CN113520102A - Self-disinfecting multifunctional display storage cabinet - Google Patents

Abstract

The utility model relates to a self-disinfecting multifunctional display storage cabinet, belonging to the technical field of display cabinets and comprising a cabinet body, wherein a plurality of display cavities are arranged in the cabinet body, ozone pipelines are fixedly connected in the cabinet body corresponding to each display cavity, an ozone generator is fixedly connected in the cabinet body corresponding to the position near each ozone pipeline, one end of the ozone pipeline is fixedly connected with the ozone generator, the other end of the ozone pipeline extends into the display cavity, and an exhaust fan is fixedly connected in the cabinet body corresponding to each display cavity; the cabinet body is connected with a control system corresponding to each display cavity, the control systems comprise an object detection module, an ozone timing module, an ozone control module, an exhaust control module and a sterilization timing module, and the cabinet body has the effect of automatically maintaining displayed articles in the display cabinet.

Description

Self-disinfecting multifunctional display storage cabinet

Technical Field

The invention relates to the technical field of display cabinets, in particular to a self-disinfecting multifunctional display storage cabinet.

Background

The display cabinet is provided for commodity display at present, and has a protection effect. The color may be selected according to the shop finish. The display cabinet has the advantages of firm structure, easy disassembly and assembly and convenient transportation. Some show cases are in order to deposit the quality of object, and some can disinfect to the internal portion of cabinet, reduce the rotten speed or the ageing speed of the object of depositing to guarantee the integrality of being demonstrateed the article.

The above prior art solutions have the following drawbacks: the display cabinet needs the staff to maintain the objects stored in the cabinet body in order to ensure the integrity of the displayed objects, which is troublesome.

Disclosure of Invention

In order to maintain the internal object of depositing of cabinet automatically, this application provides a from multi-functional display storage cabinet of disinfecting.

The application provides a from multi-functional display storage cabinet of disinfecting adopts following technical scheme:

a self-disinfecting multifunctional display storage cabinet comprises a cabinet body, wherein a plurality of display cavities are formed in the cabinet body, ozone pipelines are fixedly connected in the cabinet body corresponding to each display cavity, an ozone generator is fixedly connected near each ozone pipeline corresponding to the cabinet body, one end of each ozone pipeline is fixedly connected to the ozone generator, the other end of each ozone pipeline extends into the display cavity, and an exhaust fan is fixedly connected in the cabinet body corresponding to each display cavity;

the cabinet body is connected with a control system corresponding to each display cavity, and each control system comprises an object detection module, an ozone timing module, an ozone control module, an exhaust control module and a sterilization timing module;

the object detection module comprises a proximity switch fixedly connected to the cabinet body corresponding to the interior of the display cavity, when an object exists in the display cavity, the proximity switch is closed, and the object detection module sends a starting signal;

the ozone timing module receives a starting signal sent by the object detection module, sends a first control signal to the ozone control module after receiving the starting signal and starts timing, sends a second control signal to the ozone control module and times again after the timing reaches a first preset time, sends a first exhaust signal to the exhaust control module and times again after the timing reaches a second preset time, and sends a second exhaust signal to the exhaust control module and sends a timing signal to the sterilization timing module after the timing reaches a third preset time;

the ozone control module receives the first control signal and then controls the ozone generator to work, and the ozone control module receives the second control signal and then controls the ozone generator to stop working;

the exhaust control module receives the first exhaust signal and then controls the exhaust fan to start working, and the exhaust control module receives the second exhaust signal and then controls the exhaust fan to stop working;

the sterilization timing module receives set time input from the outside, the sterilization timing module starts timing after receiving a timing signal, and a starting signal is sent to the ozone timing module after the timing reaches the set time.

Through adopting above-mentioned scheme, after the staff will demonstrate the object and put into the cabinet internal, the control system who is put into the show chamber of object detects that there is the object to put into, begins to carry out ozone sterilization to this object, then takes away ozone with the exhaust fan. The method can effectively kill bacteria in the display cavity and suck away dust in the display cavity. Ozone sterilization has few dead corners and wide application range, almost any object can be sterilized by ozone, the space of the display cavity is small, and the required ozone amount is small.

