CN218685383U - Rapid disinfection channel for vehicle - Google Patents

Abstract

The utility model discloses a vehicle rapid disinfection channel, which comprises a channel body, a vehicle channel is arranged in the channel body, a vehicle inlet is arranged at the rear end of the channel body, a vehicle outlet is arranged at the front end of the channel body, a spray disinfection area, a hydroxyl radical strong oxidation gas disinfection area and an atomization disinfection area are sequentially arranged in the channel body from back to front, a spray disinfection device is arranged in the spray disinfection area, the hydroxyl radical strong oxidation gas disinfection area is provided with a hydroxyl radical disinfection module, and an atomization disinfection machine is arranged in the atomization disinfection area; the spraying disinfection area is used for washing and disinfecting vehicles, hydroxyl radicals are generated in the hydroxyl radical strong oxidation gas disinfection area to decompose organic compounds harmful to human bodies and the environment and various known bacteria, viruses and the like, and disinfection liquid is atomized into fog particles in the atomization disinfection area and can be adsorbed on vehicle bodies and various corners to ensure that no dead angle is left in disinfection.

Description

Rapid disinfection channel for vehicle

Technical Field

The utility model relates to a disinfecting equipment field especially relates to a vehicle disinfection passageway.

Background

The new crown epidemic situation is spreading abroad, and the vehicles entering and leaving the international trade are one of the main transportation modes, and the risk of carrying viruses and other harmful organisms and germs through the vehicle box body and tires is increasing. Because the border trade clearance vehicle is large in quantity, the proportion of detecting positive is higher, so need strict care to the disinfection work of clearance vehicle, the disinfection process need accomplish fast, no dead angle, thoroughly, so to disinfection equipment and disinfection technical requirement higher. The traditional killing means has low efficiency, incomplete killing and easy generation of killing dead angles.

Disclosure of Invention

The utility model aims to solve the technical problem that a quick disinfection channel for vehicles, which has high disinfection efficiency and good virus killing effect, is provided.

In order to solve the technical problem, the technical scheme of the utility model is that: the utility model provides a quick disinfection passageway of vehicle, includes the passageway body, be equipped with the vehicle passageway in the passageway body, the rear end of the passageway body is equipped with the vehicle entry, and the front end of the passageway body is equipped with the vehicle export, it sprays disinfection district, hydroxyl free radical strong oxidizing gas disinfection district and atomizing disinfection district to have set gradually in the passageway from the back to the front, it is equipped with the degassing unit that sprays in the disinfection district to spray, hydroxyl free radical strong oxidizing gas disinfection district is equipped with hydroxyl free radical disinfection module, be equipped with the mist disinfection machine in the atomizing disinfection district.

As a preferred technical scheme, the atomizing disinfection machine comprises a spray head, and a spray main machine is connected with a pipeline of the spray head.

As a preferred technical scheme, the atomizing sterilizer further comprises a controller and a sensor for controlling the spraying host, spray posts located on two sides of the vehicle passage are fixedly installed in the passage body, and a plurality of spray heads are installed on the spray posts.

As a preferable technical scheme, the spraying and sterilizing device comprises an upper spraying head positioned at the upper part of the inner cavity of the channel body.

As a preferable technical scheme, the spray disinfection device further comprises a side spray header positioned at the side part of the inner cavity of the channel body and a lower spray header positioned at the bottom of the inner cavity of the channel body and spraying upwards.

According to a preferable technical scheme, a speed bump is arranged at the bottom of an inner cavity of the channel body, a mounting groove is formed in the speed bump, and the lower spray header is mounted in the mounting groove.

As a preferred technical scheme, the hydroxyl radical disinfection module comprises a shell, wherein a shell air inlet and a shell air outlet are formed in the shell, the shell air inlet is communicated with an inner cavity of the channel body, and the shell air outlet is also communicated with the inner cavity of the channel body; a double-waveband short-wave ultraviolet lamp tube is arranged in the shell; the casing still is equipped with built-in fan in, the air current that built-in fan produced follows the casing air intake is through dual waveband shortwave ultraviolet tube follows the casing air outlet is discharged.

