invention, the handrail sterilization apparatus 40 in which the slurry applying unit 41 has the single nozzle 413 is exemplified, but the present invention is not limited to this form. The number and arrangement of nozzles (discharge ports) included in the slurry application unit can be appropriately selected according to the shape and size of the handrail.

  In the above description regarding the present invention, the handrail sterilization apparatus 40 in the form in which the slurry liquid 417 discharged from the nozzle 413 of the slurry application unit 41 directly adheres to the surface of the handrail 30 is illustrated, but the present invention is limited to this form. Not. For example, a roller such as a roll coater or a gravure coater is provided that rotates in contact with the surface of the handrail. The slurry liquid is supplied to the surface of the roller, and the slurry liquid on the roller surface is rotated by rotating the roller. It is also possible to provide a handrail sterilization apparatus including a slurry application unit that is attached to the rail surface. Further, for example, a handrail sterilization apparatus in which a slot die coater or the like is provided as a slurry application unit may be used.

  In the above description regarding the present invention, the handrail sterilization apparatus 40 in which the slurry removing means 43, which is a washing means, has a single nozzle 433 is exemplified, but the present invention is not limited to this form. The number and arrangement of nozzles (discharge ports) included in the water washing means can be appropriately selected according to the shape and size of the handrail.

  In the above description related to the present invention, the handrail sterilization apparatus 40 in which the slurry removing means 43 is a high-pressure water washing means has been exemplified, but the present invention is not limited to this form. For example, the slurry removing means may be a handrail sterilizer that removes slurry liquid from the surface of the handrail by the flow of unpressurized water. Further, for example, a handrail sterilization apparatus in which the slurry removing means blows and removes the slurry liquid from the surface of the handrail with compressed air can be used. Further, for example, a handrail sterilization apparatus in which the slurry removing means sucks and removes the slurry liquid from the surface of the handrail can be used. Moreover, it is also possible to set it as the handrail sterilizer of the form provided with the slurry removal means which combined the several removal method.

  In the above description related to the present invention, the form in which the handrail sterilizer 40 is applied to the passenger conveyor 100 including the handrail 30 having the barrier coat layer 33 formed on the surface has been described as an example. It is not limited. For example, it is also possible to apply the handrail sterilizer of the present invention to a passenger conveyor having a handrail having no barrier coat layer 33 in FIG.

  In the above description regarding the present invention, the handrail sterilization apparatus 40 having the drainage means 43 that is a scraper has been illustrated and described, but the present invention is not limited to this form. For example, instead of a scraper, it is also possible to adopt a draining means in which the water on the surface of the handrail is blown away by blowing compressed air. It is also possible to use a combination of spraying compressed air and sweeping with a scraper. In addition, after removing the water through the handrail sterilization device provided in the vicinity of the lower handrail entrance, it is left to natural drying using the time until it comes out from the upper handrail entrance, and the draining means is not provided. It is also possible to use a handrail sterilizer.

  In the above description of the present invention, the slurry regeneration means 46 for reusing the waste slurry recovered by the receiver 45 is the concentration means 461 for removing a part of water and / or the aqueous medium from the recovered waste slurry. Although the handrail sterilization apparatus 40 of the form which supplies and the water and / or aqueous medium which the concentration means 461 removed from the waste slurry is supplied to the slurry removal means (water washing means) 43 was illustrated and demonstrated, this invention is in the said form. It is not limited. According to the handrail sterilizer 40 of the said form, although it is possible to perform slurry removal by water washing or high-pressure water washing also to the handrail of the passenger conveyor installed in the place where utilization of tap water is difficult, passengers When the conveyor is installed in a place where tap water can be used, water is directly supplied from the water supply to the water washing means as the slurry removing means, and the water removed by the concentrating means from the recovered waste slurry is directly discharged into the sewer. It is also possible to provide a handrail sterilizing apparatus that discharges the water into the handrail. Further, when the slurry removing means does not include the water washing means, the waste slurry recovered by the receiver has the same concentration as the initial slurry liquid, so that it is directly returned to the slurry applying means without passing through the concentration means. It is also possible to supply.

  In the above description regarding the present invention, human sensors 19a and 19b each having a pair of support columns provided across the entrance and exit, a light emitter provided on one of the pair of support columns, and a light receiver provided on the other side. However, the present invention is not limited to this embodiment. In the handrail sterilizer and passenger conveyor of the present invention, it is possible to employ, for example, an infrared sensor provided on the ceiling or the like as a human sensor, and detect a user by image analysis using an imaging camera. It is also possible to use a device that does this.