Preferably, the first preset time is 15 to 30 minutes; the second preset time is 50 to 70 minutes; the third predetermined time is 10 to 20 minutes.

By adopting the scheme, the input time of the ozone is 15-30 minutes, the retention time in the display cavity is 50-70 minutes, the discharge time is 10-20 minutes, the first preset time, the second preset time and the third preset time are adjusted according to the size of the display cavity, the power of an ozone generator and other data, the ozone can fully sterilize the inner space of the display cavity in the time, and the ozone in the display cavity can be fully and automatically synthesized into oxygen after being discharged.

Preferably, the control system further comprises a scanning detection module, a storage module, a space calculation module and an ozone adjustment module;

the scanning detection module receives a starting signal sent by the object detection module, the scanning detection module comprises a three-dimensional scanner fixedly connected to the inside of the display cavity corresponding to the cabinet body, the three-dimensional scanner is controlled to scan the inside of the display cavity after the scanning detection module receives the starting signal, and the scanning detection module sends a scanned image to the storage module;

the storage module receives the scanning imaging and stores the scanning imaging according to the receiving time;

the space calculation module calls the scanning imaging stored in the storage module and calculates an approximate occupation space ratio according to the scanning imaging, and the space calculation module sends the approximate occupation space ratio;

the ozone adjusting module receives the approximate occupied space ratio sent by the space calculating module, the ozone adjusting module calculates the ozone flow adjusting quantity according to the approximate occupied space ratio, and the ozone adjusting module adjusts the power of the ozone generator according to the ozone flow adjusting quantity.

By adopting the scheme, the control system can automatically scan the three-dimensional image of the displayed object, calculate the approximate occupied space of the displayed object according to the three-dimensional image, accurately adjust the power of the ozone generator, further improve the sterilization effect and reduce the oxidation of ozone to the displayed object.

Preferably, the control system further comprises a shape selection module, wherein the shape selection module stores a hollow calculation formula and a bottoming calculation formula, receives the input hollow confirmation signal, bottoming confirmation signal and wall thickness value signal, and when the shape selection module receives the hollow confirmation signal and the wall thickness value signal, the shape selection module substitutes the wall thickness value into the hollow calculation formula and then sends the hollow calculation formula to the space calculation module, and when the shape selection module receives the bottoming calculation formula and the wall thickness value signal, the shape selection module substitutes the wall thickness value into the bottoming calculation formula and then sends the bottoming calculation formula to the space calculation module;

the space calculation module calculates the predicted volume of the space occupied by the object according to the scanning imaging, and then calculates the approximate space occupation ratio according to the predicted volume of the space occupied by the object and the received hollow calculation formula or bottoming calculation formula.

By adopting the scheme, if the shape of the display object is complex, the control system is very likely to be incapable of accurately calculating the occupied space of the display object, and the user can select the approximate shape characteristic of the object in the control system according to the shape characteristic of the display object, so that the control system can more accurately calculate the occupied space of the display object.

Preferably, a communicating groove and a plurality of spraying holes are formed in the cabinet body corresponding to the top of each display cavity, the spraying holes are communicated with the display cavities and the communicating grooves, a cleaning pump is fixedly connected to the cabinet body corresponding to each communicating groove, one end of each cleaning pump is communicated with the communicating groove, the other ends of the cleaning pumps are fixedly connected with an alcohol container, and the cleaning pumps are communicated with the interior of the alcohol container; every show chamber bottom of the cabinet body has all been seted up and has been leaked the chamber and a plurality of basin that leaks, the basin that leaks all with show chamber and the chamber intercommunication that leaks, cabinet body fixedly connected with water collecting pipe way, water collecting pipe way and every chamber intercommunication that leaks.

Through adopting above-mentioned scheme, the show cupboard can spray alcohol to the show intracavity, washes fast the show intracavity, and alcohol can compensate ozone sterilization's shortcoming, guarantees to disinfect thoroughly to the object, and alcohol can also volatilize fast except can washing and disinfecting the object surface, can not influence the normal exhibition of object.

