CN203885413U - Sterilizing hand drier - Google Patents

Abstract

The utility model relates to the field of sanitation, in particular to a sterilizing hand drier. According to the technical scheme, the sterilizing hand drier comprises a housing provided with a U-shaped operating channel having a passageway; the U-shaped operating channel has a sterilizing area and a hand-drying area; an upper cavity is internally provided with an upper fan and an upper air cavity; a lower cavity is internally provided with a lower fan and a lower air cavity; the housing is further internally provided with a containing cavity and a pressure pump; the part, located in the sterilizing area, of the upper cavity is provided with a disinfectant outlet; the part, located right above the hand-drying area, of the upper cavity is further provided with a hand-drying upper sensor; the part, located right below the hand-drying area, of the lower cavity is provided with a hand-drying lower sensor; the part, located right above the sterilizing area, of the upper cavity is further provided with a sterilizing upper sensor; the part, located right below the sterilizing area, of the lower cavity is provided with a sterilizing lower sensor; an electrical control device is further disposed inside the housing. The sterilizing hand drier is reasonable in structural distribution, has good sterilizing and hand-drying effects and has the effect of improving hand-drying efficiency.

Description

The dry arm device of a kind of sterilization

Technical field

The utility model relates to health field, particularly the dry arm device of a kind of sterilization.

Background technology

The dry arm device of sterilization of the prior art, the disclosed a kind of sterilizing hand dryer of application for a patent for invention that is CN103596484A as application publication number comprises hand dryer housing, it has inlet channel and outlet passageway.Hair-dryer suction air enters described hand dryer housing by inlet channel, and described air is derived to described hand dryer housing by outlet passageway; Decontamination system is to the air in inlet channel and the air sterillization in outlet passageway, wherein, the decontamination system in inlet channel comprises at least one in the first air cleaner, the first ozone generator, the first sterilization light source, the first photochemical catalytic oxidation system, the first ion generator and the first electrostatic precipitator; Decontamination system in outlet passageway comprises at least one in the second air cleaner, the second ozone generator, the second sterilization light source, the second photochemical catalytic oxidation system, the second ion generator and the second electrostatic precipitator; It is air-dry that this kind of dry hand system of sterilization just adopts the pure air through sterilization to carry out moist hand skin on the one hand, really realizes disinfecting hand skin; This kind of sterilizing hand dryer only has an air outlet on the other hand, can not be simultaneously the back side of human hands and front are carried out air-dry, therefore, inefficiency.

Utility model content

The purpose of this utility model is to provide the dry arm device of a kind of sterilization, and its structure is distributed rationally, and has the dry hand effect of good sterilization, and can effectively improve dry hand efficiency.

Above-mentioned technical purpose of the present utility model is achieved by the following technical programs: the dry arm device of a kind of sterilization, comprise the housing that has upper chamber and the lower cavity connecting in a side and be formed with the U-shaped work nest with gateway between the cavity of top and the bottom, described U-shaped work nest comprises along the Ji Ganshou district, sterile zones that is parallel to described gateway direction column distribution; In described upper chamber, be provided with fan and be provided with for bearing the air stream that described fan produces and having for the windward chamber of the uptake of air stream is provided to described Gan Shou district being positioned at part directly over described Gan Shou district; In lower cavity, be provided with lower blower fan and be provided with for bearing the air stream that described lower blower fan produces and having for the leeward chamber in the lower air port of air stream is provided to described Gan Shou district being positioned at part under described Gan Shou district; In described housing, be also provided with for settle disinfectant container container chamber and with for being connected the compression pump of disinfectant container; The part that described upper chamber is positioned at described sterile zones is provided with thimerosal outlet; The part that described upper chamber is positioned at directly over described Gan Shou district is also provided with dry sensor on hand, and the part that described lower cavity is positioned under described Gan Shou district is also provided with and the described dry dry subordinate sensor that sensor coordinates on hand; The part that described upper chamber is positioned at directly over described sterile zones is also provided with sterilization upper sensor, and the part that described lower cavity is positioned under described sterile zones is also provided with the sterilization lower sensor coordinating with described sterilization upper sensor; In described housing, be also provided with the electric control gear being all electrically connected with described dry sensor on hand, dry subordinate sensor, sterilization upper sensor, sterilization lower sensor, fan, lower blower fan and compression pump.

