FIELD OF THE INVENTION
[0001] The present invention relates to cleaning equipment, and more particularly to a mobile
sterilization vehicle which is capable of washing ground/floor, providing cleaned
airs, and sterilizing.
BACKGROUND OF THE INVENTION
[0002] A conventional floor scrubber is applied to clean ground/floor and to absorb foul
water, and the conventional washing machine is in types of semi-automatic floor scrubber,
automatic floor scrubber, hand-push scrubber, driving scrubber.
[0003] However, the conventional floor scrubber cannot sterilize and disinfect to virus,
such as COVID-19, SARS and Influenza.
[0004] The present invention has arisen to mitigate and/or obviate the afore-described disadvantages.
[0005] DE10142192C1 discloses a mobile sterilization vehicle according to the preamble of claim 1i.
SUMMARY OF THE INVENTION
[0006] The primary aspect of the present invention is to provide, according to claim 1,
a mobile sterilization vehicle which is capable of washing ground/floor, providing
cleaned airs, and sterilizing.
[0007] To obtain the above-mentioned aspects, a mobile sterilization vehicle provided by
the present invention contains: a body, a drive system, a water absorption rake, a
brush disc, a lid, an air inlet, a sterilization structure, an air outlet, an air
conduit, a filter, a storage tank, an accommodation box, and a power supply.
[0008] The drive system is disposed on a front end of the body.
[0009] The water absorption rake is fixed on a rear end of the body.
[0010] The brush disc is mounted on a bottom of the body.
[0011] The lid is arranged on a top of the rear end of the body.
[0012] The air inlet is defined on a rear end of the lid and located above the rear end
of the body.
[0013] The sterilization structure is accommodated in the cover, is located above the rear
end of the chassis, faces the drive system, and communicates with the air inlet.
[0014] The air outlet is defined on a top of the lid.
[0015] The air conduit communicates with the sterilization structure and the air outlet.
[0016] The filter is fixed in an air conduit and is located above the sterilization structure,
and the air outlet is located above the filter.
[0017] The storage tank is secured on the body and is in communication with the brush disc.
[0018] The accommodation box is disposed on the body and is in communication with the sterilization
structure.
[0019] The power supply is fixed on the body and is electrically connected with the drive
system and the sterilization structure.
[0020] In an embodiment, the sterilization structure includes a motor, a fan, a disinfecting
tube, a main controller configured to control the motor and the fan, a heater controller,
a delivery pipe configured to deliver chlorine dioxide, a control valve, a heating
ring, a fixer configured to fix the heating ring, a stop mesh element, an opening,
and a rotatable spray ring.
[0021] In the above-mentioned embodiment, the motor is electrically connected with the power
supply, a front end of the fan is connected with the motor, and a rear end of the
fan is coupled with the disinfecting tube. The main controller and the heater controller
are mounted on an outer wall of the disinfecting tube and are electrically connected
with the power supply. The delivery pipe is in communication with the accommodation
box and the disinfecting tube, the control valve is fixed on a predetermined position
of the delivery pipe and is controlled by the heater controller, and the fixer is
secured on an end of the disinfecting tube away from the fan, the heating ring is
disposed on an end of the fixer away from the disinfecting tube. The stop mesh element
is mounted on an outer wall of an end of the heating ring away from the fixer, the
central opening is defined on the end of the heating ring away from the fixer, and
the central opening has a through hole formed on an inner wall thereof. The rotatable
spray ring is fixed on an end of the central opening away from the heating ring.
[0022] Preferably, the filter is a High-Efficiency Particulate Air (HEPA) filter.
[0023] Preferably, the stop mesh element has 400 meshes.
[0024] Preferably, the rotatable spray ring has a coupling tube and multiple aerosol nozzles,
the coupling tube passes through the through hole of the central opening and communicates
with the accommodation box, and the multiple aerosol nozzles are spaced angularly,
face inward, and communicate with the coupling tube.
[0025] Preferably, the storage tank and the accommodation box are defined between the drive
system and the water absorption rake.
