CN201880066U - Reaction device for disinfection - Google Patents

Abstract

The utility model relates to a reaction device for disinfection in a disinfecting and sterilizing device. The utility model provides the reaction device for disinfection, which comprises a bracket, a reaction container, a reaction-container control mechanism and a controller, wherein the reaction container is arranged on the bracket, the reaction-container control mechanism is used for controlling the cover opening and the cover closing of the reaction container, the controller is used for controlling the reaction-container control mechanism, the reaction container comprises a tank body capable of carrying out physical or chemical reaction and a sealing cover for sealing the tank body, the reaction-container control mechanism comprises a power part and a rotary driving mechanism, the rotary driving mechanism is connected with the sealing cover, a cover-opening position sensor and a cover-closing position sensor for sensing the position of the sealing cover are arranged on the bracket, and the controller is respectively connected with the power part, the cover-opening position sensor and the cover-closing position sensor. The utility model has the beneficial effects that: the cover opening and the cover closing of the reaction container are controlled through the reaction-container control mechanism, so that the automatic control for the cover opening and the cover closing of the reaction container can be realized.

Description

Be used for the disinfectant reaction unit

Technical field

This utility model relates to sterilization, sterilizing unit, relates in particular to a kind of disinfectant reaction unit that is used in sterilization, the sterilizing unit.

Background technology

The interior space at family, hotel, office building, school, hospital, dining room, KTV parlor, station, terminal or the like, the clean health that directly influences people of air, therefore need termly indoor environment to be sterilized, sterilizes, to guarantee indoor environmental hygiene, cleaning, prevent that the habitant or the public are subjected to the infringement of morbid substance such as toxic and harmful or virus and influence healthy or suffer from disease.Existing disinfection of indoor air method mainly contains with the atomizers spray disinfectant solution or with disinfectant solution directly carries out wiping to indoor article; Perhaps use air cleaner, by room air being carried out circulating filtration and carry out biocidal through ultraviolet or disinfectant solution, and employed disinfectant solution mostly is peracetic acid.

Chlorine dioxide (ClO2) be the wide spectrum, safety of the latest generation of generally acknowledging in the world for a long time, efficiently the A1 level sterilize, disinfectant, its pathogenic microorganism to all air and water body propagation all has good killing effect, and do not develop immunity to drugs, especially typhoid fever, hepatitis A, hepatitis B, poliomyelitis, escherichia coli, HIV (human immunodeficiency virus) etc. are more had good killing effect.And chlorine dioxide antiseptic disinfectant is a kind of nontoxic product, can not produce damage to oral mucosa, skin and hair with its sterilization, sterilization, and it all is perfectly safe on acute toxicity and genetic toxicology.In multiple common disinfectants, in the identical time, reach same sterilizing rate, the needed concentration of chlorine dioxide is minimum.But because chlorine dioxide is a kind of gas and its aqueous solution instability, chlorine dioxide is volatile, from aqueous solution, evaporate easily with gaseous form, in addition because chlorine dioxide has the characteristics of extremely strong oxidisability and easy optics decomposition, the accumulating difficulty, therefore up to the present its to be applied to disinfection of indoor air as antibacterial still very limited.At present, the reaction unit that is used to produce chlorine dioxide is a kind of easy reaction vessel, can't realize uncapping, closing the automatic control of lid.

Summary of the invention

In order to solve the reaction unit that is used to produce chlorine dioxide in the prior art is a kind of easy reaction vessel, can't realize uncapping, close the problem of the automatic control of lid, and this utility model provides a kind of disinfectant reaction unit that is used for.

This utility model provides a kind of disinfectant reaction unit that is used for, comprise support, be arranged on the reaction vessel on the described support, controlling described reaction vessel uncaps, close the reaction vessel controlling organization of lid and the controller of the described reaction vessel controlling organization of control, described reaction vessel comprises tank body that can carry out physics or chemical reaction and the capping that seals described tank body, described reaction vessel controlling organization comprises power part and rotating actuator, described rotating actuator is connected with described capping, the position sensor of uncapping that described support is provided with the described closure position of induction covers position sensor with closing, described capping is provided with induction part, described rotating actuator drives described induction part and covers between the position sensor at the position sensor and closing of uncapping and move, described controller respectively with described power part, the position sensor of uncapping covers position sensor and is connected with closing.