Technique scheme is divided into Ji Ganshou district, sterile zones, and by the integrated work nest in Ji Ganshou district, sterile zones, thereby in same table apparatus, realized the independent operation of sterilization with dry hand; Simultaneously technique scheme, in two parts up and down of work nest, is all provided with air port in upper and lower cavity, can realize simultaneously air-dry to hand front and the back side, thereby has improved dry hand efficiency.

As of the present utility model preferred, described fan is located at the part of described upper chamber directly over described sterile zones.

Above-mentioned setting, rationally utilizes the space of upper chamber, makes whole device structure more compact, and can effectively increase the length of uptake, increase uptake in the span being parallel in the direction of gateway, thereby increase wind-out range, be conducive to further improve dry hand efficiency.

As of the present utility model preferred, described lower blower fan is located at the part of described lower cavity under described sterile zones.

Above-mentioned setting, rationally utilizes the space of lower cavity, makes whole device structure more compact, and can effectively increase the length in lower air port, increase lower air port in the span being parallel in the direction of gateway, thereby increase wind-out range, be conducive to further improve dry hand efficiency.

As of the present utility model preferred, the air inlet place of described fan is sealedly connected with filter; The air inlet place of described lower blower fan is sealedly connected with lower filter.

Above-mentioned setting, is conducive to improve the cleanliness factor of air stream for dry hand, to keep as much as possible the Disinfection Effect of hand; Meanwhile, coordinate the setting of U-shaped work nest, when dry hand, U-shaped work nest inner air pressure is greater than external environment air pressure, thereby the non-pure air of effectively having avoided filtered device to filter enters U-shaped work nest during dry hand.

Preferably described upper filter is consistent with lower filtration device structure as of the present utility model, and all in just imitating that particle filter screen and active carbon spray, effect particle filter screen forms.

Just effect particle filter screen is for the larger dust of filtered air, and the middle effect particle filter screen of active carbon spraying is used for filtering the sapid gases such as little dust, aldehydes, alkanes.

As of the present utility model preferred, described container chamber is positioned at described upper chamber and distributes side by side along the direction perpendicular to described gateway with described windward chamber; Described compression pump is arranged in the position of described lower cavity under described sterile zones.

Above-mentioned setting, has rationally utilized the space of top and the bottom cavitys, has improved the packing of enclosure interior part, makes overall structure more compact, the volume of the dry arm device that is more conducive to reduce to sterilize, and such arrangement is simultaneously conducive to the replacing of consumptive material thimerosal.

As of the present utility model preferred, described electric control gear is located in described lower cavity and with described leeward chamber and is distributed side by side along the direction perpendicular to described gateway.

Above-mentioned setting, has rationally utilized the space of top and the bottom cavitys, has improved the packing of enclosure interior part, makes overall structure more compact, the volume of the dry arm device that is more conducive to reduce to sterilize.

As of the present utility model, preferably in described container chamber, be provided with for connecting the interface of disinfectant container, described interface comprises all for inserting logical liquid intubate and the vented cannula of disinfectant container; Described logical liquid intubate is connected by pipeline with described compression pump; Described vented cannula connects breather pipe.

The top of container chamber is provided with the opening of being convenient to put into disinfectant container, at this opening, is also provided with for sealing the mounting of this opening; One port of breather pipe extends to interface top, approaches opening part, and disinfectant container is connected in after interface, and this port of breather pipe can be positioned at disinfectant container top.

As of the present utility model preferred, described windward chamber comprises two upper plates that extend to described Gan Shou district, and the gap between two described upper plates forms described uptake; Described leeward chamber comprises two lower plates that extend to described Gan Shou district, and the gap between two described lower plates forms described lower air port.

Air port wind outlet should be less in the size perpendicular in the direction of gateway, thereby the size that air port should be made progress the party much smaller than wind chamber in the size perpendicular in the direction of gateway, the narrow degree in air port, make the air stream pressure in wind chamber larger owing to being subject to fan action, thereby can effectively improve the impulsive force of air port air-out, and then effectively improve dry hand efficiency; And due to the larger cause of wind chamber internal gas pressure, make in wind chamber air liveness high, thereby make the air heat in wind chamber higher, and then be more conducive to improve dry hand efficiency.

