TECHNICAL FIELD

[0001] The embodiments herein relate generally to antimicrobial equipment.

[0002] The embodiments herein relate generally to devices that deactivate microbiomes.

BACKGROUND ART

[0003] Prior to embodiments of the disclosed invention microbes were transmitted through contact with currency. Embodiments of the disclosed invention solve this problem.

[0004] Prior to embodiments of the disclosed invention, there was no device that sanitized humans from COVID-19. Embodiments of the disclosed invention solve these problems.

[0005] Prior to embodiments of the disclosed invention, it was difficult to conduct a lung scope in a remote area. Embodiments of the disclosed invention solve this problem

DISCLOSURE OF THE INVENTION

[0006] A sanitizing system, configured to receive, sanitize and dispense payment objects; the sanitizing system has a housing with a universal money recognizer. A coin counter display and a bill counter display are arranged on the housing. A bill check in slot, a coin in slot, a bill check out slot, and a coin check out slot are arranged on the housing. When a user inserts coins into the coin in slot, the coins are counted, sanitized and released through the coin check out slot.

[0007] A sanitizing station system is configured to deactivate microbes. The sanitizing station system has a housing is joined to a testing desk; the housing further comprises pressurized hot air system, and ultraviolet light system. A ventilation system is arranged proximate the housing and joined to the housing with ducting. A vacuum system is arranged in the housing and further has drain vacuum tracks connected to a plurality of vacuums divided from one another with a divider proximate a heater cable. A vertical ventilation passthrough arranged proximate the drain vacuum tracks. The pressurized hot air system is operatively coupled to a heat control speed switch. [0008] A lung endoscopy system is configured to provide portable data to a health care provider. The lung endoscopy system has a handle housing, attached to a primary screen, a second screen, a third screen, and a fourth screen. An inflatable ball is joined to the housing and electrically coupled to a ball valve inflate switch, a ball valve deflate switch, and a pump. A power connection is electrically coupled to a power connector and an external power source on a wheel cart. A camera switch is electrically coupled to a left middle camera, a right middle camera, a 180-degree camera, and a front entry camera arranged on the handle housing. The left middle camera, the right middle camera, the 180-degree camera, and the front entry camera are electrically coupled to at least one monitor on the wheel cart, and a second screen with a camera extension line.

[0009] In some embodiments, a Wi-Fi television connection can be communicatively coupled to the handle housing and configured to transmit to visual data to an external television screen. A burn switch can be arranged on the handle housing, joined to a knife with a burn line attached to the wheel cart. A vacuum switch can be arranged on the handle housing, and joined coupled to the wheel cart with a vacuum line at a vacuum source. A freeze switch can be arranged on the handle housing, and joined to the wheel cart with a freeze line. A camera light switch can be arranged on the handle housing and electrically coupled to a first LED on the left middle camera, a second LED on the right middle camera, a third LED on the 180-degree camera, and a fourth LED on the front entry camera.

BRIEF DESCRIPTION OF THE FIGURES

[0010] The detailed description of some embodiments of the invention is made below with reference to the accompanying figures, wherein like numerals represent corresponding parts of the figures.

[0011] Figure 1 shows a front prospective view of one embodiment of the present invention;

[0012] Figure 2 shows a side prospective view of one embodiment of the present invention;

[0013] Figure 3 shows a bottom prospective view of one embodiment of the present invention;

[0014] Figure 4 shows a side prospective view of one embodiment of the present invention;

[0015] Figure 5 shows a flow chart of one embodiment of the present invention; [0016] Figure 6 shows a perspective view of one embodiment of the present invention;

[0017] Figure 7 shows a top view of one embodiment of the present invention;

[0018] Figure 8 shows a bottom view of one embodiment of the present invention;

[0019] Figure 9 shows a schematic view of one embodiment of the present invention;

[0020] Figure 10 shows a schematic view of one embodiment of the present invention.

[0021] Figure 11 shows a schematic view of one embodiment of the present invention;

[0022] Figure 12 shows a schematic view of one embodiment of the present invention;

[0023] Figure 13 shows a flow chart of one embodiment of the present invention;

[0024] Figure 14 shows a schematic view of one embodiment of the present invention;

[0025] Figure 15 shows a schematic view of one embodiment of the present invention;

[0026] Figure 16 shows a schematic view of one embodiment of the present invention shown in use; and

[0027] Figure 17 shows a flow chart of one embodiment of the present invention.

BEST MODE OF THE INVENTION

[0028] By way of example, and referring to Figure 1, one embodiment of a money sanitizing machine 10 further comprises a housing with a universal money recognizer 11. A power button 12, attached to the housing and electrically coupled to a power adapter 14.