As further improvement of the utility model, described power part is a motor, described rotating actuator is a gear drive, described gear drive comprises the power shaft that is connected with described motor, be arranged on driving gear on the described power shaft, with the driven gear and the output shaft that is connected with described driven gear of described driving gear engagement, described output shaft is arranged on the described support, and described output shaft and described capping are in transmission connection for rotation.

As further improvement of the utility model, described output shaft is provided with around it and circumferentially distributes and drive the first oblique step surface that climbs that described capping is climbed, described capping is provided with connecting cylinder, described connecting cylinder is provided with and the suitable containing hole of described output shaft, be provided with in the described containing hole around its circumferentially distribute and with the second suitable oblique step surface that climbs of the described first oblique step surface that climbs, described second oblique step surface and the described first oblique step surface that climbs of climbing connects.

As further improvement of the utility model, described support comprises gripper shoe and the output shaft support that is fixed on the described gripper shoe, be fixed with bearing on the described output shaft support, described bearing is arranged on the described output shaft, described output shaft passes described gripper shoe and is connected with described capping, described output shaft is provided with elastic mechanism, and described elastic mechanism one end is connected with described output shaft, and the other end is connected with described support.

As further improvement of the utility model, described elastic mechanism comprises fixing head and the spring that is fixed on the described output shaft, and described spring one end is connected with described fixing head, and the other end is connected with described gripper shoe.

As further improvement of the utility model, described output shaft support comprises base plate and the side plate that is connected with described base plate both sides, and described side plate is connected with described gripper shoe.

As further improvement of the utility model, described driving gear is a spur gear, and described driven tooth gear is a spur gear, and the oral area of described reaction vessel is provided with O-ring seal, described O-ring seal is provided with ring-shaped groove, and the oral area of described reaction vessel is arranged in the described ring-shaped groove.

As further improvement of the utility model, the described position sensor and close and cover position sensor and be separately positioned on the described gripper shoe of uncapping, the described position sensor and close and cover position sensor and be photoelectric sensor of uncapping, described induction part is a light barrier, described light barrier is convexly equipped with the edge in described capping, described light barrier with the rotation of described capping at the described position sensor and close to cover between the position sensor and move of uncapping.

As further improvement of the utility model, the edge of described capping is provided with the flange that radially protrudes along it, described connecting cylinder and described light barrier are separately positioned on the described flange, described connecting cylinder is between described light barrier and described capping, described gripper shoe is provided with through hole that passes for described output shaft and the curved flanges that circumferentially distributes around described through hole, and the cylindrical side of described connecting cylinder and the interior round side of described curved flanges fit.

As further improvement of the utility model, be provided with liquid level sensor in the described tank body, described tank body is connected with water supply installation, drainage arrangement, feeder and exhaust apparatus, and described controller is connected with described liquid level sensor, water supply installation, drainage arrangement, feeder and exhaust apparatus respectively.

The beneficial effects of the utility model are: by such scheme, uncap, close lid by reaction vessel controlling organization control reaction vessel, but realization response article handling, the automatic control of closing lid.

Description of drawings

Fig. 1 is a kind of structural representation that is used for the disinfectant reaction unit of this utility model;

Fig. 2 is the partial enlarged drawing A of Fig. 1;

Fig. 3 is the front view that is used for the disinfectant reaction unit described in the utility model;

Fig. 4 is the partial structurtes sketch map that is used for the disinfectant reaction unit described in the utility model; ,

Fig. 5 is the control principle block diagram that is used for the disinfectant reaction unit described in the utility model.

The specific embodiment

Below in conjunction with the description of drawings and the specific embodiment this utility model is further specified.

