CN105412969A

CN105412969A - Deodorizing device

Info

Publication number: CN105412969A
Application number: CN201510468021.0A
Authority: CN
Inventors: 宫坂裕骑; 五味工; 小林刚; 芹泽和泉
Original assignee: Orc Manufacturing Co Ltd
Current assignee: Orc Manufacturing Co Ltd
Priority date: 2014-09-02
Filing date: 2015-08-03
Publication date: 2016-03-23
Anticipated expiration: 2035-08-03
Also published as: TW201609203A; CN105412969B; JP2016049396A; KR20160027891A; TWI663993B; KR102336804B1

Abstract

The invention provides a deodorizing device convenient to use, which is not only capable of deodorizing, but also capable of removing virus, bacteria, mold or the like. The deodorizing device comprises a device body provided with a frame body. The interior of the frame body is provided with a deodorizing and sterilizing mechanism in a detachable manner. The device further comprises a suction arm internally provided with a suction path. The tail end of the suction arm is provided with a suction port. The device further comprises a forced air supply mechanism used for sucking the external air from the suction port of the suction arm. Meanwhile, the external air is led into the deodorizing and sterilizing mechanism via the suction path. The deodorizing and sterilizing mechanism at least comprises an ozone generation mechanism, activated carbon, a UV lamp, a light catalyst and an ozone removal mechanism.

Description

Odor removal

Technical field

The present invention relates to odor removal, the object of this odor removal is, the foul smell, viroplankton, antibacterial, mycete etc. that produce when the foul smell in the burn treating in hospital and old man being nursed Excreta process (diaper change etc.) in facility etc. attract to remove partly, prevent it to indoor diffusion.

Background technology

Aging society development, needs the old man of nurse constantly to increase, improves the demand property of this odor removal, proposes there is various motion.Patent documentation 1 proposes the concrete structure in the suction port of the end attracting arm, and this attraction arm has attraction path in inside.In addition, as the adsorption filter contacted with purification object air, patent documentation 2 proposes adsorbent metal being supported at have the structure of the carrier of minute aperture.

Patent documentation 1: Japanese Patent No. 4651741 publication

Patent documentation 2: Japanese Unexamined Patent Publication 6-47246 publication

Summary of the invention

But these odor removals in the past focus on deodorization and can not sterilize to virus, antibacterial, mycete etc.If only by the adsorbent for deodorization, then when discharging foul smell sharply locally, there is the probability that deodorizing effect is also limited.In addition, the degree of freedom of the end of its attraction arm of device is in the past low, is difficult to make suction port to the movement rapidly of required position.Especially make the degree of freedom of suction port movement in the vertical direction lower.

According to the understanding to the problems referred to above, the object of the present invention is to provide a kind of odor removal, this odor removal can not only deodorization, can also carry out sterilization and remove virus, antibacterial, mycete, and easy to use.In addition, object of the present invention is especially to provide a kind of odor removal, and the degree of freedom of the above-below direction position of the attraction arm end of this odor removal is high, and easy to use.

The feature of odor removal of the present invention is, this odor removal possesses: apparatus main body, and this apparatus main body has framework, supports deodorizing sterilizing mechanism in the inside of this framework in the mode that can install and remove; Attract arm, in the inside of this attraction arm, there is attraction path, and at the terminal part of this attraction arm, there is suction port; And forced air supply mechanism, its suction port from described attraction arm attracts exogenous QI, and exogenous QI attraction come guides to described deodorizing sterilizing mechanism via described attraction path, described deodorizing sterilizing mechanism at least comprises ozone generation mechanism, active carbon, UV lamp, photocatalyst and ozone removal mechanism.

Described ozone generation mechanism is specifically preferred is that the Excimer lamp of the light of 172nm is formed by radiating wavelength.

In addition, described UV lamp is preferably that the low pressure mercury lamp of the light of 254nm is formed by radiating wavelength.

Odor removal of the present invention preferably comprises ozone sensor further, and this ozone sensor detects the ozone by whether comprising more than finite concentration in the exogenous QI after described deodorizing sterilizing mechanism.In addition, described deodorizing sterilizing mechanism preferably make described attraction and come exogenous QI sequentially through described ozone generation mechanism, described active carbon, described UV lamp, described photocatalyst and described ozone removal mechanism.If ozone sensor detects the ozone of the concentration of more than environmental benchmark value, then the ozone undertaken by ozone generation mechanism is stopped to occur.

Described attraction arm is supported on described apparatus main body in the mode can rotated centered by trunnion axis, thus can improve the degree of freedom of the above-below direction of the suction port attracting arm end.

In one embodiment, described attraction arm is supported in the side of described framework in the mode can rotated centered by trunnion axis.And preferably this attraction arm is supported to, in its specific turned position, the height and position of this attraction arm entirety is contained in the height and position of described framework.