[0026] Preferably, the storage tank includes a detachable cap, and the accommodation box
includes a removable cover.
[0027] Preferably, the chassis has a connection tab connected on the rear end of the lid
by a rotary shaft so as to uncover and cover the lid.
BRIEF DESCRIPTION OF THE DRAWINGS
[0028]
FIG. 1 is a perspective view showing the assembly of a mobile sterilization vehicle
according to a preferred embodiment of the present invention.
FIG. 2 is a perspective view showing the assembly of a part of the mobile sterilization
vehicle according to the preferred embodiment of the present invention.
FIG. 3 is a side plan view showing a part of the assembly of the mobile sterilization
vehicle according to the preferred embodiment of the present invention.
FIG. 4 is a side plan view showing the operation of the mobile sterilization vehicle
according to the preferred embodiment of the present invention.
FIG. 5 is another side plan view showing the operation of the mobile sterilization
vehicle according to the preferred embodiment of the present invention.
DETAILED DESCRIPTION OF THE FIRST EMBODIMENTS
[0029] With reference to FIG. 1, a mobile sterilization vehicle 100 according to a preferred
embodiment of the present invention comprises: a body 1, a drive system 2, a water
absorption rake 3, a brush disc 4, an air inlet 5, a sterilization structure 200,
a filter 6, an air outlet 7, a storage tank 8, an accommodation box 9, and a power
supply P.
[0030] Referring to FIG. 1, the body 1 includes a chassis 101 and a wheel set 102 (only
a wheel of the wheel set is shown).
[0031] The drive system 2 is disposed on a front end of the body 1 (i.e. the chassis 101)
and is electrically connected with the power supply P so as to control the body 1
to move.
[0032] The water absorption rake 3 is fixed on a rear end of the body 1 (i.e. the chassis
101).
[0033] The brush disc 4 is mounted on a bottom of the body 1 (i.e. the chassis 101).
[0034] The storage tank 8 is secured on the body 1 (i.e. the chassis 101) and is in communication
with the brush disc 4, such that after the drive system 2 is operated by a user to
control the body 1 to move, the storage tank 8 supplies waters to the brush disc 4
so that the brush disc 4 cleans and washes a ground/floor, and the water absorption
rake 3 scraps and absorbs the waters on the ground/floor.
[0035] In another embodiment, the body 100 further includes a lid 12 arranged on a top of
the rear end of the chassis 101 and configured to cover and uncover the chassis 101,
thus replacing or maintaining the sterilization structure.
[0036] The air inlet 5 is defined on a rear end of the lid 12 and is located above the water
absorption rake 3.
[0037] In another embodiment, as shown in FIG. 5, the chassis 101 has a connection tab 103
connected on the rear end of the lid 12 by a rotary shaft 10 so as to uncover and
cover the lid 12.
[0038] The sterilization structure 200 is accommodated in the lid 12, is located above the
rear end of the chassis 101, faces the drive system 2, and communicates with the air
inlet 5.
[0039] The filter 6 is fixed in an air conduit 11 and is located above the sterilization
structure 200. In another embodiment, the filter 6 is a High-Efficiency Particulate
Air (HEPA) filter.
[0040] The air outlet 7 is defined on a top of the lid 12 and is located above the filter
6.
[0041] The accommodation box 9 is disposed on the body 1 (i.e. the chassis 101) and is in
communication with the sterilization structure 200. In another embodiment, the storage
tank 8 and the accommodation box 9 are defined between the drive system 2 and the
water absorption rake 3. The storage tank 8 includes a detachable cap 801, and the
accommodation box 9 includes a removable cover 901. Thereby, the detachable cap 801
is opened so as to supplement the waters into the storage tank 8 after running out
of the waters and to cover the storage tank 8 after feeding the new waters. After
running out chlorine dioxide, the detachable cap 801 is opened so as to supplement
the chlorine dioxide into the accommodation box 9, and then the removable cover 901
is covered to the accommodation box 9.
[0042] The power supply P is fixed on the body 1 (i.e. the chassis 101) and is electrically
connected with the drive system 2 and the sterilization structure 200.