Drawing reference numeral among Fig. 1 to Fig. 5 is: reaction vessel 1; Tank body 11; Capping 12; Flange 121; Light barrier 122; Connecting cylinder 123; Reaction vessel controlling organization 2; Motor 21; Driving gear 22; Power shaft 221; Driven tooth axle 23; Output shaft 231; Bearing 24; Fixing head 25; Spring 26; Support 3; Gripper shoe 31; Through hole 311; The position sensor mounting groove 312 of uncapping; Close and cover position sensor mounting groove 313; Curved flanges 314; Controller 100; The position sensor 101 of uncapping; Close and cover position sensor 102; Liquid level sensor 103; Water supply installation 104; Drainage arrangement 105; Feeder 106; Exhaust apparatus 107.

Extremely shown in Figure 5 as Fig. 1, a kind of disinfectant reaction unit that is used for, comprise support 3, be arranged on the reaction vessel 1 on the described support 3, controlling described reaction vessel 1 uncaps, close the reaction vessel controlling organization 2 of lid and the controller 100 of the described reaction vessel controlling organization 2 of control, described reaction vessel 1 comprises tank body 11 that can carry out physics or chemical reaction and the capping 12 that seals described tank body 11, described reaction vessel controlling organization 2 comprises power part and rotating actuator, described rotating actuator is connected with described capping 12, the position sensor 101 of uncapping that described support 3 is provided with the described capping of induction 12 positions covers position sensor 102 with closing, described capping is provided with induction part, described rotating actuator drives described induction part and covers between the position sensor 102 at the position sensor 101 and closing of uncapping and move, described controller 100 respectively with described power part, the position sensor 101 of uncapping covers position sensor 102 and is connected with closing.

As shown in Figure 1 to Figure 3, described power part is a motor 21, described motor 21 is preferably motor, described rotating actuator is a gear drive, described gear drive comprises the power shaft 221 that is connected with described motor 21, be arranged on the driving gear 22 on the described power shaft 221, driven gear 23 and the output shaft 231 that is connected with described driven gear 23 with described driving gear 22 engagements, described output shaft 231 is arranged on the described support, described output shaft 231 is in transmission connection for rotation with described capping 12, described output shaft 231 is connected by the rotation drive mechanism with described capping 12, also be provided with the structure of climbing that to climb by the described capping 12 of described output shaft 231 rotating drive between described output shaft 231 and the described capping 12, be provided with the axial limiting structure between described output shaft 231 and the described support.

As shown in Figure 1 to Figure 3, described output shaft 231 is provided with around it and circumferentially distributes and drive the first oblique step surface that climbs that described capping is climbed, described capping 23 is provided with connecting cylinder 123, described connecting cylinder 123 is provided with the containing hole suitable with described output shaft 231, be provided with in the described containing hole around its circumferentially distribute and with the second suitable oblique step surface that climbs of the described first oblique step surface that climbs, described second oblique step surface and the described first oblique step surface that climbs of climbing connects, first oblique step surface and the described second oblique step surface that climbs of climbing is the structure of climbing, can drive described capping 12 by rotatablely moving of described output shaft 231 climbs, be specially, driving described capping 12 by described first oblique climb step surface and the described second oblique step surface that climbs moves up in Unscrew, in rotary closing, move down, described output shaft 231 and described capping 12 are in transmission connection for rotation movable up and down, described output shaft 231 is in transmission connection and can realizes by key with the rotation of described capping 12, also can realize by the tube-in-tube structure of prism, containing hole is six prismatic holes as described, described output shaft 231 is six prisms, described containing hole is enclosed within on the described output shaft 231, the rotation transmission of described output shaft 231 and described capping 12 can be realized, relatively moving up and down of described output shaft 231 and described capping 12 can be realized again.

As shown in Figure 1 to Figure 3, described support 3 comprises gripper shoe 31 and the output shaft support 32 that is fixed on the described gripper shoe 31, be fixed with bearing 24 on the described output shaft support 32, described bearing 24 is arranged on the described output shaft 231, can realize axial limiting by described bearing 24 to described output shaft 231, form the axial limiting structure, described output shaft 231 passes described gripper shoe 31 and is connected with described capping 12, described output shaft 231 is provided with elastic mechanism, described elastic mechanism one end is connected with described output shaft 231, and the other end is connected with described support 3.

As shown in Figure 1 to Figure 3, described elastic mechanism comprises fixing head 25 and the spring 26 that is fixed on the described output shaft 231, described spring 26 is preferably the compression spring, described spring 26 1 ends and described fixing head 25 connect, the other end and described gripper shoe 31 connect, and reset by up and down the providing of described spring 26 for described output shaft.