Preferably, the cabinet body is fixedly connected with a water collecting tank, a water collecting pipeline is fixedly connected to the water collecting tank, the water collecting tank is fixedly connected with a plurality of first semiconductor refrigeration sheets, the bottom of the water collecting tank is fixedly connected with a water outlet pipe, the water outlet pipe is fixedly connected with a drain valve, and the top of the water collecting tank is provided with a cleaning groove; the alcohol container is fixedly connected with a second semiconductor refrigeration piece.

Through adopting above-mentioned scheme, the internal dust of cabinet is few usually, and the alcohol that has used up can be collected, can reuse after simply subsiding, and the remaining alcohol of back of taking out can volatilize from the clearance groove, and the user can clear up the inside dry dust of header tank through the clearance groove. The first semiconductor refrigerating sheet and the second semiconductor refrigerating sheet can reduce the accidental fire of alcohol in the container.

Preferably, the control system further comprises a cleaning control module and a cleaning timing module;

the cleaning control module receives a starting signal sent by the object detection module and a second air exhaust signal sent by the ozone timing module, controls the cleaning pump to start after receiving the starting signal and the second air exhaust signal, simultaneously sends a cleaning signal, controls the cleaning pump to close and starts the exhaust fan after receiving the quick drying signal, and controls the exhaust fan to close after receiving the stopping signal.

The cleaning timing module receives a cleaning signal sent by the cleaning control module and controls to start timing after the cleaning timing module receives the cleaning signal, the cleaning timing module transmits a quick-drying signal to the cleaning control module and times again after the timing reaches a first cleaning time, and the cleaning timing module transmits a stop signal to the cleaning control module after the timing reaches a second cleaning time.

By adopting the scheme, the control system can automatically clean the object, and manual operation is reduced. And after the alcohol is sprayed, the control system can control the exhaust fan to be opened, so that the volatilization speed of the alcohol is accelerated.

Preferably, the control system further comprises a time calculation module, the time calculation module receives the approximate occupied space ratio sent by the space calculation module, and the time calculation module calculates the first cleaning time and the second cleaning time according to the approximate occupied space ratio and transmits the first cleaning time and the second cleaning time to the cleaning timing module.

By adopting the scheme, the control system can accurately control the spraying amount of the alcohol according to the comparison of the occupied space of the object.

In conclusion, the invention has the following beneficial effects:

1. after the staff puts into the cabinet internal with the show object, the control system in the show chamber of putting into the object detects that there is the object to put into, begins to carry out ozone sterilization to this object, then takes out ozone with the exhaust fan. The method can effectively kill bacteria in the display cavity and suck away dust in the display cavity;

2. the control system can automatically scan the three-dimensional image of the displayed object, calculate the approximate occupied space of the displayed object according to the three-dimensional image, accurately adjust the power of the ozone generator, further improve the sterilization effect and reduce the oxidation of ozone to the displayed object;

3. the show cupboard can spray alcohol to the show intracavity, washes fast the show intracavity, and alcohol can compensate ozone sterilization's shortcoming, guarantees to disinfect thoroughly to the object, and alcohol can also volatilize fast except can washing and disinfecting the object surface, can not influence the normal exhibition of object.

Drawings

FIG. 1 is a schematic view of the overall structure of a self-disinfecting multi-functional display cabinet according to an embodiment of the present application;

FIG. 2 is an overall cross-sectional view of a self-disinfecting multi-functional display cabinet according to one embodiment of the present application;

FIG. 3 is a cross-sectional view of a self-sterilizing multi-functional display cabinet display chamber configuration according to one embodiment of the present application;

FIG. 4 is a schematic view of a self-sterilizing multi-functional display cabinet alcohol container and a purge pump according to one embodiment of the present application;

FIG. 5 is a schematic view of a self-disinfecting multi-functional display cabinet water collection line and tank according to a first embodiment of the present application;

figure 6 is a block diagram of a self-disinfecting multi-functional display cabinet control system according to an embodiment of the present application.