As of the present utility model preferably, described in one of them, upper plate has from top to bottom to the upper inclined portion that described in another, upper plate tilts; Described in one of them, plate has from bottom to top to the portion that has a down dip that descends plate to tilt described in another down.

Upper and lower two pairs of formed air outlets of air port plate are all horn-like, air passes through the total kilometres in air port between 20-30mm, air is first pressed into a wider gap when by air port, the continuous constriction in this gap, at the 3-5mm place near air port final outlet, the width in gap remains between 0.3-0.35mm, thereby is conducive to accelerate wind speed on the one hand, make on the other hand the lamellated shape of wind tool blowing out, be conducive to scrape off moisture content on hand; The air outlet angle of simultaneously upper and lower air outlet is all to the inclined to one side 5-10 degree of U-shaped work nest diapire, thereby make water when dry hand can not be blown on user's body, moisture content all flies away to U-shaped work nest inner side, and next has avoided upper and lower two losses that passage causes blowing completely in the direction perpendicular to U-shaped passage.

As of the present utility model preferred, between two described upper plates, be also provided with upper spacer; Between two described lower plates, be also provided with lower clapboard.

Thereby effectively avoiding the air channel grown to produce deformation when processing or assembling causes the narrow air channel of 0.3mm not form uniformly.

As of the present utility model preferably, described windward chamber comprise have longitudinal degree of depth upper channel, be fixed on the upper aerofoil in described upper channel; At least one sidewall on described upper aerofoil length direction forms described uptake with the gap between the corresponding sidewall of described upper channel; Described leeward chamber comprise have longitudinal degree of depth lower channel, be fixed on the leeboard in described lower channel; At least one sidewall on described leeboard length direction forms described lower air port with the gap between the corresponding sidewall of described lower channel.

In sum, the utlity model has following beneficial effect: the utility model is simple in structure, easy to implement, and there is the dry hand effect of good sterilization, and can effectively improve the efficiency of dry hand, the dry hand time of whole sterilization can be controlled in 20 seconds, and the dry hand time more can be controlled at 8-10 in second; And the utility model is rationally distributed, compactness, makes the interior space availability ratio of housing high, is conducive to reduce the volume of whole device; And housing adopts ceramic material, and monnolithic case is attractive in appearance, bright and clean.

Accompanying drawing explanation

Fig. 1 is embodiment 1 overall schematic;

Fig. 2 is upper leeward chamber schematic diagram in embodiment 1;

Fig. 3 is embodiment 1 middle shell internal structure schematic diagram;

Fig. 4 is upper filter structure schematic representation in embodiment 1;

Fig. 5 is upper inclined portion structural representation in embodiment 1;

Fig. 6 is upper spacer structural representation in embodiment 1;

Fig. 7 is the portion's structural representation that has a down dip in embodiment 1;

Fig. 8 is lower clapboard structural representation in embodiment 1;

Fig. 9 is embodiment 2 overall schematic;

Figure 10 is A portion enlarged diagram in Fig. 9;

Figure 11 is that embodiment 2 is inverted schematic diagram;

Figure 12 is B enlarged diagram in Figure 11;

Figure 13 is embodiment 2 middle shell internal part distribution axonometric drawings;

Figure 14 is embodiment 2 middle shell internal parts another axonometric drawings that distribute;

Figure 15 is interface schematic diagram in embodiment 2;

Figure 16 is embodiment 2 middle shell schematic diagrames.

In figure, 1, housing, 11-upper chamber, 111-fan, 112-windward chamber, 1121-uptake, the upper plate of 1122-, 11221-upper inclined portion, 1123-upper spacer, 1124-upper channel, the upper aerofoil of 1125-, the dry sensor on hand of 113-, 114-does subordinate sensor, 115-container chamber, 1151-interface, 11511-leads to liquid intubate, 11512-vented cannula, 11513-pipeline, 11514-tracheae, 1152-opening, 1153-mounting, 12-lower cavity, blower fan under 121-, 122-leeward chamber, air port under 1221-, plate under 1222-, the 12221-portion that has a down dip, 1223-lower clapboard, 1224-lower channel, 1225-leeboard, 13-work nest, 131-gateway, 14-sterile zones, 15-Gan Shou district, the upper filter of 161-, 1611-is just imitated particle filter screen, in 1612-, imitate particle filter screen, 163-case, 17-connecting portion, 21-disinfectant container, 211-charging aperture, 22-compression pump, the outlet of 23-thimerosal, the 241-upper sensor of sterilizing, the 251-lower sensor of sterilizing, 3-electric control gear.