In other implementations, apparatus main body is formed by framework with from the fixing inflator that this framework is outstanding, attracts arm to be supported on this fixing inflator in the mode can rotated centered by trunnion axis.

In fact, described attraction arm attracts arm to be formed by many that mutually can rotate centered by flapping articulation axle, attracts that the attraction arm of the least significant end of arm possesses described suction port at described many.

Odor removal of the present invention, because the deodorizing sterilizing mechanism being built in apparatus main body at least comprises ozone generation mechanism, active carbon, UV lamp, photocatalyst and ozone removal mechanism, therefore can not only deodorization, can also bactericidal action be obtained, and then can deodorizing effect be improved.

Accompanying drawing explanation

Fig. 1 shows the axonometric chart represented based on an embodiment under the using state of an embodiment of odor removal of the present invention.

Fig. 2 is the side view that its receiving state is shown.

Fig. 3 is the sectional view of the cradle head part attracting arm.

Fig. 4 is the stacking figure of the embodiment that the deodorizing sterilizing mechanism used in odor removal of the present invention is shown.

Fig. 5 is the three-dimensional concept map of this deodorizing sterilizing mechanism.

Fig. 6 is the axonometric chart of other the embodiment illustrated based on odor removal of the present invention.

Label declaration

100: odor removal; 11: foot is taken turns; 12: travel pedestal; 13: battery; 20: apparatus main body; 21: framework; 22: side; 23: fixing inflator; 30,33,35,37: attract arm; 31,32,34,36: flapping articulation axle; 38: suction port (suction cup); 40: attract path; 50: deodorizing sterilizing unit (deodorizing sterilizing mechanism); 51: air inlet; 52: air vent; 53: prefilter; 54: ozonator; 55: active carbon; 56: Burdick lamp; 57: photocatalyst; 58: ozone decomposed filter (ozone removal mechanism); 59: ozone sensor; 60: attract fan (forced air supply mechanism); X: feathering axis.

Detailed description of the invention

Fig. 1, Fig. 2 show the surface structure of odor removal 100 entirety of the present invention, and Fig. 1 shows using state, and Fig. 2 shows receiving state.Odor removal 100 has traveling pedestal 12, and above-mentioned traveling pedestal 12 has castor 11, at the battery 13 that the lower support weight of this traveling pedestal 12 is large, at the upper support apparatus main body 20 of this traveling pedestal 12.

Apparatus main body 20 framework the 21,1st had in rectangular-shaped outward appearance attracts arm 30 to be rotatably supported in a side 22 of framework 21 by flapping articulation axle 31.2nd attracts the same terminal part being rotatably supported in the 1st attraction arm 30 by the flapping articulation axle 32 be made up of trunnion axis of arm 33, similarly, 3rd attracts arm 35 to be rotatably supported in the end of the 2nd attraction arm 33 by flapping articulation axle 34, attract the end of arm 35 the 3rd, attract arm 37 in conjunction with the 4th in turn by flapping articulation axle 36.Further, suction port (suction cup) 38 is located at the terminal part that the 4th attracts arm 37.

Arm 33, flapping articulation axle 34, the 3rd attract arm 35, flapping articulation axle 36 and the 4th attracts to be equipped with a series of attraction path 40 in arm 37 to attract arm 30, flapping articulation axle 32, the 2nd to attract at flapping articulation axle 31, the 1st.One end in this attraction path 40 is at suction port 38 opening, and the other end is directed in apparatus main body 20.As conceptually illustrated in Fig. 3, flapping articulation axle 36 (flapping articulation axle 34, flapping articulation axle 32, flapping articulation axle 31) makes attraction arm 37 and 35 (attract arm 35 and 33, attract arm 33 and 30, attract arm 30 and apparatus main body 20) can relatively rotate centered by trunnion axis X, attracts path 40 to insert in each trunnion axis X part.

In the framework 21 of apparatus main body 20, be built-in with detachable deodorizing sterilizing unit (deodorizing sterilizing mechanism) 50.Fig. 4, Fig. 5 are the concept maps of deodorizing sterilizing unit 50, and the air inlet 51 of deodorizing sterilizing unit 50 can be installed and removed relative to attraction path endings 40X directed in apparatus main body 20.In deodorizing sterilizing unit 50, between air inlet 51 and air vent 52, stacked (stacking) is configured with prefilter (air filter) 53, ozonator (ozone lamp) 54, active carbon 55, ultraviolet (UV) lamp 56, photocatalyst (glass ceramics photocatalyst) 57 and ozone removal mechanism (ozone decomposed filter) 58 in order.

