CN211962658U - Intelligent sterilizing lamp - Google Patents
Intelligent sterilizing lamp Download PDFInfo
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- CN211962658U CN211962658U CN202020376588.1U CN202020376588U CN211962658U CN 211962658 U CN211962658 U CN 211962658U CN 202020376588 U CN202020376588 U CN 202020376588U CN 211962658 U CN211962658 U CN 211962658U
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Abstract
The utility model relates to the technical field of ultraviolet sterilization devices, in particular to an intelligent sterilization lamp, which comprises an ultraviolet lamp tube, an infrared induction module, a human body induction module and a control circuit module; the lamp also comprises a shell and a lamp holder arranged in the shell; one side of the lamp holder is a fixed side, and the side deviating from the fixed side is an installation side; the fixed side of the lamp holder is fixedly connected with the inner side wall of the shell; a mounting cavity is formed between the fixed side and the inner side wall of the shell, and the control circuit module is arranged in the mounting cavity and mounted on the fixed side of the lamp holder; the infrared induction module and the human body induction module are arranged at the same side of the ultraviolet lamp tube at intervals, and the induction ends of the infrared induction module and the human body induction module face towards the illumination side of the ultraviolet lamp tube. The utility model provides an intelligent bactericidal lamp can compromise product compact structure design under the prerequisite that satisfies effective sterilization and do not harm human and animal health for can promote intelligent bactericidal lamp's result of use.
Description
Technical Field
The utility model relates to an ultraviolet sterilizing equipment technical field, concretely relates to intelligence bactericidal lamp.
Background
In the season of high occurrence of epidemic diseases (for example, epidemic diseases such as influenza, mouth, feet, hands and bird flu), bacteria cross infection is easily generated in places where people gather such as restaurants, elevators, or malls, and therefore, in the prior art, an ultraviolet germicidal lamp device is additionally installed in the places where people gather for sterilization. The scientific principle of ultraviolet disinfection: mainly acts on the DNA of microorganisms to destroy the structure of the DNA, so that the DNA loses the functions of reproduction and self-replication, thereby achieving the aims of sterilization and disinfection. Ultraviolet sterilization belongs to physical sterilization, has the advantages of no color and smell and no chemical substance left, and is called as the simplest and most effective sterilization solution.
For example, chinese patent publication No. CN108079333A discloses an omnidirectional irradiation ultraviolet germicidal lamp, which comprises a base, four universal wheels are arranged at the bottom of the base, and a cavity is arranged in a housing; a protective door is arranged at the opening of the cavity; a support rod is arranged on the base; the support rod is provided with an ultraviolet germicidal lamp; the base is connected with the support rod through a fixed shaft; the supporting rod can rotate by taking the fixed shaft as a center; the upper end of the supporting rod is provided with a pushing handle; the fixed shaft is provided with an elastic knob for positioning the supporting rod; the support rod is connected with the ultraviolet germicidal lamp through a fixed shaft; a control cabinet is arranged in the cavity; a timer, a circuit control panel and a switch are arranged in the control cabinet.
The above-mentioned all-round irradiation ultraviolet germicidal lamp in the existing scheme is also an intelligent germicidal lamp, which includes an ultraviolet lamp tube (equivalent to the ultraviolet germicidal lamp in the above-mentioned scheme) and a control circuit module (equivalent to the control cabinet in the above-mentioned scheme) for controlling the working state of the ultraviolet lamp tube; in the existing scheme, the control circuit module controls the ultraviolet lamp tube to work through the set sterilization working time length to finish sterilization. However, although the ultraviolet light emitted by the ultraviolet lamp tube can sterilize, the ultraviolet light also can cause certain damage to the health of human bodies or animals; and the ultraviolet has the characteristics of no color, smell and chemical substance residue, so that the human body or the animal does not have any abnormal feeling when being irradiated by the ultraviolet light, and the human body or the animal can be damaged by the ultraviolet light in a 'stealth' manner, thereby causing the poor use effect of the intelligent germicidal lamp.