The specific embodiment

Below in conjunction with accompanying drawing, the utility model is described in further detail.

This specific embodiment is only to explanation of the present utility model; it is not to restriction of the present utility model; those skilled in the art can make to the present embodiment the modification that there is no creative contribution as required after reading this description, but as long as within the scope of claim of the present utility model, are all subject to the protection of Patent Law.

Embodiment 1: as shown in Fig. 1-8, the dry arm device of a kind of sterilization, comprise by upper chamber 11 and lower cavity 12 and being connected and the housing 1 that forms in a side, between the cavity of top and the bottom, junction forms connecting portion 17, and form U-shaped work nest 13 between upper and lower cavity, U-shaped work nest 13 has gateway 131, stretching into and stretching out for human hands; The both sides of gateway 131 are the main exit of the air stream in U-shaped work nest 13 in dry hand process; Connecting portion 17 is formed at U-shaped work nest 13 and is parallel between the sidewall of this bottom surface towards bottom surface and the housing 1 of gateway 131; Housing 1 adopts ceramic material, makes whole bright and clean, attractive in appearance.

U-shaped work nest 13 is being distributed with 14Ji Ganshou district, sterile zones 15 side by side along being parallel to gateway 131 directions.

In upper chamber 11, be provided with windward chamber 112 and for windward chamber 112, carry the fan 111 of air streams, for improving the cleanliness factor of air, the air inlet of machine 111 of being in the wind is sealedly connected with filter 161, upper filter 161 by just imitate particle filter screen 1611 and active carbon spraying in effect particle filter screen 1612 form; Just effect particle filter screen 1611 is for the larger dust of filtered air, and the middle effect particle filter screen 1612 of active carbon spraying is for filtering the sapid gases such as little dust, aldehydes, alkanes; Fan 111 and upper filter 161 are located at the part that upper chamber 11 is positioned at sterile zones 14; The part that upper chamber 11 is positioned at Gan Shou district 15 is located in windward chamber 112; Windward chamber 112 is provided with the uptake 1121 of Xiang Ganshou district 15 output high speed pure air streams; Windward chamber 112 comprises that the gap between 1122, the two upper plates 1122 of upper plate that extend in Liang Gexianggan hand district 15 forms uptake 1121; For improving the speed of the air stream of Xiang Ganshou district 15 outputs, one of them on, plate 1122 has from top to bottom the upper inclined portion 11221 to another upper plate 1122 inclinations, thereby forms similar horn-likely, and air passes through the total kilometres in air port between 20-30mm; In order to make air, when blowing out uptake 1121, be that the lamella shape of gathering is so that scrape off the liquid on user's skin, gap between two upper plates 1122 is at the 3-5mm place near uptake 1121 final outlet, it is minimum that the width in gap reaches, and remain between 0.3-0.35mm; In order to avoid upper plate 1122, uptake 1121 width are inhomogeneous when mounted, improve in the air-out uniformity being parallel in 131 directions of gateway, between two upper plates 1122, are also provided with upper spacer 1123.