As a preferred technical scheme, a light shield is arranged in the shell, the dual-band short wave ultraviolet lamp tube is located in the light shield, a light shield air outlet is arranged on the light shield, a light shield air inlet is arranged on the shell, the shell air inlet is communicated with an inner cavity of the light shield and is also used as the light shield air inlet, a first baffle plate located between the built-in fan and the light shield air outlet is further arranged in the shell, an air flow channel is arranged between the first baffle plate and the light shield air outlet and the outer surface of the light shield, a secondary air inlet located outside the light shield and communicated with the air flow channel is further arranged on the shell, a second baffle plate located outside the light shield is fixedly mounted on the first baffle plate, the second baffle plate is located between the built-in fan and the secondary air inlet, a baffle air inlet communicated with the air inlet of the built-in fan is arranged on the second baffle plate, the shell air outlet is communicated with the air outlet end of the built-in fan, and the air inlet, the air flow channel and the secondary air inlet are communicated with each other.

Preferably, the dual-band short-wave ultraviolet lamp tubes are divided into at least two groups, and each group of the dual-band short-wave ultraviolet lamp tubes are configured to work alternately.

As the preferred technical scheme, the passageway body includes the frame, is located the inboard inner wall of frame and being located the outer wall in the frame outside, the inner wall with install the fan between the outer wall, the hydroxyl radical disinfection module is installed the inner wall with between the outer wall, the air intake and the casing air outlet of fan communicate each other, be equipped with on the inner wall with the main air intake of casing air intake intercommunication, still be equipped with on the inner wall with the main air outlet of the air outlet intercommunication of fan.

By adopting the technical scheme, the rapid vehicle disinfection channel comprises a channel body, wherein a vehicle channel is arranged in the channel body, a vehicle inlet is formed in the rear end of the channel body, a vehicle outlet is formed in the front end of the channel body, a spray disinfection area, a hydroxyl radical strong oxidation gas disinfection area and an atomization disinfection area are sequentially arranged in the channel body from back to front, a spray disinfection device is arranged in the spray disinfection area, a hydroxyl radical strong oxidation gas disinfection area is provided with a hydroxyl radical disinfection module, and an atomization disinfection machine is arranged in the atomization disinfection area; the spraying disinfection area is used for washing and disinfecting vehicles, hydroxyl radicals can be generated in the hydroxyl radical strong oxidation gas disinfection area and can decompose organic compounds harmful to human bodies and the environment and various known bacteria, viruses and the like, disinfection liquid is atomized into fog particles in the atomizing disinfection area and can be adsorbed on vehicle bodies and various corners, and no dead angle is left for disinfection.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a cross-sectional view of a hydroxyl radical disinfection module in an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a hydroxyl radical disinfection module according to an embodiment of the present invention;

fig. 4 is a perspective view of an embodiment of the present invention.

Detailed Description

As shown in fig. 1, a quick disinfection passageway of vehicle, including the passageway body 1, be equipped with vehicle passageway 2 in the passageway body 1, the rear end of passageway body 1 is equipped with vehicle entrance 3, and the front end of passageway body 1 is equipped with vehicle export 4, it sprays disinfection district 5, hydroxyl radical strong oxidation gas disinfection district 6 and atomizing disinfection district 7 to have set gradually from the back to the front in the passageway body 1, it is equipped with the spray disinfection device in the disinfection district 5 to spray, hydroxyl radical strong oxidation gas disinfection district 6 is equipped with hydroxyl radical disinfection module, be equipped with the atomizing sterilizing machine in the atomizing disinfection district 7. The spraying disinfection area is used for washing and disinfecting vehicles, and hydroxyl radicals are generated in the hydroxyl radical strong oxidation gas disinfection area to decompose organic compounds harmful to human bodies and the environment, various known bacteria, viruses and the like. The disinfection liquid is atomized into fog particles in the atomization disinfection area, and the fog particles can be adsorbed on the vehicle body and various corners, so that no dead angle is left in disinfection.

The mist disinfection machine comprises a spray column 8 which is fixedly installed in a channel body 1 and located on two sides of a vehicle channel 2, a plurality of spray heads 9 are installed on the spray column 8, a spray head 9 pipeline is connected with a spray host machine, the mist disinfection machine further comprises a controller and a sensor, the sensor detects that a vehicle drives into a mist disinfection area, and the controller controls the spray host machine to work according to received electric signals. The sensor adopts an infrared induction probe.