[0029] On top of the housing there is a coin counter display 16 and a bill counter display 18. The coin counter display 16 and the bill counter display 18 can be a digital display electrically coupled to a microcontroller which is further electrically coupled to the power button 12 and the power adapter 14.

[0030] On a first side of the housing there is a wet dry button 20, a red wet indicator light 22, a green dry indicator light 24, a bill check in slot 26, a coin in slot 28, the bill check out slot 30, and the coin check out slot 32. Arranged in several places on the housing are maintenance hatches 34. The maintenance hatches 34 allows a user to open the housing to perform maintenance and repairs on the sanitizing machine 10.

[0031] On a bottom side of the housing are stabilizer stands 36. In some embodiments, the stabilizer stands 36 can be made from rubber. A drain 38, can also be located on the bottom side of the housing. On a side of the housing is a credit card insert 40 which can be used to sanitize a credit card.

[0032] Figure 5 shows a flow chart that shows a process for using the money sanitizing machine 10. A user can insert bills, coins, checks, or credit cards into the money sanitizing machine 10. Then the money sanitizing machine 10 discerns whether the inserted material is wet or dry.

[0033] If wet, bleach is sprayed on all sides of the inserted material. Following that, steam is sprayed on all sides of the inserted material. After that, pressurized hot air is applied to dry all sides. Following that bills and coins are counted and displayed on the screen. Finally, the inserted material exits the sanitizing machine 10.

[0034] By way of example, and referring to Figure 6, one embodiment of a sanitizing station system 10 further comprises a housing. The housing is joined to a testing desk 12. The housing further comprises pressurized hot air system 14, and ultraviolet light system 16. The housing may be accessed through doors 50 further comprising motion detectors 18, handles 24, and metal detectors 100. A ramp 28 can be used to assist users with mobility issues.

[0035] An air purifier is operationally connected to an air purifier control switch 20. The pressurized hot air system 14 is operatively coupled to a heat control speed switch 22. A ventilation system is arranged proximate the housing and joined to the housing with ducting. The ventilation system further comprises the air purifier.

[0036] A vacuum system further comprises drain vacuum tracks 26 connected to a vacuum 30. The vacuuming system further comprises a vertical ventilation passthrough 36 arranged proximate the drain vacuum tracks 26. The vacuum system uses more than one vacuum 30 divided from at least one other vacuum 30 with a divider 40 proximate a heater cable 42. Each vacuum further comprises a fan motor 38 joined to a fan 46 having fan blades 48.

[0037] The testing desk 12 further comprises first cabinets 52, second cabinets 53, drawer money sanitizer for small items 54, and a sanitizer drawer for big items 56. A digital camera 55 with a sim card is fixed to the testing desk 12. A computer 102 is arranged on the testing desk 12. [0038] Figure 8 shows the pressurized hot air system 14 in more detail. Hot air pressure system 14 further comprises: at least one horizontal ultraviolet light 58, at least one vertical ultraviolet light 60, at least one motion light 62, and a ventilation system 64 for the vacuuming system.

[0039] Figure 9 shows a sanitizing station 66 which can be located in either or both of the drawer money sanitizer for small items 54, and the sanitizer drawer for big items 56. The sanitizing station 66 further comprises at least on ultraviolet screen 84, 88 and 98, a time controller 70, a heat controller 72, and a fan blower 74 electrically coupled to a microcontroller. The sanitizing station 66 further comprises a housing joined to a handle 71.

[0040] A clothing and backpack cleaner 76 further comprises a hot air supply connection 78 joined to an electrical power supply 80. The electrical power supply 80 is electrically coupled to an ultraviolet light system 16. The hot air supply connection 78 is joined to at least one hot air dispenser 104. A first ultraviolet light system 16 and a second ultraviolet light system 98 are joined to a clothing and backpack sanitizer latch 92. The clothing and backpack sanitizer latch 92 can be mechanically coupled to clothing and backpack sanitizer latch 94. The electrical power supply 80 is further electrically coupled to a power connection 96.

[0041] By way of example, and referring to Figure 10 and Figure 11, one embodiment of a lung endoscopy system 10 is configured to provide portable data to a health care provider. The lung endoscopy system 10 comprises a housing, attached to a primary screen 12, a second screen 31A, a third screen 31B, and a fourth screen 70. An inflatable ball 43 is joined to the housing and electrically coupled to a ball valve switch 13, a ball valve deflate switch 15, and a pump.