In the figure, 1, a cabinet body; 11. a display chamber; 12. an ozone pipeline; 121. an ozone generator; 13. an exhaust fan; 14. a communicating groove; 141. a spray orifice; 15. an alcohol container; 151. cleaning the tube; 152. cleaning the pump; 153. a second semiconductor refrigeration chip; 16. a water leakage cavity; 161. a water leakage groove; 17. a water collecting pipeline; 18. a water collection tank; 181. a first semiconductor refrigeration chip; 182. a water outlet pipe; 1821. a drain valve; 183. cleaning the tank; 2. a control system; 21. an object detection module; 211. a proximity switch; 22. an ozone timing module; 221. an ozone control module; 222. an air exhaust control module; 23. a sterilization timing module; 24. a scanning detection module; 241. a three-dimensional scanner; 25. a storage module; 26. a space calculation module; 261. a shape selection module; 27. an ozone adjusting module; 28. a cleaning control module; 281. cleaning the timing module; 29. and a time calculation module.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses from multi-functional display storage cabinet of disinfecting, embodiment one:

as shown in fig. 1 and 2, the cabinet comprises a cabinet body 1, and a plurality of display cavities 11 are formed in the cabinet body 1. Inside each display cavity 11, exhibition objects can be placed.

As shown in fig. 2 and 3, an ozone pipeline 12 is fixedly connected in each display cavity 11 corresponding to the cabinet 1, and an ozone generator 121 is fixedly connected near each ozone pipeline 12 corresponding to the cabinet 1. One end of the ozone pipeline 12 is fixedly connected to the ozone generator 121, and the other end of the ozone pipeline 12 extends into the display cavity 11. An exhaust fan 13 is fixedly connected to the cabinet body 1 corresponding to each display cavity 11. Ozone generator 121 passes through ozone pipeline 12 and lets in ozone to show intracavity 11 inside and disinfect, and exhaust fan 13 can be fast with ozone discharge show intracavity 11.

As shown in fig. 3, a proximity switch 211 is fixedly connected to a position of the cabinet 1 corresponding to the inside of each display cavity 11, and when an object is present in the display cavity 11, the proximity switch 211 is closed. The cabinet body 1 is fixedly connected with a three-dimensional scanner 241 corresponding to the inner position of the display cavity 11, the three-dimensional scanner 241 is located at the top of the display cavity 11, and the three-dimensional scanner 241 is used for scanning three-dimensional images of displayed objects.

As shown in fig. 2 and 3, a communication groove 14 and a plurality of spray holes 141 are formed at a position of the cabinet 1 corresponding to the top of each display cavity 11, and the spray holes 141 are communicated with the display cavities 11 and the communication groove 14. The cabinet body 1 corresponds equal fixedly connected with scavenging pump 152 in every intercommunication groove 14 position department, and every scavenging pump 152 one end all communicates with intercommunication groove 14. The other ends of all the cleaning pumps 152 are fixedly connected with a cleaning pipe 151 together, the cleaning pipe 151 is fixedly connected with an alcohol container 15, the cleaning pumps 152 are communicated with the interior of the cleaning pipe 151, and the cleaning pipe 151 is communicated with the interior of the alcohol container 15. The alcohol container 15 is positioned at the top end of the cabinet body 1. The water leakage chamber 16 and a plurality of water leakage grooves 161 have all been seted up to every show chamber 11 bottom of the cabinet body 1, and water leakage grooves 161 all communicate with show chamber 11 and water leakage chamber 16, the cabinet body 1 fixedly connected with water collection pipeline 17, water collection pipeline 17 and every water leakage chamber 16 intercommunication. The show cupboard can spray alcohol in 11 to the show chamber, wash fast in 11 to the show chamber. The display object can cover the ozone pipe 12 to prevent the alcohol from flooding into the ozone pipe 12. Alcohol can compensate the shortcoming of ozone sterilization, guarantees to disinfect thoroughly to the object, and alcohol except can wash and disinfect the object surface, can also volatilize fast, can not influence the normal exhibition of object.

As shown in fig. 4, the alcohol container 15 is fixedly connected with a second semiconductor refrigeration piece 153, a refrigeration end of the second semiconductor refrigeration piece 153 is located inside the alcohol container 15, and a heat dissipation end of the second semiconductor refrigeration piece 153 is located outside the alcohol container 15. The second semiconductor chilling plate 153 can reduce the possibility of accidental ignition of alcohol in the alcohol container 15.