Based on the above problems, the applicant has developed the following ideas: the control module controls the ultraviolet lamp tube to work; the target area is detected through the infrared sensing module and the human body sensing module, and a corresponding living object detection signal can be sent out when human bodies or animals exist in the target sterilization area; when the control unit receives the living object detection signal, the control unit controls the ultraviolet lamp tube to stop working, thereby avoiding the ultraviolet light from damaging human bodies or animals. Based on the above thought, how to design out the intelligent bactericidal lamp product structure that can satisfy above-mentioned function is a problem of treating to solve. In addition, in the existing practical application scenario, no special intelligent germicidal lamp space is left, so that the installation position and the installation space of the intelligent germicidal lamp are very limited, and therefore, the miniaturization design of the intelligent germicidal lamp is also very necessary.
SUMMERY OF THE UTILITY MODEL
To the not enough of above-mentioned prior art, the utility model aims to solve the technical problem that: how to provide one kind can satisfy effectively disinfecting and do not endanger under human and animal healthy prerequisite, compromise the intelligent bactericidal lamp of product compact structure type design to promote the result of use of intelligent bactericidal lamp.
In order to solve the technical problem, the utility model discloses a following technical scheme:
an intelligent germicidal lamp comprises an ultraviolet lamp tube, an infrared sensing module, a human body sensing module and a control circuit module, wherein the control circuit module is electrically connected with the ultraviolet lamp tube and is in signal connection with the infrared sensing module and the human body sensing module; the lamp also comprises a shell and a lamp holder arranged in the shell; one side of the lamp holder is a fixed side, and the side departing from the fixed side is an installation side; the fixed side of the lamp holder is fixedly connected with the inner side wall of the shell; an installation cavity is formed between the fixed side and the inner side wall of the shell, and the control circuit module is arranged in the installation cavity and is installed on the fixed side of the lamp holder; the ultraviolet lamp tube, the infrared sensing module and the human body sensing module are all arranged on the mounting side of the lamp holder; the infrared induction module and the human body induction module are arranged at the same side of the ultraviolet lamp tube at intervals, and the induction ends of the infrared induction module and the human body induction module face the illumination side of the ultraviolet lamp tube.
In the scheme, the ultraviolet lamp tube is arranged in the target sterilization area, and the control circuit module controls the ultraviolet lamp tube to emit ultraviolet light to sterilize the target sterilization area according to the preset sterilization working time; if people or animals enter the target sterilization area, the infrared sensing module and the human body sensing module can detect and send corresponding living object detection signals to the control circuit module, and the control circuit module controls the ultraviolet lamp tube to stop working, so that the harm to the human bodies or the animals in the target sterilization area is avoided.
Therefore, the intelligent sterilizing lamp in the scheme can meet the effect of effective sterilization and does not harm the health of human bodies and animals. Furthermore, the sensing ends of the infrared sensing module and the human body sensing module face the illumination side of the ultraviolet lamp tube, so that the infrared sensing module and the human body sensing module can well detect human or animals in a target sterilization area, and can better avoid the ultraviolet light from damaging the human or the animals; in addition, infrared induction module and human response module arrange in ultraviolet tube with one side, and control circuit module arranges in the installation intracavity, this makes ultraviolet tube, infrared induction module, human response module and control circuit module's layout structure compact, is favorable to intelligent bactericidal lamp overall structure's miniaturized design.
Therefore, the intelligent bactericidal lamp in the scheme can meet the requirement of effective sterilization and does not harm human and animal health, and the design of the compact structure of the product is taken into consideration, so that the using effect of the intelligent bactericidal lamp can be improved.
Preferably, a lampshade is arranged on one side of the shell, which is opposite to the illumination side of the ultraviolet lamp tube; the lampshade is of a light-permeable structure.
Therefore, the lamp shade can protect the ultraviolet lamp tube, the infrared sensing module and the human body sensing module lamp component and prevent the ultraviolet lamp tube, the infrared sensing module and the human body sensing module lamp component from being damaged; in addition, when ultraviolet tube was in operating condition, but the lamp shade of light-permeable structure made the ultraviolet ray that ultraviolet tube sent can be fine radiate to the target bactericidal region, was favorable to promoting the bactericidal effect of intelligent bactericidal lamp to promote the result of use of intelligent bactericidal lamp.
Preferably, a first through hole structure for exposing the infrared sensing module is arranged at the position, facing the infrared sensing module, of the lampshade.