[0043] The body 100 includes the air conduit 11 which communicates with the sterilization
structure 200 and the air outlet 7 so as to guide clean airs out of the air outlet
7 via the air conduit 11, thus cleaning airs.
[0044] As shown in FIG. 2, the sterilization structure 200 includes a motor 201, a fan 202,
a disinfecting tube 203, a main controller 204 configured to control the motor 201
and the fan 202, a heater controller 205, a delivery pipe 206 configured to deliver
chlorine dioxide, a control valve 207, a heating ring 209, a fixer 208 configured
to fix the heating ring 209, a stop mesh element 210, an opening 211, and a rotatable
spray ring 212.
[0045] The motor 201 is electrically connected with the power supply P. A front end of the
fan 202 is connected with the motor 201, and a rear end of the fan 202 is coupled
with the disinfecting tube 203. The main controller 204 and the heater controller
205 are mounted on an outer wall of the disinfecting tube 203 and are electrically
connected with the power supply P. In another embodiment, as illustrated in FIG. 2,
the main controller 204 is mounted on the outer wall of the disinfecting tube 203
opposite to the heater controller 205. The delivery pipe 206 is in communication with
the accommodation box 9 and the disinfecting tube 203. The control valve 207 is fixed
on a predetermined position of the delivery pipe 206 and is controlled by the heater
controller 205 so as to control the chlorine dioxide to flow into the disinfecting
tube 203. The fixer 208 is secured on an end of the disinfecting tube 203 away from
the fan 202, the heating ring 209 is disposed on an end of the fixer 208 away from
the disinfecting tube 203, and the stop mesh element 210 is mounted on an outer wall
of an end of the heating ring 209 away from the fixer 208. In another embodiment,
the stop mesh element 210 has 400 meshes. The central opening 211 is defined on the
end of the heating ring 209 away from the fixer 208, and the central opening 211 has
a through hole 213 formed on an inner wall thereof. The rotatable spray ring 212 is
fixed on an end of the central opening 211 away from the heating ring 209.
[0046] With reference to FIG. 2, the rotatable spray ring 212 has a coupling tube 214 and
multiple aerosol nozzles 215. The coupling tube 214 passes through the through hole
213 of the central opening 211 and communicates with the accommodation box 9, and
the multiple aerosol nozzles 215 are spaced angularly, face inward, and communicate
with the coupling tube 214. The heater controller 205 is turned on or off to control
the heating ring 209 to heat up to 100 °C, and the heater controller 205 also controls
the control valve 207 so that the multiple aerosol nozzles 215 spray aerosol.
[0047] Referring to FIGS. 3 and 4, in operation, dirty airs flow into the sterilization
structure 200 from the air inlet 5, in other words, the dirty airs in which bacteria
and virus contain are drawn into the disinfecting tube 203 by the fan 202 and are
discharged to the central opening 211. The heating ring 209 heats the stop mesh element
210 to 100 °C so that the stop mesh element 210 heats and stops the bacteria and the
virus, thus obtaining disinfection. The multiple aerosol nozzles 215 of the rotatable
spray ring 212 spray the chlorine dioxide to sterilize the dirty airs, and the HEPA
filter 6 filters the dirty airs, thus producing clean airs. Thereafter, the clean
airs are discharged out of the air outlet 7 via the air conduit 11, thus eliminating
the virus, such as COVID-19, SARS or Influenza.
[0048] While the first embodiments of the invention have been set forth for the purpose
of disclosure, modifications of the disclosed embodiments of the invention as well
as other embodiments thereof may occur to those skilled in the art. The scope of the
claims should not be limited by the first embodiments set forth in the examples, but
should be given the broadest interpretation consistent with the description as a whole.