In lower cavity 12, be provided with leeward chamber 122 and for chamber alee 122, carry the lower blower fan 121 of air streams, for improving the cleanliness factor of air, air inlet at lower blower fan 121 is sealedly connected with lower filter, lower filter is consistent with upper filter 161 structures, all by just imitate the spraying of particle filter screen 1611 and active carbon in effect particle filter screen 1612 form; Just effect particle filter screen 1611 is for the larger dust of filtered air, and the middle effect particle filter screen 1612 of active carbon spraying is for filtering the sapid gases such as little dust, aldehydes, alkanes; Lower blower fan 121 and lower filter are located at the part that lower cavity 12 is positioned at sterile zones 14; The part that lower cavity 12 is positioned at Gan Shou district 15 is located in leeward chamber 122; Leeward chamber 122 is provided with the lower air port 1221 of Xiang Ganshou district 15 output high speed pure air streams; Leeward chamber 122 comprises that the gap between 1222, the two lower plates 1222 of lower plate that extend in Liang Gexianggan hand district 15 forms lower air port 1221; For improving the speed of the air stream of Xiang Ganshou district 15 outputs, one of them lower plate 1222 has the portion that has a down dip 12221 of tilting to another lower plate 1222 from bottom to top, thereby forms similar horn-likely, and the total kilometres of air by air port are between 20-30mm; In order to make air, when blowing out lower air port 1221, be that the lamella shape gathered is to scrape off the liquid on user's skin, gap between two upper plates 1122 is at the 3-5mm place near lower air port 1221 final outlet, it is minimum that the width in gap reaches, and remains between 0.3-0.35mm; For avoiding upper plate 1122 to descend air port 1221 width inhomogeneous when mounted, improve in the air-out uniformity being parallel in 131 directions of gateway, between two lower plates 1222, be also provided with lower clapboard 1223.

Simultaneously the air outlet angle of upper and lower air outlet is all to the inclined to one side 5-10 degree of U-shaped work nest 13 diapire, thereby water when dry hand can be blown on user's body, and moisture content all flies away to U-shaped work nest 13 inner sides, and being arranged on of this angle is not shown.

At upper and lower filter, be also all provided with case 163 outward.

In upper chamber 11, be also provided with disinfectant container 21, disinfectant container 21 in the direction perpendicular to gateway 131 with windward chamber 112 column distribution, and windward chamber 112 is more close to gateway 131; Disinfectant container 21 upward openings and be formed with charging aperture 211 through upper chamber 11; In lower cavity 12, be provided with compression pump 22, between compression pump 22 and disinfectant container 21, by pipeline, be connected, and be provided with in the part that lower cavity 11 is positioned at sterile zones 14 the thimerosal outlet 23 being connected by pipeline with compression pump 22.

In connecting portion 17, be also provided with the electric control gear 3 being all electrically connected with fan 111, lower blower fan 121 and compression pump 22; On housing 1, be also provided with two pairs of sensors that are electrically connected with electric control gear 3, be respectively dry hand sensor and sterilant sensor; Dry hand sensor comprises dry sensor 113 on hand, dry subordinate sensor 114; Dry sensor 113 is on hand located at upper chamber 11 and is positioned at the part directly over Gan Shou district 15, and dry subordinate sensor 114 is located at lower cavity 12 and is positioned at the part under Gan Shou district 15; Sterilant sensor comprises sterilization upper sensor 241, sterilization lower sensor 251; Sterilization upper sensor 241 is located at upper chamber 11 and is positioned at the part directly over sterile zones 14, and sterilization lower sensor 251 is located at lower cavity 12 and is positioned at the part under sterile zones 14.

While needing the dry hand of sterilization, first hand is stretched into the part that gateway 131 is positioned at sterile zones 14, stay for some time, for example 2 seconds, this time can freely arrange, and now sterilant sensor is responded to existence in one's hands, by electric control gear 3, impels compression pump 22 actions, by the quantitative thimerosal of thimerosal outlet 23 ejection, for user, carry out hand disinfection, after sterilization, hand is stretched into the part that gateway 131 is positioned at Gan Shou district 15, the existence in one's hands of dry hand sensor sensing, by electric control gear 3, impel upper and lower blower fan to move, thereby upwards in leeward chamber, carry pure air stream, simultaneously due to the setting of air outlet up and down, air stream in leeward chamber is overstock, thereby strengthened on the one hand the air pressure in upper leeward chamber, thereby make upper and lower air outlet speed higher, be beneficial to and improve dry hand efficiency, on the other hand because air pressure is larger, air liveness is high, the heat being obtained by blower fan loss spreads rapidly, and discharge from two air ports, thereby be more conducive to improve dry hand efficiency.