As shown in Figure 1 to Figure 3, described output shaft support 32 comprises base plate and the side plate that is connected with described base plate both sides, and described side plate is connected with described gripper shoe 31, and promptly described output shaft support 32 roughly takes the shape of the letter U.

As shown in Figure 1 to Figure 3, described driving gear 22 is a spur gear, described driven tooth gear 2 is a spur gear, therefore, described driving gear 22 can also carry out relative displacement up and down with described driven gear 23 in engagement, the oral area of described reaction vessel 1 is provided with O-ring seal, described O-ring seal is provided with ring-shaped groove, the oral area of described reaction vessel 1 is arranged in the described ring-shaped groove, because described capping 12 when opening or closing, also has motion up or down, therefore, can avoid the described O-ring seal of described capping 12 wearing and tearing, help keeping the sealing of described reaction vessel 1.

As shown in Figure 1 to Figure 3, the described position sensor 101 and close and cover position sensor 102 and be separately positioned on the described gripper shoe 31 of uncapping, the described position sensor 101 and close and cover position sensor 102 and be photoelectric sensor of uncapping, described induction part is a light barrier 122, described light barrier 122 is convexly equipped with the edge in described capping 12, described light barrier 122 with the rotation of described capping 12 at the described position sensor 101 and close to cover between the position sensor 102 and move of uncapping, can cover the anglec of rotation that position sensor 102 is controlled described capping 12 with closing by the described position sensor 101 of uncapping, and the rotary state of described capping 12 fed back to described control part 100, the rotating of controlling 100 described motors 21 for described controller provides the basis.

As shown in Figures 1 to 4, the edge of described capping 12 is provided with along its flange that radially protrudes 121, described connecting cylinder 123 and described light barrier 122 are separately positioned on the described flange 121, described connecting cylinder 123 is between described light barrier 122 and described capping 12, described gripper shoe 31 is provided with the through hole 311 that passes for described output shaft 231, around the circumferential curved flanges 314 that distributes of described through hole, the position sensor mounting groove 312 and described closing is installed covers closing of position sensor 102 and cover position sensor mounting groove 313 of uncapping of the described position sensor 101 of uncapping is installed, the end of described output shaft 231 can be provided with the axial limiting step surface, described axial limiting step surface is hung on the described gripper shoe, can realize axially up and down spacing to described output shaft 231, form the axial limiting structure, the cylindrical side of described connecting cylinder 123 and the interior round side of described curved flanges 314 fit, when described connecting cylinder 123 moved up and down under the effect of described output shaft 231, described curved flanges 314 can be described connecting cylinder 123 activity-oriented is provided.

To shown in Figure 5, the described position sensor 101 of uncapping covers position sensor 102 90 degree distributions at interval with closing as Fig. 1.

Extremely shown in Figure 5 as Fig. 1, be provided with liquid level sensor 103 in the described tank body 11, described liquid level sensor 103 comprises two electrode bars, can realize detection by the conducting of two electrode bars to liquid level, described tank body 11 is connected with water supply installation 104, drainage arrangement 105, feeder 106 and exhaust apparatus 107, described controller 100 respectively with described liquid level sensor 103, water supply installation 104, drainage arrangement 105, feeder 106 is connected with exhaust apparatus 107, described liquid level sensor 106 can monitor in the described tank body 1 height of water level and with the information feedback that monitored to described controller 100, controlling water supply installation 104 by described controller 100 according to described liquid level sensor 106 feedacks supplies water or controls drainage arrangement 105 and carry out draining, and import gases by the control feeder 106 of described controller 100, chlorine dioxide behind the diluting reaction, realize safety dumping, control exhaust apparatus 107 by described controller 100 carries out aerofluxus again, chlorine dioxide after the dilution is discharged into space on every side, carries out disinfection, sterilization.