Like this, infrared induction module can expose through first through-hole structure for infrared induction module can be better detect the people or animal in the target sterilization zone, and people and animal that avoids that can be better are by ultraviolet ray damage, thereby do not endanger human and animal health, can promote intelligent bactericidal lamp's result of use.
Preferably, a second through hole structure for exposing the human body sensing module is arranged at the position, facing the human body sensing module, of the lampshade.
Like this, human response module can expose through second through-hole structure for human response module can be better detect the people or animal in the target sterilization zone, and people and animal that avoids that can be better are harmd by ultraviolet ray, do not harm human and animal health, are favorable to promoting the result of use of intelligent bactericidal lamp.
Preferably, the intelligent germicidal lamp further comprises a power supply module arranged in the mounting cavity; the power supply module forms a power supply loop of the ultraviolet lamp tube.
Therefore, the power supply module can supply power to the ultraviolet lamp tube, and the sterilization effect of the ultraviolet lamp tube is ensured; in addition, arrange power module in the installation cavity for overall structure is compacter, is favorable to the miniaturized design of intelligent bactericidal lamp, can promote the result of use of intelligent bactericidal lamp.
Preferably, a manual start-stop switch is connected in series with the power supply loop of the ultraviolet lamp tube.
Like this, under emergency, managers or relevant personnel can be through manual start-stop switch control ultraviolet tube operating condition, are favorable to supplementary managers to manage intelligent bactericidal lamp better to promote the result of use of intelligent bactericidal lamp.
Preferably, the outer surface of the shell is provided with a switch installation groove structure for installing the manual start-stop switch.
In this way, the manual start-stop switch is arranged on the shell through the switch mounting groove structure, so that management personnel or related personnel can control the working state of the ultraviolet lamp tube through the start-stop switch, and the management personnel is assisted to better manage the intelligent germicidal lamp; still make overall structure compacter, be favorable to the miniaturized design of intelligent bactericidal lamp, can promote the result of use of intelligent bactericidal lamp.
Preferably, an electric control start-stop switch is connected in series with a power supply loop of the ultraviolet lamp tube; the electric control start-stop switch is electrically connected with the control circuit module.
In this way, the control circuit module controls the on-off of the power supply loop of the ultraviolet lamp tube through the electric control start-stop switch, so that the control on the working state of the ultraviolet lamp tube is realized, and the use effect of the intelligent germicidal lamp can be improved; in addition, the intelligent bactericidal lamp of this kind of structure still has simple structure's advantage, is favorable to the miniaturized design of intelligent bactericidal lamp, can promote the result of use of intelligent bactericidal lamp.
Preferably, the intelligent germicidal lamp further comprises a motion sensor module disposed within the mounting cavity; the motion sensor module is electrically connected with the control circuit module.
In the actual use process, for example, in the sterilization places such as an elevator car, once the sterilization places are in a motion state, people can use the sterilization places, the process that people enter the elevator is quick, if people wait for the ultraviolet lamp tube to be closed after entering the elevator, a detection control process exists, so that people entering the elevator can inevitably receive the irradiation of certain ultraviolet light, and the use effect of the intelligent sterilization lamp is poor. Aiming at the problem, the moving and static states of the ultraviolet lamp tube are detected through the motion sensor module, and when the ultraviolet lamp tube is in the moving state, the control circuit module controls the ultraviolet lamp tube to stop working, so that the ultraviolet light can be turned off in advance, and the human body is prevented from being damaged by the ultraviolet light; in addition, arrange the motion sensor module in the installation cavity for overall structure is compacter, is favorable to the miniaturized design of intelligent bactericidal lamp, can promote the result of use of intelligent bactericidal lamp.
Drawings
In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings, in which:
FIG. 1 is a schematic structural diagram of an intelligent germicidal lamp in an embodiment;
FIG. 2 is a logic block diagram of an embodiment of an intelligent germicidal lamp;
FIG. 3 is a schematic circuit diagram of an exemplary UV lamp power supply circuit;
fig. 4 is a schematic structural diagram of the housing of the intelligent germicidal lamp in the embodiment.