As shown in fig. 5, the cabinet 1 is fixedly connected with a water collection tank 18, and the water collection pipeline 17 is fixedly connected to the water collection tank 18. The water collection tank 18 is fixedly connected with a plurality of first semiconductor refrigeration pieces 181, the refrigeration ends of the first semiconductor refrigeration pieces 181 are positioned inside the water collection tank 18, and the heat dissipation ends of the first semiconductor refrigeration pieces 181 are positioned outside the water collection tank 18. The bottom of the water collecting tank 18 is fixedly connected with a water outlet pipe 182, the water outlet pipe 182 is fixedly connected with a drain valve 1821, and the top of the water collecting tank 18 is provided with a cleaning groove 183. Usually, the interior dust of cabinet body 1 is few, and the alcohol that has used up can be collected, can reuse after simply subsiding, and the remaining alcohol after taking out can volatilize from clearance groove 183, and the user can clear up the inside dry dust of header tank 18 through clearance groove 183. The first semiconductor chilling plate 181 can reduce the possibility of accidental ignition of alcohol in the water collection tank 18.

As shown in fig. 6, the cabinet 1 is connected to a control system 2 corresponding to each display cavity 11, and each control system 2 includes an object detection module 21, a proximity switch 211, an ozone timing module 22, an ozone control module 221, an exhaust control module 222, a sterilization timing module 23, a scanning detection module 24, a storage module 25, a space calculation module 26, a shape selection module 261, an ozone adjustment module 27, a cleaning control module 28, a cleaning timing module 281, and a time calculation module 29.

As shown in fig. 6, the object detection module 21 is connected to the proximity switch 211, and when the proximity switch 211 is closed, the object detection module 21 sends out an activation signal. The ozone timing module 22 receives the start signal sent by the object detection module 21, and when the ozone timing module 22 receives the start signal, sends a first control signal to the ozone control module 221 and starts timing. When the time reaches 15 minutes, the ozone timing module 22 sends a second control signal to the ozone control module 221 and counts the time again. When the timing reaches 50 minutes, the ozone timing module 22 sends a first exhaust signal to the exhaust control module 222 and counts again. When the timing time reaches 10 minutes, the ozone timing module 22 sends a second air exhaust signal to the air exhaust control module 222 and sends a timing signal to the sterilization timing module 23.

As shown in fig. 6, the ozone control module 221 controls the operation of the ozone generator 121 after receiving the first control signal, and the ozone control module 221 controls the operation of the ozone generator 121 after receiving the second control signal. The exhaust control module 222 receives the first exhaust signal and then controls the exhaust fan 13 to start working, and the exhaust control module 222 receives the second exhaust signal and then controls the exhaust fan 13 to stop working. The sterilization timing module 23 receives the set time input from the outside, the sterilization timing module 23 starts timing after receiving the timing signal, and sends a start signal to the ozone timing module 22 when the timing reaches the set time. After the staff put the show object into cabinet 1, the control system 2 of the show chamber 11 of putting into the object detects that there is the object to put into, begins to carry out ozone sterilization to this object, then takes out ozone with exhaust fan 13. The method can effectively kill bacteria in the display cavity 11 and suck away dust in the display cavity 11.

As shown in fig. 6, the scanning detection module 24 receives a start signal sent by the object detection module 21, the scanning detection module 24 is connected to the three-dimensional scanner 241, and when the scanning detection module 24 receives the start signal, the three-dimensional scanner 241 is controlled to scan the inside of the display cavity 11, and the scanning detection module 24 sends the scanned image to the storage module 25. The storage module 25 receives the scanned image and stores the scanned image according to the receiving time.

As shown in fig. 6, the shape selection module 261 stores a hollow calculation formula and a bottoming calculation formula, and the shape selection module 261 receives the hollow confirmation signal, the bottoming confirmation signal, and the wall thickness value signal. When the shape selection module 261 receives the hollow confirmation signal and the wall thickness value signal, the shape selection module 261 substitutes the wall thickness value into the hollow calculation formula and transmits the hollow calculation formula to the space calculation module 26. When the shape selection module 261 receives the bottoming calculation formula and the wall thickness value signal, the shape selection module 261 substitutes the wall thickness value into the bottoming calculation formula and then sends the bottoming calculation formula to the space calculation module 26. The space calculation module 26 calls the scanning imaging stored in the storage module 25, the space calculation module 26 calculates the estimated occupied space volume of the object according to the scanning imaging, then calculates the approximate occupied space ratio according to the estimated occupied space volume of the object and the received hollow calculation formula or bottoming calculation formula, and the space calculation module 26 sends out the approximate occupied space ratio. If the shape of the displayed object is complex, the control system 2 may possibly fail to accurately calculate the occupied space of the displayed object, and the user can select the approximate shape feature of the object in the control system 2 according to the shape feature of the displayed object, so that the control system 2 can more accurately calculate the occupied space of the displayed object.