Embodiment 2: the dry arm device of a kind of sterilization, as shown in Fig. 9-16, comprise the housing 1 that has upper chamber 11 and the lower cavity 12 connecting in a side and be formed with the U-shaped work nest 13 with gateway 131 between the cavity of top and the bottom, U-shaped work nest 13 comprises along the 14Ji Ganshou district, sterile zones 15 that is parallel to gateway 131 directions column distribution.

In upper chamber 11, be positioned at sterile zones 14 directly over be provided with fan 111; The part being positioned in upper chamber 11 directly over Gan Shou district 15 is provided with windward chamber 112, the air stream that windward chamber 112 produces for bearing fan 111, and windward chamber 112 is provided with the uptake 1121 that air stream is provided for Xiang Ganshou district 15.

In lower cavity 12, be positioned at sterile zones 14 directly over be provided with lower blower fan 121; The part being positioned in lower cavity 12 under Gan Shou district 15 is provided with leeward chamber 122, the air stream that leeward chamber 122 produces for bearing lower blower fan 121, and leeward chamber 122 is provided with the lower air port 1221 that air stream is provided for Xiang Ganshou district 15.

For improving the cleanliness factor of air, the air inlet of the machine 111 of being in the wind is sealedly connected with filter 161, at the air inlet of lower blower fan 121, is sealedly connected with lower filter; Upper and lower filtration device structure is consistent, all by just imitate particle filter screen 1611 and active carbon spraying in effect particle filter screen 1612 form; Just effect particle filter screen 1611 is for the larger dust of filtered air, and the middle effect particle filter screen 1612 of active carbon spraying is for filtering the sapid gases such as little dust, aldehydes, alkanes; At upper and lower filter, be also all provided with case 163 outward; Upper and lower filter is referring to Fig. 4.

Windward chamber 112 comprise have longitudinal degree of depth upper channel 1124, be fixed on the upper aerofoil 1125 in upper channel 1124, at least one sidewall on upper aerofoil 1125 length directions forms uptake 1121 with the gap between the corresponding sidewall of upper channel 1124, in the present embodiment, three sides of upper aerofoil 1125 are all tightly connected with the corresponding sidewall of upper channel 1124, connected mode can be interference and connects, clamping etc., also can paste installation, the form of first pasting and then spraying paint, only between the corresponding sidewall of sidewall on remaining length direction and upper channel 1124, form uptake 1121, and the sidewall that upper aerofoil 1125 is used to form uptake 1121 has the tilting section that Upwards channel 1124 is used to form the sidewall slope of uptake 1121 from top to bottom, thereby form bell mouth shape, in order to make air, when blowing out uptake 1121, be that the lamella shape of gathering is so that scrape off the liquid on user's skin, gap between two upper aerofoils 1125 and the corresponding sidewall of upper channel 1124 is at the 3-5mm place of close uptake 1121 final outlet, it is minimum that the width in gap reaches, remain between 0.3-0.35mm.

Leeward chamber 122 comprise have longitudinal degree of depth lower channel 1224, be fixed on the leeboard 1225 in lower channel 1224, at least one sidewall on leeboard 1225 length directions forms lower air port 1221 with the gap between the corresponding sidewall of lower channel 1224, in the present embodiment, three sides of leeboard 1225 are all tightly connected with the corresponding sidewall of lower channel 1224, connected mode can be interference connection or clamping etc., only between the corresponding sidewall of sidewall on remaining length direction and lower channel 1224, form and descend air port 1221, and the sidewall that leeboard 1225 is used to form lower air port 1221 has the tilting section that is used to form the sidewall slope in lower air port 1221 to lower channel 1224 from bottom to top, thereby form bell mouth shape, in order to make air, when blowing out lower air port 1221, be that the lamella shape of gathering is so that scrape off the liquid on user's skin, gap between two leeboards 1225 and the corresponding sidewall of lower channel 1224 is at the 3-5mm place near lower air port 1221 final outlet, it is minimum that the width in gap reaches, remain between 0.3-0.35mm.

Simultaneously the air outlet angle of upper and lower air outlet is all to the inclined to one side 5-10 degree of U-shaped work nest 13 diapire, thereby water when dry hand can be blown on user's body, and moisture content all flies away to U-shaped work nest 13 inner sides, and being arranged on of this angle is not shown.