1. A mobile sterilization vehicle (100) comprising:
a body (1) with a chassis;
a drive system (2) disposed on a front end of the body (1);
a water absorption rake (3) fixed on a rear end of the body (1);
a brush disc (4) mounted on a bottom of the body (1);
a water storage tank (8), for supplying water to the brush disc (4), secured on the
body (1) and being in communication with the brush disc (4);
characterized in that the mobile sterilization vehicle (100) further comprises:
a lid (12) arranged on a top of the rear end of the body (1);
an air inlet (5) defined on a rear end of the lid (12) and located above the rear
end of the body (1);
a sterilization structure (200), for sterilizing dirty airs flowing into the air inlet
(5), accommodated in the lid (12), located above the rear end of the chassis, facing
the drive system (2), and communicating with the air inlet (5);
an air outlet (7) defined on a top of the lid (12);
an air conduit (11) communicating with the sterilization structure (200) and the air
outlet (7);
a filter (6) fixed in the air conduit (11) and located above the sterilization structure
(200), and the air outlet (7) being located above the filter (6);
an accommodation box (9), for accomodating sterilization agent delivered for sterilizeing
the airs, disposed on the body (1) and being in communication with the sterilization
structure (100); and
a power supply (P) fixed on the body (1) and electrically connected with the drive
system (2) and the sterilization structure (200).
2. The mobile sterilization vehicle (100) as claimed in claim 1, wherein the sterilization
structure (200) includes a motor (201), a fan (202), a disinfecting tube (203), a
main controller (204) configured to control the motor (201) and the fan (202), a heater
controller (205), a delivery pipe (206) configured to deliver chlorine dioxide, a
control valve (207), a heating ring (209), a fixer (208) configured to fix the heating
ring (209), a stop mesh element (210), an opening (211), and a rotatable spray ring
(212);
wherein the motor (201) is electrically connected with the power supply (P), a front
end of the fan (202) is connected with the motor (201), and a rear end of the fan
(202) is coupled with the disinfecting tube (203), the main controller (204) and the
heater controller (205) are mounted on an outer wall of the disinfecting tube (203)
and are electrically connected with the power supply (P); the delivery pipe (206)
is in communication with the accommodation box (9) and the disinfecting tube (203),
the control valve (207) is fixed on a predetermined position of the delivery pipe
(206) and is controlled by the heater controller (205), the fixer (208) is secured
on an end of the disinfecting tube (203) away from the fan (202), the heating ring
(209) is disposed on an end of the fixer (208) away from the disinfecting tube (203),
and the stop mesh element (210) is mounted on an outer wall of an end of the heating
ring (209) away from the fixer (208), the central opening (211) is defined on the
end of the heating ring (209) away from the fixer (208), and the central opening (211)
has a through hole (213) formed on an inner wall thereof, the rotatable spray ring
(212) is fixed on an end of the central opening (211) away from the heating ring (209).
3. The mobile sterilization vehicle (100) as claimed in claim 1, wherein the filter (6)
is a High-Efficiency Particulate Air (HEPA) filter.
4. The mobile sterilization vehicle (100) as claimed in claim 2, wherein the stop mesh
element (210) has 400 meshes.
5. The mobile sterilization vehicle (100) as claimed in claim 2, wherein the rotatable
spray ring (212) has a coupling tube (214) and multiple aerosol nozzles (215), the
coupling tube (214) passes through the through hole (213) of the central opening (211)
and communicates with the accommodation box (9), and the multiple aerosol nozzles
(215) are spaced angularly, face inward, and communicate with the coupling tube (214).
6. The mobile sterilization vehicle (100) as claimed in claim 1, wherein the storage
tank (8) and the accommodation box (9) are defined between the drive system (2) and
the water absorption rake (3).
7. The mobile sterilization vehicle (100) as claimed in claim 6, wherein the storage
tank (8) includes a detachable cap (801), and the accommodation box (9) includes a
removable cover (901).
8. The mobile sterilization vehicle (100) as claimed in claim 1, wherein the chassis
has a connection tab (103) connected on the rear end of the lid (12) by a rotary shaft
(10) so as to uncover and cover the lid (12).