Be configured with at apparatus main body 20 internal fixtion: attract fan (forced air supply mechanism is 2 attraction fans in illustrated example) 60, it attracts air from the air vent 52 of deodorizing sterilizing unit 50; And ozone sensor 59, it is between this attraction fan 60 and deodorizing sterilizing unit 50.Ozone sensor 59 detects and is attracted fan 60 and attracts and ozone by whether comprising more than finite concentration (environmental benchmark value) in the exogenous QI after deodorizing sterilizing unit 50, when detecting the ozone of more than finite concentration, stop the driving to ozonator 54.The element (such as ozonator 54, Burdick lamp 56, photocatalyst 57, ozone sensor 59) of the needs electricity in this attraction fan 60 and deodorizing sterilizing unit 50 is powered from battery 13 via conductive cable 14 (Fig. 1).

Prefilter (air filter) 53, ozonator (ozone lamp) 54, active carbon 55, ultraviolet (UV) lamp 56, photocatalyst (glass ceramics photocatalyst) 57 and ozone removal mechanism (ozone decomposed filter) 58 are known element respectively, but wherein ozonator 54 is preferably that the Excimer lamp of the light of 172nm is formed by radiating wavelength.That is, although be known to as the ozone generation mechanism beyond Excimer lamp the ozone generation mechanism utilizing electric discharge phenomena, by the impact of humidity, action easily becomes unstable to discharge mode, may produce as NO in addition _xsuch harmful side product, therefore most preferably radiates the Excimer lamp that wavelength is the light of 172nm.In addition UV lamp 56 preferably radiates the low pressure mercury lamp that wavelength is the light of 254nm.The ultraviolet light of the wavelength of 254nm not only has deodorizing sterilizing effect, and high to the capacity of decomposition of the ozone produced by Excimer lamp, can also carry out the regeneration of active carbon and the irradiation to photocatalyst.Due to by radiating the low pressure mercury lamp that wavelength is the light of 254nm and ozone is removed by the ozone removal mechanism (ozone decomposed filter) 58 being positioned at the position than this low pressure mercury lamp downstream, therefore, it is possible to prevent the ozone of discharging more than environmental benchmark value more reliably.In addition, the foul smell composition contained in air or harmful substance etc. decompose and remove by photocatalyst (glass ceramics photocatalyst) 57.

This odor removal 100 of said structure uses in such a way.Such as nursing in facility old man, when changing the diaper of nurse object, making suction port 38 close to the local producing foul smell.Arm 30, the 2nd is attracted to attract arm 33, the 3rd to attract arm 35, the 4th to attract arm 37 by the 1st, suction port 38 can be made freely to change position { height and position and front and back position }, and the described 1st attracts arm 30, the 2nd to attract arm 33, the 3rd to attract arm 35, the 4th to attract arm 37 can via flapping articulation axle 31, flapping articulation axle 32, flapping articulation axle 34, flapping articulation axle 36 and rotating centered by trunnion axis X.Under the state making suction port 38 close to local (or from before making the close local of suction port 38), if driven fan 60, the air (being with air frowzy) then comprising foul smell (stink or virus, antibacterial, mycete etc.) is imported in apparatus main body 20 (framework 21) from suction port 38 by attracting path 40, and is supplied in deodorizing sterilizing unit 50 from the air inlet 51 attracting path endings 40X to be connected.Enter band air frowzy in deodorizing sterilizing unit 50 sequentially through prefilter 53, ozonator (ozone lamp) 54, active carbon 55, ultraviolet (UV) lamp 56, photocatalyst (glass ceramics photocatalyst) 57 and ozone removal mechanism (ozone decomposed filter) 58 as the air stream A schematically shown in Fig. 5, it is carried out to the removal of degerming, deodorization and ozone.

More specifically, attract the foreign body in air or dust etc. to be removed by prefilter 53, next, by the ozone that produced by ozone generation mechanism (ozone lamp) 54 be used for carry out that sterilization is degerming, deodorization.Ensuing active carbon 55 becomes to assign to improve deodorizing effect further by absorption foul smell.Further, active carbon 55 is positioned between ozone generation mechanism (ozone lamp) 54 and ultraviolet (UV) lamp 56, thus active carbon 55 can be regenerated, and the dissipation of heat of ultraviolet (UV) lamp 56 in can making to light.That is, if due to ozone generation mechanism (ozone lamp) 54 and the continuous fetch bit of ultraviolet (UV) lamp 56, then there is the probability of lamp self heating and framework 21 local heating, therefore active carbon 55 is configured between two lamps.In addition, by the downstream making photocatalyst 57 be positioned at ultraviolet (UV) lamp 56, ultraviolet (UV) lamp 56 can be passed through and carry out deodorizing sterilizing and illumination is penetrated in photocatalyst 57.Finally, carry out ozone decomposition by ozone decomposed filter 58, prevent ozone from discharging to exogenous QI.