Reference numerals in the drawings of the specification include: the lamp comprises a shell 1, a mounting cavity 11, a first through hole structure 12, a second through hole structure 13, a switch mounting groove structure 14, a lamp holder 2, an ultraviolet lamp tube 3, a lampshade 4, a control circuit module 51, an infrared induction module 52, a human body induction module 53, a motion sensor module 54, a power supply module 6, a manual start-stop switch 7 and an electric control start-stop switch 8.
Detailed Description
The following is further detailed by the specific embodiments:
example (b):
the embodiment discloses an intelligent bactericidal lamp.
As shown in fig. 1 and 2: an intelligent germicidal lamp comprises an ultraviolet lamp tube 3, an infrared sensing module 52, a human body sensing module 53 and a control circuit module 51 which is electrically connected with the ultraviolet lamp tube 3 and is in signal connection with the infrared sensing module 52 and the human body sensing module 53; the lamp also comprises a shell 1 and a lamp holder 2 arranged in the shell 1; one side of the lamp holder 2 is a fixed side, and the side departing from the fixed side is an installation side; the fixed side of the lamp holder 2 is fixedly connected with the inner side wall of the shell 1; a mounting cavity 11 is formed between the fixed side and the inner side wall of the shell 1, and the control circuit module 51 is arranged in the mounting cavity 11 and is mounted on the fixed side of the lamp holder 2; the ultraviolet lamp tube 3, the infrared sensing module 52 and the human body sensing module 53 are all arranged on the installation side of the lamp holder 2; the infrared sensing module 52 and the human body sensing module 53 are arranged at the same side of the ultraviolet lamp tube 3 at intervals, and sensing ends of the infrared sensing module 52 and the human body sensing module 53 face the illumination side of the ultraviolet lamp tube 3. In this embodiment, the ultraviolet lamp 3 is an ultraviolet lamp 3 with a wavelength of 250nm to 280nm, which is widely used in the prior art; the infrared sensing module 52 and the human body sensing module 53 are respectively an infrared sensor and a human body sensor which are mature in the prior art; the control circuit module 51 is a Microprocessor (MCU) well-known in the art, and is in signal connection with the infrared sensor and the human body sensor by conventional means.
In this embodiment, the ultraviolet lamp 3 is installed in the target sterilization area, and the control circuit module 51 controls the ultraviolet lamp 3 to emit ultraviolet light to sterilize the target sterilization area according to the preset sterilization working time; if people or animals enter the target sterilization area, the infrared sensing module 52 and the human body sensing module 53 can detect and send corresponding living object detection signals to the control circuit module 51, and the control circuit module 51 controls the ultraviolet lamp tube 3 to stop working, so that the harm to the human bodies or the animals in the target sterilization area is avoided.
Therefore, the intelligent germicidal lamp in the embodiment can effectively sterilize and does not harm human and animal health. Furthermore, the sensing ends of the infrared sensing module 52 and the human body sensing module 53 face the illumination side of the ultraviolet lamp tube 3, so that the infrared sensing module 52 and the human body sensing module 53 can well detect human or animals in a target sterilization area, and the ultraviolet light can be better prevented from damaging human or animals; in addition, infrared induction module 52 and human body induction module 53 arrange in ultraviolet tube 3's the same side, and control circuit module 51 arranges in installation cavity 11, and this makes ultraviolet tube 3, infrared induction module 52, human body induction module 53 and control circuit module 51's layout structure compact, is favorable to intelligent bactericidal lamp overall structure's miniaturized design.
In a specific implementation process, the intelligent germicidal lamp further comprises a motion sensor module 54 arranged in the installation cavity 11; the motion sensor module 54 is electrically connected to the control circuit module 51. In this embodiment, the motion sensor module 54 is a motion sensor well known in the art and is in signal communication with a microprocessor by conventional means.
In the actual use process, for example, in the sterilization places such as the elevator car, once the sterilization places are in a motion state, the user can use the sterilization places, the process that the user enters the elevator is quick, if the user waits for the user to enter the elevator and then closes the ultraviolet lamp tube 3, a detection control process exists, so that the user entering the elevator can inevitably receive the irradiation of certain ultraviolet light, and the use effect of the intelligent sterilization lamp is poor. In view of the above problem, in this embodiment, the motion sensor module 54 is used to detect the moving state and the static state of the ultraviolet lamp tube 3, and when the ultraviolet lamp tube 3 is in the moving state, the control circuit module 51 controls the ultraviolet lamp tube 3 to stop working, so that the ultraviolet light can be turned off in advance, and the human body can be prevented from being damaged by the ultraviolet light; in addition, arrange motion sensor module 54 in installation cavity 11 for overall structure is compacter, is favorable to the miniaturized design of intelligent bactericidal lamp, can promote the result of use of intelligent bactericidal lamp.