The bottom of described tank body 11 is provided with micropore interlayer and discharge outlet from top to bottom successively, be that described micropore interlayer is positioned on the described discharge outlet, described discharge outlet is provided with drain valve, described drain valve is connected with described drainage arrangement 105, described micropore interlayer plays the outflow of reactant liquor in course of reaction and delays, the effect that stops, after reaction finishes, open described drain valve, waste liquid can pass described micropore interlayer by infiltration and discharge, described drain valve is provided with the gear of its break-make of control, described gear is connected with the control motor, described drain valve is connected with air pump by trachea or pipeline, whether jet can control by described air pump, compressed air is positioned at described tank body 11 and is positioned at reactant liquor on the described micropore interlayer being blown into via the micropore of micropore interlayer under the effect of described air pump, in reaction solution, form a large amount of tiny bubbles, can play good agitaion, tiny bubble is under compressed-air actuated pressure effect, in reaction solution, constantly upwards float, and finally break away from reaction solution, break then, attached to the chlorine dioxide molecule on the bubble will its disruptive moment at tank body 11 internal diffusion, the chlorine dioxide molecule that reaction is generated quickens to overflow and reacts fully fully; Can prevent that also pharmacy particle precipitation or product crystallization from resting on micropore interlayer surface, the infiltration when influencing draining.

In order to guarantee the required temperature of described tank body 11 internal reactions, improve response speed and effect, reaction vessel 1 also comprises the heater that is arranged at tank body 11 bottom outside walls, described heater is connected with controller 100, described heater heats for reaction vessel 1 according to the instruction of controller 100, to keep the having required temperature of reaction in the described tank body 11.

To shown in Figure 5, a kind of operation principle that is used for the disinfectant reaction unit that this utility model provides is as Fig. 1:

1, when uncapping, send the order of uncapping to described motor 21 by described control part 100, motor 21 is just changeing, driving power shaft 221 is just changeing, power shaft 221 drives driving gear 22 just to be changeed, driving gear 22 drives driven gear 23 just to be changeed, driven gear 23 drives output shaft 231 just to be changeed, output shaft 231 is opened capping 12 with capping 12 top and drive capping 12 and outwards rotate upwards, when the light barrier 122 of capping 12 blocks when uncapping position sensor 101, the position sensor 101 of the uncapping order of finishing of will uncapping sends to control part 100, control part 100 control motors 21 stop operating, and finish and uncap, the action of can offeing medicine;

2, close when covering, close lid by described control part 100 transmissions and order described motor 21, motor 21 counter-rotatings, drive power shaft 221 counter-rotatings, power shaft 221 drives driving gear 22 counter-rotatings, driving gear 22 drives driven gear 23 counter-rotatings, driven gear 23 drives output shaft 231 counter-rotatings, output shaft 231 drives cappings 12 and inwardly rotates and drive capping 12 and move downward, and closes capping 12, closes when covering position sensor 102 when the light barrier 122 of capping 12 blocks, close and cover position sensor 102 and will close the order finished of lid and send to control part 100, control part 100 control motors 21 stop operating, and finish and close lid, can react.

Lid is uncapped, closed to a kind of disinfectant reaction unit that is used for that this utility model provides by reaction vessel controlling organization control reaction vessel, but realization response article handling, the automatic control of closing lid, for the automatization of decontaminating apparatus provides good basis.

Above content be in conjunction with concrete preferred implementation to further describing that this utility model is done, can not assert that concrete enforcement of the present utility model is confined to these explanations.For this utility model person of an ordinary skill in the technical field, under the prerequisite that does not break away from this utility model design, can also make some simple deduction or replace, all should be considered as belonging to protection domain of the present utility model.

Claims (10)

1. one kind is used for the disinfectant reaction unit, it is characterized in that: comprise support (3), be arranged on the reaction vessel (1) on the described support (3), controlling described reaction vessel (1) uncaps, close the reaction vessel controlling organization (2) of lid and the controller (100) of the described reaction vessel controlling organization of control (2), described reaction vessel (1) comprises tank body (11) that can carry out physics or chemical reaction and the capping (12) that seals described tank body (11), described reaction vessel controlling organization (2) comprises power part and rotating actuator, described rotating actuator is connected with described capping (12), described support (3) is provided with the position sensor of uncapping (101) of induction described capping (12) position and closes and covers position sensor (102), described capping is provided with induction part, described rotating actuator drives described induction part at the position sensor of uncapping (101) with close to cover between the position sensor (102) and move, described controller (100) respectively with described power part, the position sensor (101) of uncapping covers position sensor and is connected (102) with closing.