Further, detect by the ozone concentration in the exogenous QI after deodorizing sterilizing unit 50 by ozone sensor 59.If ozone sensor 59 detects the ozone of more than finite concentration (environmental benchmark value), then stop the driving to ozonator 54, ozone concentration is suppressed for below environmental benchmark value.

For the element needing in the element in deodorizing sterilizing unit 50 to regularly replace or clean, aforesaid operations can be carried out after being pulled down from apparatus main body 20 (framework 21) by deodorizing sterilizing unit 50.

And, as shown in Figure 2, above odor removal 100, when receiving (during non-usage), can make the 1st to attract arm 30 (and the 2nd attracts arm 33, the 3rd to attract arm 35, the 4th to attract arm 37) to rotate thus within being located at the height of framework 21 of apparatus main body 20.Therefore, it is possible to low dwarfing when realizing storage while the degree of freedom (especially the degree of freedom of the position of above-below direction) of position guaranteeing the suction port 38 when using.

In the above embodiment, attract arm can mode link in relative rotation by flapping articulation axle by 4, improve the degree of freedom of the movement of suction port 38, as long as but having minimum 2 attracts arm, the convergence to local just can be realized while the high-freedom degree of above-below direction keeping suction port 38.

Fig. 6 shows the 2nd embodiment based on odor removal 100 of the present invention.In this embodiment, apparatus main body 20 by framework 21 and in framework 21 fixing inflator 23 fixing upward form.1st attracts arm 30 to be rotatably installed on the upper end of this fixing inflator 23 via flapping articulation axle 31, and described flapping articulation axle 31 has the trunnion axis X vertical relative to vertical direction axis Z.Attraction arm in this embodiment and flapping articulation axle are 3 segmentations, and suction port 38 is located at the end that the 3rd attracts arm 35.Among the attraction arm group of suction port 38 to flapping articulation axle 31, be provided with the attraction path 40 be illustrated according to Fig. 1 to Fig. 2 to Fig. 4, this attraction path 40 is connected with the air supply opening 51 of the deodorizing sterilizing unit 50 in framework 21 via fixing inflator 23.Other element is identical with the 1st embodiment of Fig. 1 to Fig. 5.

Same in the 2nd embodiment, whole attraction arms can be made to be positioned at the below of the height and position of flapping articulation axle 31 when receiving, the low dwarfing (miniaturization) when receiving can be realized.

The suction port 38 of above embodiment to be flat shape be circular cup-shaped, but this shape is an example, the flat shape of suction port 38 can adopt rectangle or triangle, polygon, and cup-shaped can adopt other the shape such as funnel shaped.

Claims

1. an odor removal, is characterized in that,

This odor removal possesses:

Apparatus main body, this apparatus main body has framework, supports deodorizing sterilizing mechanism in the inside of this framework in the mode that can install and remove;

Attract arm, in the inside of this attraction arm, there is attraction path, and at the terminal part of this attraction arm, there is suction port; And

Forced air supply mechanism, its suction port from described attraction arm attracts exogenous QI, and exogenous QI attraction come guides to described deodorizing sterilizing mechanism via described attraction path,

Described deodorizing sterilizing mechanism at least comprises ozone generation mechanism, active carbon, UV lamp, photocatalyst and ozone removal mechanism.

2. odor removal according to claim 1, wherein, described ozone generation mechanism radiates the Excimer lamp that wavelength is the light of 172nm.

3. odor removal according to claim 1 and 2, wherein, described UV lamp radiates the low pressure mercury lamp that wavelength is the light of 254nm.

4. odor removal according to claim 1 and 2, wherein, described odor removal comprises ozone sensor further, this ozone sensor detects the ozone by whether comprising more than finite concentration in the exogenous QI after described deodorizing sterilizing mechanism, and the exogenous QI that described deodorizing sterilizing mechanism makes described attraction and comes is sequentially through described ozone generation mechanism, described active carbon, described UV lamp, described photocatalyst and described ozone removal mechanism.

5. odor removal according to claim 1 and 2, wherein, described attraction arm is supported on described apparatus main body in the mode can rotated centered by trunnion axis.

6. odor removal according to claim 1 and 2, wherein, described attraction arm is supported in the side of described framework in the mode can rotated centered by trunnion axis.

7. odor removal according to claim 6, wherein, described attraction arm is supported to, and in its specific rotational position, the height and position of this attraction arm entirety is contained in the height and position of described framework.

8. odor removal according to claim 7, wherein, described attraction arm attracts arm to be formed by many that mutually can rotate centered by flapping articulation axle, attracts that the attraction arm of the least significant end of arm possesses described suction port at described many.