As shown in fig. 6, the ozone adjusting module 27 receives the approximate occupied space ratio from the space calculating module 26, the ozone adjusting module 27 calculates the ozone flow adjusting amount according to the approximate occupied space ratio, and the ozone adjusting module 27 adjusts the power of the ozone generator 121 according to the ozone flow adjusting amount. The control system 2 can automatically scan the three-dimensional image of the displayed object, calculate the approximate occupied space of the displayed object according to the three-dimensional image, accurately adjust the power of the ozone generator 121, further improve the sterilization effect and reduce the oxidation of ozone to the displayed object.

As shown in fig. 6, the cleaning control module 28 receives the start signal from the object detection module 21 and the second exhaust signal from the ozone timing module 22, controls the cleaning pump 152 to start when the cleaning control module 28 receives the start signal and the second exhaust signal, and simultaneously the cleaning control module 28 sends the cleaning signal, controls the cleaning pump 152 to stop and start the exhaust fan 13 when the cleaning control module 28 receives the quick drying signal, and controls the exhaust fan 13 to stop when the cleaning control module 28 receives the stop signal. The time calculation module 29 receives the approximate occupied space ratio from the space calculation module 26, and the time calculation module 29 calculates the first cleaning time and the second cleaning time according to the approximate occupied space ratio and transmits the first cleaning time and the second cleaning time to the cleaning timing module 281. The control system 2 can accurately control the alcohol spraying amount according to the object occupation space ratio.

As shown in fig. 6, the cleaning timing module 281 receives the cleaning signal from the cleaning control module 28 and controls to start timing when the cleaning timing module 281 receives the cleaning signal, the cleaning timing module 281 transmits the quick-drying signal to the cleaning control module 28 and counts again when the timing reaches a first cleaning time, and the cleaning timing module 281 transmits the stop signal to the cleaning control when the timing reaches a second cleaning time. The control system 2 can automatically clean the object, and manual operation is reduced. And after the alcohol is sprayed, the control system 2 controls the exhaust fan 13 to be opened, so that the alcohol volatilization speed is accelerated.

The implementation principle of the self-disinfecting multifunctional display storage cabinet in the embodiment of the application is as follows: after the staff put the show object into cabinet 1, the control system 2 of the show chamber 11 of putting into the object detects that there is the object to put into, begins to carry out ozone sterilization to this object, then takes out ozone with exhaust fan 13. The method can effectively kill bacteria in the display cavity 11 and suck away dust in the display cavity 11. Ozone sterilization has few dead corners and wide application range, almost any object can be sterilized by ozone, the space of the display cavity 11 is small, and the required ozone amount is small.

Example two:

the difference from the first embodiment is that: the ozone timing module 22 receives a start signal sent by the object detection module 21, when the ozone timing module 22 receives the start signal, the ozone timing module 22 sends a first control signal to the ozone control module 221 and starts timing, when the timing reaches 30 minutes, the ozone timing module 22 sends a second control signal to the ozone control module 221 and restarts the timing, when the timing reaches 70 minutes, the ozone timing module 22 sends a first exhaust signal to the exhaust control module 222 and restarts the timing, and when the timing reaches 20 minutes, the ozone timing module 22 sends a second exhaust signal to the exhaust control module 222 and sends a timing signal to the sterilization timing module 23.