In housing 1, be also provided with for settle disinfectant container 21 container chamber 115 and with for being connected the compression pump 22 of disinfectant container 21; Container chamber 115 is positioned at upper chamber 11 and distributes side by side along the direction perpendicular to gateway 131 with windward chamber 112; Compression pump 22 is arranged in the position of lower cavity 12 under sterile zones 14.

In container chamber 115, be provided with for connecting the interface 1151 of disinfectant container 21, interface 1151 comprises all for inserting the logical liquid intubate 11511 and vented cannula 11512 of disinfectant container 21; Logical liquid intubate 11511 is connected by pipeline 11513 with compression pump 22; Vented cannula 11512 connects breather pipe 11514.

The part that upper chamber 11 is positioned at sterile zones 14 is provided with thimerosal outlet 23; Between thimerosal outlet 23 and compression pump 22, by pipeline 11513, be connected.

The top of container chamber 115 is provided with the opening 1152 of being convenient to put into disinfectant container 21, at this opening 1152, is also provided with for sealing the mounting 1153 of this opening 1152; One port of breather pipe 11514 extends to interface 1151 tops, approaches opening 1152 places, and disinfectant container 21 is connected in after interface 1151, and this port of breather pipe 11514 can be positioned at disinfectant container 21 tops.

The part that upper chamber 11 is positioned at directly over Gan Shou district 15 is also provided with dry sensor 113 on hand, and the part that lower cavity 12 is positioned under Gan Shou district 15 is also provided with and the dry dry subordinate sensor 114 that sensor 113 coordinates on hand; Dry sensor 113 on hand can be arranged in windward chamber 112, and dry subordinate sensor 114 can be arranged in leeward chamber 122.

The part that upper chamber 11 is positioned at directly over sterile zones 14 is also provided with sterilization upper sensor 241, and the part that lower cavity 12 is positioned under sterile zones 14 is also provided with the sterilization lower sensor 251 coordinating with the upper sensor 241 of sterilizing.

In housing 1, be also provided with the electric control gear 3 being all electrically connected with dry sensor 113 on hand, dry subordinate sensor 114, sterilization upper sensor 241, sterilization lower sensor 251, fan 111, lower blower fan 121 and compression pump 22; Electric control gear 3 is located in lower cavity 12 and with leeward chamber 122 and is distributed side by side along the direction perpendicular to gateway 131.

While needing the dry hand of sterilization, first hand is stretched into the part that gateway 131 is positioned at sterile zones 14, stay for some time, for example 2 seconds, this time can freely arrange, and now sterilant sensor is responded to existence in one's hands, by electric control gear 3, impels compression pump 22 actions, by the quantitative thimerosal of thimerosal outlet 23 ejection, for user, carry out hand disinfection, after sterilization, hand is stretched into the part that gateway 131 is positioned at Gan Shou district 15, the existence in one's hands of dry hand sensor sensing, by electric control gear 3, impel upper and lower blower fan to move, thereby upwards in leeward chamber, carry pure air stream, simultaneously due to the setting of air outlet up and down, air stream in leeward chamber is overstock, thereby strengthened on the one hand the air pressure in upper leeward chamber, thereby make upper and lower air outlet speed higher, be beneficial to and improve dry hand efficiency, on the other hand because air pressure is larger, air liveness is high, make the temperature in leeward chamber be increased, thereby be more conducive to improve dry hand efficiency.

Claims (10)