  In the above description of the present invention, the passenger conveyor 100 that is an escalator that connects the upper floor and the lower floor and the handrail sterilizer 40 that is installed in the passenger conveyor 100 have been illustrated and described. It is not limited. The handrail sterilizer of the present invention can also be applied to passenger conveyors other than escalators (for example, so-called moving sidewalks that move passengers in the horizontal direction), and passenger conveyors of the present invention are passenger conveyors other than escalators. There may be.

DESCRIPTION OF SYMBOLS 100 Passenger conveyor 11 Support structure part 11a Upper support structure part 11b Lower support structure part 11c Inclined support structure part 12a Upper floor entrance / exit 12b Lower floor entrance / exit 13 Step 14 Drive sprocket 15 Drive sprocket 16 Step chain 17 Side wall 17
18a Upper hand rail entrance 18b Lower hand rail entrance 19a, 19b Human sensor 20 Passenger conveyor control panel 30 Hand rail 31 Guide rail 32 Hand rail base material 33 Barrier coat layer 40 Hand rail sterilizer 41 Slurry application means 411 Slurry tank 412 Slurry liquid feed pump 413 Nozzle 414 Piping 415 Valve 416 Slurry stirring device 417 Slurry liquid 42 Photocatalyst excitation means 421 Ultraviolet light emitting diode 422 Ultraviolet LED support member 43 Slurry removal means (water washing means)
431 Water tank 432 Water supply pump 433 Nozzle 434 High pressure water flow 435 Piping 436 Valve 44 Draining means 45 Receiving unit 45a Bottom 45b Front wall 45c Rear wall 45d, 45e Side wall 45f Water collecting part 46 Slurry regeneration means 461 Concentration means 461a First chamber 461a Second chamber 462 Filter 463 Stirrer 464 Water feed pump 465 Slurry feed pump 47 Deep ultraviolet light irradiation means 471 Deep ultraviolet light emitting diode 472 Deep ultraviolet LED support member 49a, 49b, 49c Piping 50 Control unit

Claims (7)

A device for sterilizing an endless handrail that moves around in synchronism with the steps of a passenger conveyor,
Slurry application means for attaching a slurry liquid containing water and / or an aqueous medium and photocatalyst particles dispersed in the water and / or the aqueous medium to the surface of the handrail;
The photocatalyst is excited by irradiating the surface of the handrail to which the slurry liquid is attached with ultraviolet light emitted from the ultraviolet light emitting diode. The ultraviolet light emitting diode emits ultraviolet light having a wavelength that excites the photocatalyst. Photocatalytic excitation means,
A handrail sterilizer for passenger conveyor, comprising slurry removal means for removing the slurry liquid from the surface of the handrail that has passed through the photocatalyst excitation means. It further comprises one or more deep ultraviolet light emitting diodes that emit deep ultraviolet light having bactericidal action,
(1) The surface of the handrail to which the slurry liquid is attached is irradiated with deep ultraviolet light emitted from the deep ultraviolet light emitting diode, or (2) the handrail after the slurry is removed by the slurry removing means Irradiating the surface with deep ultraviolet light emitted from the ultraviolet light emitting diode;
The handrail sterilizer according to claim 1. It further has a receptacle for receiving and collecting the slurry liquid removed from the surface of the handrail by the slurry removing means.
The handrail sterilizer according to claim 1 or 2. The slurry removing means includes water washing means for washing the surface of the handrail with water.
The handrail sterilizer according to any one of claims 1 to 3. A sensor for detecting a passenger entering the passenger conveyor;
A controller for starting and ending the operation of the passenger conveyor,
The controller is
The sensor starts the operation of the handrail sterilizer by detecting a passenger,
Stopping the operation of the handrail sterilizer when the sensor does not detect a passenger for a predetermined time;
The handrail sterilizer according to any one of claims 1 to 4. The predetermined time is a time required for the endless handrail to move around at least once.
The handrail sterilizer according to claim 5. A step of moving with passengers,
A pair of endless handrails arranged on both sides of the step and moving around in synchronism with the step;
A passenger conveyor comprising the handrail sterilizer according to any one of claims 1 to 6.

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