Example three:

the difference from the first embodiment is that: the ozone timing module 22 receives a start signal sent by the object detection module 21, when the ozone timing module 22 receives the start signal, the ozone timing module 22 sends a first control signal to the ozone control module 221 and starts timing, when the timing reaches 22.5 minutes, the ozone timing module 22 sends a second control signal to the ozone control module 221 and times again, when the timing reaches 60 minutes, the ozone timing module 22 sends a first exhaust signal to the exhaust control module 222 and times again, and when the timing reaches 15 minutes, the ozone timing module 22 sends a second exhaust signal to the exhaust control module 222 and sends a timing signal to the sterilization timing module 23.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims (9)

1. The utility model provides a from multi-functional display storage cabinet of disinfection which characterized in that: the multifunctional cabinet comprises a cabinet body (1), wherein a plurality of display cavities (11) are formed in the cabinet body (1), an ozone pipeline (12) is fixedly connected in each display cavity (11) corresponding to the cabinet body (1), an ozone generator (121) is fixedly connected near each ozone pipeline (12) corresponding to the cabinet body (1), one end of each ozone pipeline (12) is fixedly connected to the ozone generator (121), the other end of each ozone pipeline (12) extends into the display cavity (11) to be arranged, and an exhaust fan (13) is fixedly connected in each display cavity (11) corresponding to the cabinet body (1);

the cabinet body (1) is connected with a control system (2) corresponding to each display cavity (11), and each control system (2) comprises an object detection module (21), an ozone timing module (22), an ozone control module (221), an exhaust control module (222) and a sterilization timing module (23);

the object detection module (21) comprises a proximity switch (211) fixedly connected to the inside of the cabinet body (1) corresponding to the display cavity (11), when an object exists in the display cavity (11), the proximity switch (211) is closed, and the object detection module (21) sends a starting signal;

the ozone timing module (22) receives a starting signal sent by the object detection module (21), when the ozone timing module (22) receives the starting signal, a first control signal is sent to the ozone control module (221) and timing is started, when the timing reaches a first preset time, the ozone timing module (22) sends a second control signal to the ozone control module (221) and times again, when the timing reaches a second preset time, the ozone timing module (22) sends a first air exhaust signal to the air exhaust control module (222) and times again, and when the timing reaches a third preset time, the ozone timing module (22) sends a second air exhaust signal to the air exhaust control module (222) and sends a timing signal to the sterilization timing module (23);

the ozone control module (221) receives the first control signal and then controls the ozone generator (121) to work, and the ozone control module (221) receives the second control signal and then controls the ozone generator (121) to stop working;

the exhaust control module (222) receives the first exhaust signal and then controls the exhaust fan (13) to start working, and the exhaust control module (222) receives the second exhaust signal and then controls the exhaust fan (13) to stop working;

the sterilization timing module (23) receives set time input from the outside, the sterilization timing module (23) starts timing after receiving a timing signal, and a starting signal is sent to the ozone timing module (22) after the timing reaches the set time.

2. A self-disinfecting multi-functional display cabinet as defined in claim 1, wherein: the first preset time is 15 to 30 minutes; the second preset time is 50 to 70 minutes; the third predetermined time is 10 to 20 minutes.

3. A self-disinfecting multi-functional display cabinet as defined in claim 1, wherein: the control system (2) also comprises a scanning detection module (24), a storage module (25), a space calculation module (26) and an ozone adjustment module (27);

the scanning detection module (24) receives a starting signal sent by the object detection module (21), the scanning detection module (24) comprises a three-dimensional scanner (241) fixedly connected to the cabinet body (1) and corresponding to the interior of the display cavity (11), when the scanning detection module (24) receives the starting signal, the three-dimensional scanner (241) is controlled to scan the interior of the display cavity (11), and the scanning detection module (24) sends scanning imaging to the storage module (25);

the storage module (25) receives the scanning imaging and stores the scanning imaging according to the receiving time;

the space calculation module (26) calls the scanning imaging stored in the storage module (25) and calculates an approximate occupation space ratio according to the scanning imaging, and the space calculation module (26) sends the approximate occupation space ratio;

the ozone adjusting module (27) receives the approximate occupied space ratio sent by the space calculating module (26), the ozone adjusting module (27) calculates the ozone flow adjusting quantity according to the approximate occupied space ratio, and the ozone adjusting module (27) adjusts the power of the ozone generator (121) according to the ozone flow adjusting quantity.