1. - Mobiles Sterilisationsfahrzeug (100), umfassend:
ein Gehäuse (1) mit einem Fahrgestell;
ein Antriebssystem (2), das an einem vorderen Ende des Gehäuses (1) angeordnet ist;
einen Wasserabsorption-Abstreifer (3), der an einem hinteren Ende des Gehäuses (1)
befestigt ist;
eine Bürstenscheibe (4), die an einem Boden des Gehäuses (1) angebracht ist;
einen Wasserspeichertank (8) zum Zuführen von Wasser zu der Bürstenscheibe (4), der
an dem Gehäuse (1) gesichert ist und mit der Bürstenscheibe (4) in Verbindung ist;
dadurch gekennzeichnet, dass das mobile Sterilisationsfahrzeug (100) ferner Folgendes umfasst:
einen Deckel (12), der auf einer Oberseite des hinteren Endes des Gehäuses (1) angeordnet
ist;
einen Lufteinlass (5), der an einem hinteren Ende des Deckels (12) definiert ist und
sich oberhalb des hinteren Endes des Gehäuses (1) befindet;
eine Sterilisationsstruktur (200) zum Sterilisieren der verunreinigten Luft, die in
dem Lufteinlass (5) strömt, die im Deckel (12) aufgenommen ist, sich oberhalb des
hinteren Endes des Gehäuses befindet, dem Antriebssystem (2) zugewandt ist und mit
dem Lufteinlass (5) in Verbindung ist;
einen Luftauslass (7), der auf einer Oberseite des Deckels (12) definiert ist;
eine Luftleitung (11), die mit der Sterilisationsstruktur (200) und dem Luftauslass
(7) in Verbindung ist;
einen Filter (6), der in der Luftleitung (11) befestigt ist und sich oberhalb der
Sterilisationsstruktur (200) befindet, und wobei sich der Luftauslass (7) sich oberhalb
des Filters (6) befindet;
einen Aufnahmekasten (9) zum Aufnehmen des Sterilisationsmittels, das zum Sterilisieren
der Luft zugeführt wird, der auf dem Gehäuse (1) angeordnet ist und mit der Sterilisationsstruktur
(100) in Verbindung ist; und
eine Stromversorgung (P), die an dem Gehäuse (1) befestigt und elektrisch mit dem
Antriebssystem (2) und der Sterilisationsstruktur (200) verbunden ist.
2. - Mobiles Sterilisationsfahrzeug (100) nach Anspruch 1, wobei die Sterilisationsstruktur
(200) einen Motor (201), einen Lüfter (202), eine Desinfektionsleitung (203), eine
Hauptsteuerung (204), die konfiguriert ist, um den Motor (201) und das Lüfter (202)
zu steuern, eine Heizungssteuerung (205), ein Zufuhrrohr (206), das konfiguriert ist,
um Chlordioxid zuzuführen, ein Steuerventil (207), einen Heizring (209), eine Fixiervorrichtung
(208), die konfiguriert ist, um den Heizring (209) zu fixieren, ein Anschlagmaschenelement
(210), eine Öffnung (211) und einen drehbaren Sprühring (212) beinhaltet;
wobei der Motor (201) elektrisch mit der Stromversorgung (P) verbunden ist, ein vorderes
Ende des Lüfters (202) mit dem Motor (201) verbunden ist und ein hinteres Ende des
Lüfters (202) mit der Desinfektionsleitung (203) gekoppelt ist, die Hauptsteuerung
(204) und die Heizungssteuerung (205) an einer Außenwand der Desinfektionsleitung
(203) montiert sind und elektrisch mit der Stromversorgung (P) verbunden sind; das
Zufuhrrohr (206) mit dem Aufnahmekasten (9) und der Desinfektionsleitung (203) in
Verbindung ist, das Steuerventil (207) an einer vorbestimmten Position des Zufuhrrohrs
(206) befestigt ist und von der Heizungssteuerung (205) gesteuert wird, die Fixiervorrichtung
(208) an einem von dem Lüfter (202) entfernten Ende der Desinfektionsleitung (203)
gesichert ist, der Heizring (209) an einem von dem Desinfektionsrohr (203) entfernten
Ende der Fixiervorrichtung (208) angeordnet ist, und das Anschlagmaschenelement (210)
an einer Außenwand eines von der Fixiervorrichtung (208) entfernten Endes des Heizrings
(209) montiert ist, die mittlere Öffnung (211) an dem von der Fixiervorrichtung (208)
entfernten Ende des Heizrings (209) definiert ist und die mittlere Öffnung (211) ein
an einer Innenwand davon gebildetes Durchgangsloch (213) aufweist, der drehbare Sprühring
(212) an einem von dem Heizring (209) entfernten Ende der mittleren Öffnung (211)
befestigt ist.