Spray degassing unit is including being located the last shower head 11 on the inner chamber upper portion of the passageway body, being located the side shower head 12 of the inner chamber lateral part of the passageway body with be located the lower shower head 13 that upwards sprays of the inner chamber bottom of the passageway body, the bottom of the passageway body is equipped with deceleration strip 14, be equipped with mounting groove 15 on the deceleration strip, lower shower head 14 is installed in the mounting groove 15. The lower spray header 13 is arranged in the mounting groove 15 of the speed bump, so that the lower spray header can be effectively prevented from being damaged due to extrusion of a vehicle.

As shown in fig. 2 and fig. 3, the hydroxyl radical disinfection module includes a housing 16, the housing 16 is provided with a housing air inlet 17 and a housing air outlet 18, the housing air inlet 17 is communicated with the inner cavity of the channel body 1, and the housing air outlet 18 is also communicated with the inner cavity of the channel body 1; be equipped with dual-waveband shortwave ultraviolet tube 19 in the casing 16, still be equipped with built-in fan 22 in the casing, the air current that built-in fan 22 produced is followed casing air intake 17 warp dual-waveband shortwave ultraviolet tube 19 follows casing air outlet 18 discharges. The double-waveband short-wave ultraviolet lamp tube can simultaneously generate UVD (ultraviolet ray) and UVC (ultraviolet ray), and firstly generates ozone under the action of the UVD ultraviolet ray; subsequently, UVC ultraviolet rays act on ozone to catalyze the decomposition of the ozone, the ozone is decomposed after absorbing photon energy, and the oxidation capacity of decomposed products is higher; the products after the ozone decomposition and water molecules in the air generate hydroxyl radicals. The hydroxyl free radicals are blown into a vehicle channel by a fan, act on the air and the surface of an object, decompose organic compounds harmful to human bodies and the environment, and various known bacteria, viruses and the like, and have very obvious effect.

As shown in fig. 2 and 3, a light shield 20 is arranged in the housing, the dual-band short wave ultraviolet lamp tube 19 is located in the light shield 20, a light shield air outlet 23 is arranged on the light shield 20, a light shield air inlet is arranged on the housing, the housing air inlet 17 is communicated with an inner cavity of the light shield 20 and also serves as the light shield air inlet, a first baffle 24 located between the built-in fan 22 and the light shield air outlet 23 is further arranged in the housing, the first baffle 24 is directly opposite to the light shield air outlet 23 and an air flow channel 27 is arranged between the outer surface of the light shield 20, an auxiliary air inlet 30 located outside the light shield 20 and communicated with the air flow channel 27 is further arranged on the housing, a second baffle 31 located outside the light shield is fixedly arranged on the first baffle 24, the second baffle 31 is located between the built-in fan 22 and the auxiliary air inlet 30, a baffle air inlet 32 communicated with the air inlet of the built-in fan 22 is arranged on the second baffle 31, the housing air outlet 18 is communicated with the air inlet end of the built-in fan 22, and the baffle 32 and the auxiliary air flow channel 30 are communicated with each other. The air flow generated by the built-in fan 22 passes through the dual-band short-wave ultraviolet lamp tube 19 from the shell air inlet 17, and ozone is generated under the action of UVD ultraviolet rays; subsequently, UVC ultraviolet rays act on the ozone to catalyze the decomposition of the ozone, the ozone is decomposed after absorbing energy of photons, and oxidation capacity of a decomposed product is stronger, and the decomposed product of the ozone and water molecules in the air entering from the air outlet of the light shield through the airflow channel 27 and the secondary air inlet 30 generate hydroxyl radicals, and the hydroxyl radicals are discharged from the housing air outlet 18 through the built-in fan 22.

The dual band short wave ultraviolet lamps 19 are divided into at least two groups, and each group of the dual band short wave ultraviolet lamps 19 is configured to alternately operate. In this embodiment, the two-band short-wave ultraviolet lamps 19 are divided into two groups, and the two groups of ultraviolet lamps are controlled to operate and stop switching by the programmable time controller. The purposes of all-weather automatic operation and prolonging the service life of the device are achieved, and uninterrupted disinfection is realized.