4. A self-disinfecting multi-functional display cabinet as defined in claim 3, wherein: the control system (2) further comprises a shape selection module (261), wherein the shape selection module (261) stores a hollow calculation formula and a bottoming calculation formula, the shape selection module (261) receives an input hollow confirmation signal, a bottoming confirmation signal and a wall thickness value signal, when the shape selection module (261) receives the hollow confirmation signal and the wall thickness value signal, the shape selection module (261) substitutes a wall thickness value into the hollow calculation formula and then sends the hollow calculation formula to the space calculation module (26), and when the shape selection module (261) receives the bottoming calculation formula and the wall thickness value signal, the shape selection module (261) substitutes a wall thickness value into the bottoming calculation formula and then sends the bottoming calculation formula to the space calculation module (26);

the space computation module (26) computes a predicted object footprint volume from the scan imaging and then computes an approximate footprint ratio from the predicted object footprint volume and a received void or bottoming calculation formula.

5. A self-disinfecting multi-functional display cabinet as defined in claim 3, wherein: a communicating groove (14) and a plurality of spraying holes (141) are formed in the position, corresponding to the top of each display cavity (11), of the cabinet body (1), the spraying holes (141) are communicated with the display cavities (11) and the communicating grooves (14), cleaning pumps (152) are fixedly connected to the positions, corresponding to the communicating grooves (14), of the cabinet body (1), one end of each cleaning pump (152) is communicated with the communicating groove (14), an alcohol container (15) is fixedly connected to the other ends of all the cleaning pumps (152) together, and the cleaning pumps (152) are communicated with the interior of the alcohol container (15); the water leakage cavity (16) and the plurality of water leakage grooves (161) are formed in the bottom of each display cavity (11) of the cabinet body (1), the water leakage grooves (161) are communicated with the display cavity (11) and the water leakage cavity (16), the cabinet body (1) is fixedly connected with a water collection pipeline (17), and the water collection pipeline (17) is communicated with each water leakage cavity (16).

6. A self-disinfecting multi-functional display cabinet as defined in claim 5, wherein: the refrigerator comprises a cabinet body (1), a water collecting tank (18) and a water collecting pipeline (17), wherein the water collecting tank (18) is fixedly connected with the water collecting pipeline (17), the water collecting tank (18) is fixedly connected with a plurality of first semiconductor refrigeration sheets (181), the bottom of the water collecting tank (18) is fixedly connected with a water outlet pipe (182), the water outlet pipe (182) is fixedly connected with a drain valve (1821), and the top of the water collecting tank (18) is provided with a cleaning groove (183); the alcohol container (15) is fixedly connected with a second semiconductor refrigeration piece (153).

7. A self-disinfecting multi-functional display cabinet as defined in claim 5, wherein: the control system (2) further comprises a cleaning control module (28) and a cleaning timing module (281);

the cleaning control module (28) receives a starting signal sent by the object detection module (21) and a second air exhaust signal sent by the ozone timing module (22), the cleaning pump (152) is controlled to be started after the cleaning control module (28) receives the starting signal and the second air exhaust signal, the cleaning control module (28) sends a cleaning signal at the same time, the cleaning pump (152) is controlled to be closed and the exhaust fan (13) is started after the cleaning control module (28) receives the quick drying signal, and the exhaust fan (13) is controlled to be closed after the cleaning control module (28) receives the stop signal.

8. The cleaning timing module (281) receives a cleaning signal sent by the cleaning control module (28) and controls to start timing after the cleaning timing module (281) receives the cleaning signal, the cleaning timing module (281) transmits a quick-drying signal to the cleaning control module (28) and times again after the timing reaches a first cleaning time, and the cleaning timing module (281) transmits a stop signal to the cleaning control module after the timing reaches a second cleaning time.

9. A self-disinfecting multi-functional display cabinet as defined in claim 7, wherein: the control system (2) further comprises a time calculation module (29), the time calculation module (29) receives the approximate occupation space ratio sent by the space calculation module (26), the time calculation module (29) calculates a first cleaning time and a second cleaning time according to the approximate occupation space ratio, and transmits the first cleaning time and the second cleaning time to the cleaning timing module (281).

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