3. - Mobiles Sterilisationsfahrzeug (100) nach Anspruch 1, wobei der Filter (6) ein Hochleistungs-Partikel-
(HEPA)-Filter ist.
4. - Mobiles Sterilisationsfahrzeug (100) nach Anspruch 2, wobei das Anschlagmaschenelement
(210) 400 Maschen aufweist.
5. - Mobiles Sterilisationsfahrzeug (100) nach Anspruch 2, wobei der drehbare Sprühring
(212) eine Kupplungsleitung (214) und mehrere Aerosoldüsen (215) aufweist, die Kupplungsleitung
(214) durch das Durchgangsloch (213) der mittleren Öffnung (211) verläuft und mit
dem Aufnahmekasten (9) in Verbindung ist, und die mehreren Aerosoldüsen (215) winklig
beabstandet sind, nach innen weisen und mit der Kupplungsleitung (214) in Verbindung
sind.
6. - Mobiles Sterilisationsfahrzeug (100) nach Anspruch 1, wobei der Speichertank (8)
und der Aufnahmekasten (9) zwischen dem Antriebssystem (2) und dem Wasserabsorption-Abstreifer
(3) definiert sind.
7. - Mobiles Sterilisationsfahrzeug (100) nach Anspruch 6, wobei der Speichertank (8)
einen abnehmbaren Deckel (801) beinhaltet und der Aufnahmekasten (9) einen abnehmbaren
Deckel (901) beinhaltet.
8. - Mobiles Sterilisationsfahrzeug (100) nach Anspruch 1, wobei das Fahrgestell eine
Verbindungslasche (103) aufweist, die durch eine Drehwelle (10) mit dem hinteren Ende
des Deckels (12) verbunden ist, um den Deckel (12) aufzuklappen und abzudecken.
1. - Véhicule de stérilisation mobile (100) comprenant :
un corps (1) avec un châssis ;
un système de conduite (2) disposé sur une extrémité avant du corps (1) ;
un râteau d'absorption d'eau (3) fixé sur une extrémité arrière du corps (1) ;
un disque de brossage (4) monté sur une partie inférieure du corps (1) ;
un réservoir de stockage d'eau (8), destiné à fournir de l'eau au disque de brossage
(4), fixé sur le corps (1) et en communication avec le disque de brossage (4) ;
caractérisé par le fait que le véhicule de stérilisation mobile (100) comprend en outre :
un couvercle (12) disposé sur une partie supérieure de l'extrémité arrière du corps
(1) ;
une entrée d'air (5) définie sur une extrémité arrière du couvercle (12) et située
au-dessus de l'extrémité arrière du châssis (1) ;
une structure de stérilisation (200), pour stériliser de l'air sale s'écoulant dans
l'entrée d'air (5), reçue dans le couvercle (12), située au-dessus de l'extrémité
arrière du châssis, faisant face au système de conduite (2), et communiquant avec
l'entrée d'air (5) ;
une sortie d'air (7) définie sur une partie supérieure du couvercle (12) ;
un conduit d'air (11) communiquant avec la structure de stérilisation (200) et la
sortie d'air (7) ;
un filtre (6) fixé dans le conduit d'air (11) et situé au-dessus de la structure de
stérilisation (200), et la sortie d'air (7) étant située au-dessus du filtre (6) ;
une boîte de réception (9), pour recevoir un agent de stérilisation délivré pour stériliser
l'air, disposée sur le corps (1) et en communication avec la structure de stérilisation
(100) ; et
une alimentation électrique (P) fixée sur le corps (1) et reliée électriquement au
système de conduite (2) et à la structure de stérilisation (200).