As shown in fig. 1, the channel body includes a frame, an inner wall 25 located inside the frame and an outer wall 26 located outside the frame, a blower is installed between the inner wall 25 and the outer wall 26, the hydroxyl radical disinfection module is also installed between the inner wall 25 and the outer wall 26, an air inlet of the blower is communicated with the housing air outlet 18, and a main air inlet 29 communicated with the housing air inlet is arranged on the inner wall. And a main air outlet 28 communicated with the air outlet of the fan is arranged on the inner wall.

The basic principles, main features and advantages of the present invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. The utility model provides a quick disinfection passageway of vehicle, its characterized in that, includes the passageway body, the internal vehicle passageway that is equipped with of passageway, the rear end of the passageway body is equipped with the vehicle entry, and the front end of the passageway body is equipped with the vehicle export, it sprays disinfection district, hydroxyl radical strong oxidation gas disinfection district and atomizing disinfection district to have set gradually from the back to the front in the passageway body, it is equipped with the disinfection device that sprays in the disinfection district to spray, hydroxyl radical strong oxidation gas disinfection district is equipped with hydroxyl radical disinfection module, be equipped with the mist disinfection machine in the atomizing disinfection district.

2. The vehicle rapid disinfection tunnel of claim 1, wherein the mist disinfection machine comprises a spray head, and a spray main is connected to the spray head pipeline.

3. The vehicle rapid disinfection tunnel according to claim 2, wherein said mist disinfection machine further comprises a controller and a sensor for controlling said spray main machine, said tunnel body is fixedly installed with spray columns at both sides of the vehicle tunnel, said spray columns are installed with a plurality of said spray heads.

4. The vehicle rapid decontamination tunnel of claim 1, wherein said spray disinfection device comprises an upper spray header located in an upper portion of the interior cavity of said tunnel body.

5. The vehicle rapid decontamination tunnel of claim 4, wherein said spray disinfection apparatus further comprises a side shower head located at the side of the interior cavity of said tunnel body and an upwardly spraying lower shower head located at the bottom of the interior cavity of said tunnel body.

6. The vehicle rapid disinfection tunnel according to claim 5, wherein a deceleration strip is provided at the bottom of the inner cavity of the tunnel body, an installation groove is provided on the deceleration strip, and the lower spray header is installed in the installation groove.

7. The rapid disinfection tunnel for vehicles as claimed in claim 1, wherein said hydroxyl radical disinfection module comprises a housing, said housing having a housing inlet and a housing outlet, said housing inlet being in communication with the interior of said tunnel body, said housing outlet also being in communication with the interior of said tunnel body; a double-waveband short-wave ultraviolet lamp tube is arranged in the shell; the casing still is equipped with built-in fan in, the air current that built-in fan produced follows the casing air intake is through dual waveband shortwave ultraviolet tube follows the casing air outlet is discharged.

8. The rapid disinfection channel for vehicles as claimed in claim 7, wherein a light shield is disposed in the housing, the dual-band short wave ultraviolet lamp tube is disposed in the light shield, a light shield air outlet is disposed on the light shield, a light shield air inlet is disposed on the housing, the housing air inlet communicates with an inner cavity of the light shield and also serves as the light shield air inlet, a first baffle is further disposed in the housing between the built-in fan and the light shield air outlet, the first baffle faces the light shield air outlet and has an air flow channel with an outer surface of the light shield, a secondary air inlet is further disposed on the housing and communicates with the air flow channel, a second baffle is fixedly disposed on the first baffle and is disposed outside the light shield, the second baffle is disposed between the built-in fan and the secondary air inlet, a baffle air inlet communicating with the air inlet of the built-in fan is disposed on the second baffle, the housing air outlet communicates with the air outlet of the built-in fan, and the baffle air inlet, the air flow channel and the secondary air inlet communicate with each other.

9. The vehicle rapid disinfection tunnel of claim 7, wherein said dual band short wave ultraviolet light tubes are divided into at least two groups, each of said groups being configured to operate alternately.

10. The vehicle rapid disinfection channel of claim 7, wherein the channel body comprises a frame, an inner wall located inside the frame, and an outer wall located outside the frame, a blower is installed between the inner wall and the outer wall, the hydroxyl radical disinfection module is installed between the inner wall and the outer wall, an air inlet of the blower is communicated with an air outlet of the housing, a main air inlet communicated with the air inlet of the housing is formed in the inner wall, and a main air outlet communicated with the air outlet of the blower is further formed in the inner wall.

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