2. according to the described disinfectant reaction unit that is used for of claim 1, it is characterized in that: described power part is motor (21), described rotating actuator is a gear drive, described gear drive comprises the power shaft (221) that is connected with described motor (21), be arranged on the driving gear (22) on the described power shaft (221), driven gear (23) and the output shaft (231) that is connected with described driven gear (23) with described driving gear (22) engagement, described output shaft (231) is arranged on the described support, and described output shaft (231) is in transmission connection for rotation with described capping (12).

3. according to the described disinfectant reaction unit that is used for of claim 2, it is characterized in that: described output shaft (231) is provided with around it and circumferentially distributes and drive the first oblique step surface that climbs that described capping is climbed, described capping (12) is provided with connecting cylinder (123), described connecting cylinder (123) is provided with and the suitable containing hole of described output shaft (231), be provided with in the described containing hole around its circumferentially distribute and with the second suitable oblique step surface that climbs of the described first oblique step surface that climbs, described second oblique step surface and the described first oblique step surface that climbs of climbing connects.

4. according to the described disinfectant reaction unit that is used for of claim 3, it is characterized in that: described support (3) comprises gripper shoe (31) and is fixed on output shaft support (32) on the described gripper shoe (31), be fixed with bearing (24) on the described output shaft support (32), described bearing (24) is arranged on the described output shaft (231), described output shaft (231) passes described gripper shoe (31) and is connected with described capping (23), described output shaft (231) is provided with elastic mechanism, described elastic mechanism one end is connected with described output shaft (231), and the other end is connected with described support (3).

5. according to the described disinfectant reaction unit that is used for of claim 4, it is characterized in that: described elastic mechanism comprises fixing head (25) and the spring (26) that is fixed on the described output shaft (231), described spring (26) one ends are connected with described fixing head (25), and the other end is connected with described gripper shoe (31).

6. according to the described disinfectant reaction unit that is used for of claim 4, it is characterized in that: described driving gear (22) is a spur gear, described driven tooth gear (23) is a spur gear, described output shaft (231) support comprises base plate and the side plate that is connected with described base plate both sides, and described side plate is connected with described gripper shoe (31).

7. according to the described disinfectant reaction unit that is used for of claim 4, it is characterized in that: the oral area of described reaction vessel (1) is provided with O-ring seal, described O-ring seal is provided with ring-shaped groove, and the oral area of described reaction vessel (1) is arranged in the described ring-shaped groove.

8. according to the described disinfectant reaction unit that is used for of claim 4, it is characterized in that: the described position sensor of uncapping (101) and close and cover position sensor (102) and be separately positioned on the described gripper shoe (31), the described position sensor of uncapping (101) and close and cover position sensor (102) and be photoelectric sensor, described induction part is light barrier (122), described light barrier (122) is convexly equipped with the edge in described capping (12), described light barrier (122) with the rotation of described capping (12) at the described position sensor of uncapping (101) with close to cover between the position sensor (102) and move.

9. the described according to Claim 8 disinfectant reaction unit that is used for, it is characterized in that: the edge of described capping (12) is provided with along its flange that radially protrudes (121), described connecting cylinder (123) and described light barrier (122) are separately positioned on the described flange (121), described connecting cylinder (123) is positioned between described light barrier (122) and the described capping (12), described gripper shoe (31) is provided with through hole (311) that passes for described output shaft (231) and the curved flanges (314) that circumferentially distributes around described through hole (311), and the interior round side of the cylindrical side of described connecting cylinder (123) and described curved flanges (314) fits.

10. according to the described disinfectant reaction unit that is used for of claim 1, it is characterized in that: be provided with liquid level sensor (103) in the described tank body (1), described tank body (1) is connected with water supply installation (104), drainage arrangement (105), feeder (106) and exhaust apparatus (107), and described controller is connected with described liquid level sensor (103), water supply installation (104), drainage arrangement (105), feeder (106) and exhaust apparatus (107) respectively.

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