2. - Véhicule de stérilisation mobile (100) selon la revendication 1, dans lequel la
structure de stérilisation (200) comprend un moteur (201), un ventilateur (202), un
tube de désinfection (203), un dispositif de commande principal (204) configuré pour
commander le moteur (201) et le ventilateur (202), un dispositif de commande d'élément
chauffant (205), un tuyau de distribution (206) configuré pour distribuer du dioxyde
de chlore, une vanne de commande (207), un anneau chauffant (209), un dispositif de
fixation (208) configuré pour fixer l'anneau chauffant (209), un élément à mailles
d'arrêt (210), une ouverture (211) et un anneau de pulvérisation rotatif (212) ;
le moteur (201) étant relié électriquement à l'alimentation électrique (P), une extrémité
avant du ventilateur (202) étant reliée au moteur (201), et une extrémité arrière
du ventilateur (202) étant accouplée au tube de désinfection (203), le dispositif
de commande principal (204) et le dispositif de commande d'élément chauffant (205)
étant montés sur une paroi extérieure du tube de désinfection (203) et étant reliés
électriquement à l'alimentation électrique (P) ; le tuyau de distribution (206) étant
en communication avec la boîte de réception (9) et le tube de désinfection (203),
la vanne de commande (207) étant fixée sur une position prédéterminée du tuyau de
distribution (206) et étant commandée par le dispositif de commande d'élément chauffant
(205), le dispositif de fixation (208) étant fixé sur une extrémité du tube de désinfection
(203) à distance du ventilateur (202), l'anneau chauffant (209) étant disposé sur
une extrémité du dispositif de fixation (208) à distance du tube de désinfection (203),
et l'élément à mailles d'arrêt (210) étant monté sur une paroi extérieure d'une extrémité
de l'anneau chauffant (209) à distance du dispositif de fixation (208), l'ouverture
centrale (211) étant définie sur l'extrémité de l'anneau chauffant (209) à distance
du dispositif de fixation (208), et l'ouverture centrale (211) ayant un trou traversant
(213) formé sur une paroi intérieure de celle-ci, l'anneau de pulvérisation rotatif
(212) étant fixé sur une extrémité de l'ouverture centrale (211) à distance de l'anneau
chauffant (209).
3. - Véhicule de stérilisation mobile (100) selon la revendication 1, dans lequel le
filtre (6) est un filtre à particules à haute efficacité (HEPA).
4. - Véhicule de stérilisation mobile (100) selon la revendication 2, dans lequel l'élément
à mailles d'arrêt (210) a 400 mailles.
5. - Véhicule de stérilisation mobile (100) selon la revendication 2, dans lequel l'anneau
de pulvérisation rotatif (212) a un tube de couplage (214) et de multiples buses d'aérosol
(215), le tube de couplage (214) traversant le trou traversant (213) de l'ouverture
centrale (211) et communiquant avec la boîte de réception (9), et les multiples buses
d'aérosol (215) étant espacées angulairement, étant tournées vers l'intérieur et communiquant
avec le tube de couplage (214).
6. - Véhicule de stérilisation mobile (100) selon la revendication 1, dans lequel le
réservoir de stockage (8) et la boîte de réception (9) sont définis entre le système
de conduite (2) et le râteau d'absorption d'eau (3) .
7. - Véhicule de stérilisation mobile (100) selon la revendication 6, dans lequel le
réservoir de stockage (8) comprend un capuchon amovible (801), et la boîte de réception
(9) comprend un capuchon amovible (901).
8. - Véhicule de stérilisation mobile (100) selon la revendication 1, dans lequel le
châssis a une patte de liaison (103) reliée sur l'extrémité arrière du couvercle (12)
par un arbre de rotation (10) de façon à découvrir et recouvrir le couvercle (12).