1. One kind sterilization dry arm device, it is characterized in that, comprise and have upper chamber (11) and the lower cavity (12) connecting in a side and between the cavity of top and the bottom, be formed with the have gateway housing (1) of U-shaped work nest (13) of (131), described U-shaped work nest (13) comprises that edge is parallel to the Ji Ganshou district, sterile zones (14) (15) of described gateway (131) direction column distribution; In described upper chamber (11), be provided with fan (111) and be provided with for bearing the air stream that described fan (111) produces and having for the windward chamber (112) of the uptake (1121) of air stream is provided to described Gan Shou district (15) being positioned at part directly over described Gan Shou district (15); In lower cavity (12), be provided with lower blower fan (121) and be provided with for bearing the air stream that described lower blower fan (121) produces and having for the leeward chamber (122) in the lower air port (1221) of air stream is provided to described Gan Shou district (15) being positioned at part under described Gan Shou district (15); In described housing (1), be also provided with container chamber (115) for settling disinfectant container (21) and with for being connected the compression pump (22) of disinfectant container (21); The part that described upper chamber (11) is positioned at described sterile zones (14) is provided with thimerosal outlet (23); The part that described upper chamber (11) is positioned at directly over described Gan Shou district (15) is also provided with dry sensor (113) on hand, and the part that described lower cavity (12) is positioned under described Gan Shou district (15) is also provided with and the described dry dry subordinate sensor (114) that sensor (113) coordinates on hand; The part that described upper chamber (11) is positioned at directly over described sterile zones (14) is also provided with sterilization upper sensor (241), and the part that described lower cavity (12) is positioned under described sterile zones (14) is also provided with the sterilization lower sensor (251) coordinating with described sterilization upper sensor (241); In described housing (1), be also provided with the electric control gear (3) being all electrically connected with described dry sensor (113) on hand, dry subordinate sensor (114), sterilization upper sensor (241), sterilization lower sensor (251), fan (111), lower blower fan (121) and compression pump (22).
2. 2. the dry arm device of a kind of sterilization according to claim 1, is characterized in that, described fan (111) is located at the part of described upper chamber (11) directly over described sterile zones (14).
3. 3. the dry arm device of a kind of sterilization according to claim 1 and 2, is characterized in that, described lower blower fan (121) is located at the part of described lower cavity (12) under described sterile zones (14).
4. 4. the dry arm device of a kind of sterilization according to claim 1, is characterized in that, the air inlet place of described fan (111) is sealedly connected with filter (161); The air inlet place of described lower blower fan (121) is sealedly connected with lower filter.
5. 5. the dry arm device of a kind of sterilization according to claim 1, is characterized in that, described container chamber (115) is positioned at described upper chamber (11) and distributes side by side along the direction perpendicular to described gateway (131) with described windward chamber (112); Described compression pump (22) is arranged in the position of described lower cavity (12) under described sterile zones (14).
6. 6. the dry arm device of a kind of sterilization according to claim 1, is characterized in that, described electric control gear (3) is located in described lower cavity (12) and with described leeward chamber (122) and is distributed side by side along the direction perpendicular to described gateway (131).
7. 7. the dry arm device of a kind of sterilization according to claim 1 or 5, it is characterized in that, in described container chamber (115), be provided with the interface (1151) for connecting disinfectant container (21), described interface (1151) comprises all for inserting the logical liquid intubate (11511) and vented cannula (11512) of disinfectant container (21); Described logical liquid intubate (11511) is connected by pipeline (11513) with described compression pump (22); Described vented cannula (11512) connects breather pipe (11514).
8. 8. the dry arm device of a kind of sterilization according to claim 1, it is characterized in that, described windward chamber (112) comprises two upper plates (1122) that extend to described Gan Shou district (15), and the gap between two described upper plates (1122) forms described uptake (1121); Described leeward chamber (122) comprises two lower plates (1222) that extend to described Gan Shou district (15), and the gap between two described lower plates (1222) forms described lower air port (1122).
9. 9. the dry arm device of a kind of sterilization according to claim 8, is characterized in that, goes up plate (1122) and have from top to bottom to going up the upper inclined portion (11221) that plate (1122) tilts described in another described in one of them; Described in one of them, plate (1222) has from bottom to top to the portion that has a down dip (12221) that descends plate (1222) to tilt described in another down.
10. 10. the dry arm device of a kind of sterilization according to claim 1, is characterized in that, described windward chamber (112) comprise have longitudinal degree of depth upper channel (1124), be fixed on the upper aerofoil (1125) in described upper channel (1124); At least one sidewall on described upper aerofoil (1125) length direction forms described uptake (1121) with the gap between the corresponding sidewall of described upper channel (1124); Described leeward chamber (122) comprise have longitudinal degree of depth lower channel (1224), be fixed on the leeboard (1225) in described lower channel (1224); At least one sidewall on described leeboard (1225) length direction forms described lower air port (1221) with the gap between the corresponding sidewall of described lower channel (1224).