In the specific implementation process, a lampshade 4 is arranged on one side of the shell 1, which is opposite to the illumination side of the ultraviolet lamp tube 3; the lampshade 4 is a light-permeable structure.
Thus, the lamp shade 4 can protect the lamp components of the ultraviolet lamp tube 3, the infrared sensing module 52 and the human body sensing module 53 from being damaged; in addition, when ultraviolet tube 3 is in operating condition, the lamp shade 4 of light-permeable structure makes the ultraviolet ray that ultraviolet tube 3 sent can be fine radiate to the target bactericidal region, is favorable to promoting the bactericidal effect of intelligent bactericidal lamp to promote the result of use of intelligent bactericidal lamp.
In a specific implementation process, a first through hole structure 12 for exposing the infrared sensing module 52 is disposed at a position of the lampshade 4 facing the infrared sensing module 52.
Like this, infrared induction module 52 can expose through first through-hole structure 12 for infrared induction module 52 can be better detect the people or animals in the target sterilization zone, can be better avoid people and animals to be damaged by ultraviolet ray, thereby do not harm human body and animal health, can promote intelligent bactericidal lamp's result of use.
In the specific implementation process, a second through hole structure 13 for exposing the human body induction module 53 is arranged at the position, opposite to the human body induction module 53, on the lampshade 4.
Like this, human response module 53 can expose through second through-hole structure 13 for human response module 53 can be better detect the people or animals in the target bactericidal region, and people and animal that avoids that can be better are harmed by ultraviolet ray, do not harm human and animal health, are favorable to promoting the result of use of intelligent bactericidal lamp.
In the specific implementation process, the intelligent germicidal lamp further comprises a power supply module 6 arranged in the installation cavity 11; the power supply module 6 forms a power supply loop of the ultraviolet lamp tube 3. In this embodiment, the power supply module 6 is a dry battery that is well-established in the prior art, and the connection manner between the ultraviolet lamp 3 and the control circuit module 51 is the conventional one.
In this way, the power supply module 6 can supply power to the ultraviolet lamp tube 3, so as to ensure the sterilization effect of the ultraviolet lamp tube 3; in addition, arrange power module 6 in installation cavity 11 for overall structure is compacter, is favorable to the miniaturized design of intelligent bactericidal lamp, can promote the result of use of intelligent bactericidal lamp.
In the specific implementation process, as shown in fig. 3: a manual start-stop switch 7 is connected in series on a power supply loop of the ultraviolet lamp tube 3. In this embodiment, the manual start-stop switch 7 is a toggle switch used in the prior art
Like this, under emergency, managers or relevant personnel can open through manual 3 operating condition of switch 7 control ultraviolet tube that stop, are favorable to supplementary managers to manage intelligent bactericidal lamp better to promote the result of use of intelligent bactericidal lamp.
In the specific implementation process, as shown in fig. 3: an electric control start-stop switch 8 is connected in series on a power supply loop of the ultraviolet lamp tube 3; the electric control start-stop switch 8 is electrically connected with the control circuit module 51. In this embodiment, the electric start-stop switch 8 is an electric control switch used in the prior art, and is electrically connected to the microcontroller by the existing means.
In this way, the control circuit module 51 controls the on-off of the power supply loop of the ultraviolet lamp tube 3 through the electric control start-stop switch 8, so that the working state of the ultraviolet lamp tube 3 is controlled, and the use effect of the intelligent germicidal lamp can be improved; in addition, the intelligent bactericidal lamp of this kind of structure still has simple structure's advantage, is favorable to the miniaturized design of intelligent bactericidal lamp, can promote the result of use of intelligent bactericidal lamp.
In the specific implementation process, as shown in fig. 4: the outer surface of the shell 1 is provided with a switch installation groove structure 14 for installing the manual start-stop switch 7.
In this way, the manual start-stop switch 7 is mounted on the shell 1 through the switch mounting groove structure 14, so that a manager or related personnel can control the working state of the ultraviolet lamp tube 3 through the start-stop switch, and the manager is assisted to manage the intelligent germicidal lamp better; still make overall structure compacter, be favorable to the miniaturized design of intelligent bactericidal lamp, can promote the result of use of intelligent bactericidal lamp.
The above description is only for the embodiments of the present invention, and the common general knowledge of the known specific structures and characteristics in the schemes is not described herein too much, and those skilled in the art will know all the common technical knowledge in the technical field of the present invention before the application date or the priority date, can know all the prior art in this field, and have the ability to apply the conventional experimental means before this date, and those skilled in the art can combine their own ability to perfect and implement the schemes, and some typical known structures or known methods should not become obstacles for those skilled in the art to implement the present application. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several modifications and improvements can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.
Claims (9)
1. An intelligent germicidal lamp comprises an ultraviolet lamp tube, an infrared sensing module, a human body sensing module and a control circuit module, wherein the control circuit module is electrically connected with the ultraviolet lamp tube and is in signal connection with the infrared sensing module and the human body sensing module; the method is characterized in that: the lamp also comprises a shell and a lamp holder arranged in the shell; one side of the lamp holder is a fixed side, and the side departing from the fixed side is an installation side; the fixed side of the lamp holder is fixedly connected with the inner side wall of the shell; an installation cavity is formed between the fixed side and the inner side wall of the shell, and the control circuit module is arranged in the installation cavity; the ultraviolet lamp tube, the infrared sensing module and the human body sensing module are all arranged on the mounting side of the lamp holder; the infrared induction module and the human body induction module are arranged at the same side of the ultraviolet lamp tube at intervals, and the induction ends of the infrared induction module and the human body induction module face the illumination side of the ultraviolet lamp tube.
2. The intelligent germicidal lamp as recited in claim 1 wherein: a lampshade is arranged on one side of the shell, which is opposite to the illumination side of the ultraviolet lamp tube; the lampshade is of a light-permeable structure.
3. The intelligent germicidal lamp as recited in claim 2 wherein: the lamp shade is provided with a first through hole structure facing the infrared sensing module and used for exposing the infrared sensing module.
4. The intelligent germicidal lamp as recited in claim 2 wherein: and a second through hole structure for exposing the human body induction module is arranged at the position, which is opposite to the human body induction module, on the lamp shade.
5. The intelligent germicidal lamp as recited in claim 1 wherein: the power supply module is arranged in the mounting cavity; the power supply module forms a power supply loop of the ultraviolet lamp tube.
6. The intelligent germicidal lamp as recited in claim 5 wherein: and a power supply loop of the ultraviolet lamp tube is connected with a manual start-stop switch in series.
7. The intelligent germicidal lamp as recited in claim 6 wherein: the outer surface of the shell is provided with a switch mounting groove structure for mounting the manual start-stop switch.
8. The intelligent germicidal lamp as recited in claim 5 wherein: an electric control start-stop switch is connected in series with a power supply loop of the ultraviolet lamp tube; the electric control start-stop switch is electrically connected with the control circuit module.
9. The intelligent germicidal lamp as recited in claim 1 wherein: further comprising a motion sensor module disposed within the mounting cavity; the motion sensor module is electrically connected with the control circuit module.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202020376588.1U CN211962658U (en) | 2020-03-23 | 2020-03-23 | Intelligent sterilizing lamp |
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| Application Number | Priority Date | Filing Date | Title |
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| CN202020376588.1U CN211962658U (en) | 2020-03-23 | 2020-03-23 | Intelligent sterilizing lamp |
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| CN211962658U true CN211962658U (en) | 2020-11-20 |
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Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| GR20200100309A (en) * | 2020-06-03 | 2022-01-13 | Δημητριος Νικολαου Νεγκας | Device with sterilisation action for fighting pathogens or viruses in elevator's cabins |
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2020
- 2020-03-23 CN CN202020376588.1U patent/CN211962658U/en active Active
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| GR20200100309A (en) * | 2020-06-03 | 2022-01-13 | Δημητριος Νικολαου Νεγκας | Device with sterilisation action for fighting pathogens or viruses in elevator's cabins |
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