[0042] A Wi-Fi television connection 14 is configured to transmit to visual data to an external television screen. A burn switch 14 is electrically coupled to a knife with a bum line 36. A power connection 17 is electrically coupled to a power connector 28 and an external power source on a wheel cart 50. A vacuum switch 18 is electrically coupled to the wheel cart 50 with a vacuum line 32 at a vacuum source 71. A left middle camera 19 and a right middle camera 21 are attached to the housing.

[0043] The freeze switch 20 is attached to the wheel cart 50 with a freeze line 38. An oxygen switch 22 is attached to the wheel cart 50 with an oxygen line 30. An inhaler 24 is arranged through the housing and can be used to distribute inhaled medicine to a patient. A camera switch and light 26 is electrically coupled to the left middle camera 19, the right middle camera 21, a 180-degree camera 45, a front entry camera 48, and an injection line with needle 29. The left middle camera 19, the right middle camera 21, the 180-degree camera 45, and the front entry camera 48 are electrically coupled to at least one monitor 70 on the wheel cart 50, the second screen 31A, the third screen 31B with a camera extension line 11.

[0044] A camera light switch 13 is electrically coupled to a first LED on the left middle camera 19, a second LED on the right middle camera 21, a third LED on the 180-degree camera 45, and a fourth LED on the front entry camera 48 connected to the primary screen 12.

[0045] The wheel cart 50 further comprises a housing configured which is attached to three posts 51. The three posts 51 have a hanger 57, an LED 59, and a vibrator 69. The vibrator 69 can be useful for accessing swollen tissue. The housing is attached a handle 56, and a plurality of wheels 58. The housing can accommodate fluid containers 52 and oxygen cylinders 54. Cavities 53 can be used to accommodate an adult sized lung endoscopy device 10. Cavities 55 can be used to accommodate a child sized lung endoscopy device 10. The monitors 70 are mounted on the housing. A maintenance cover 72 permits a user to access internal components of the wheel cart 50. A waste water tank 74 is arranged in the wheel cart 50. A mouth guard 75 is arranged on the lung endoscopy system 10. The mouth guard can be made in six different sizes, depending on the size of the patient’s mouth. A clean water supply 76 is attached to the tank.

[0046] To use the device, a user first inserts the lung endoscopy system in the patient’s mouth 90. Then the extension passes through the patient’s mouth 80 into the patient’s lungs. The user navigates using the screen 70 to enter the lung. The vacuuming system removes fluids that are inside the lung. Simultaneously oxygen is sent into the patient's lungs to assist with breathing, the user evaluates the health of the lungs with data from the 360- degree camera 48. the responders inspect if any treatment will be done including vacuuming fluids, pressurize oxygen and inject inhaler, or any other suitable first aid procedures.

[0047] Turning to Figure 14, a first responder lung endoscopy device 12 comprises: an air pressure reader 96 is attached to the housing. A plurality of 180-degree cameras 45 and 47 provide visual data to be displayed on the screen by the user.

[0048] As shown in Figure 15, a carry-on bag for first responders 126 further comprises a housing attached to a handle 100. The housing further comprises cavities to store oxygen cylinders 102 and fluid samples 104. At least one adult sized lung endoscopy system 10 in a first cavity 105. At least one child sized lung endoscopy system 10 in a second cavity 106.

[0049] The housing further comprises at least on front camera screen 108, at least one secondary camera screen 110, a power switch and connection 112, a front camera switch 114, a secondary camera switch 116. The housing further comprises a vacuum switch 118 with line connection 122, at least one rechargeable battery 120. A plurality of swivel wheels 124 are attached to the housing. A carry bag 126 can be stored in the housing.

[0050] Persons of ordinary skill in the art may appreciate that numerous design configurations may be possible to enjoy the functional benefits of the inventive systems. Thus, given the wide variety of configurations and arrangements of embodiments of the present invention the scope of the invention is reflected by the breadth of the claims below rather than narrowed by the embodiments described above.

INDUSTRIAL APPLICABILITY

[0051] Embodiments of the disclosed invention are useful for deactivating microbes.

WHAT IS CLAIMED IS:

1. A sanitizing system, configured to receive, sanitize and dispense payment objects; the sanitizing system comprising: a housing with a universal money recognizer; a coin counter display and a bill counter display, arranged on the housing; a bill check in slot, a coin in slot, a bill check out slot, and a coin check out slot, arranged on the housing; wherein when a user inserts coins into the coin in slot, the coins are counted, sanitized and released through the coin check out slot.

2. The sanitizing system, of Claim 1 , further comprising a power button is attached to the housing and electrically coupled to a power adapter.

3. The sanitizing system of Claim 2, wherein the coin counter display and the bill counter display are a digital display electrically coupled to a microcontroller.

4. The sanitizing system of Claim 3, further comprising a first side of the housing there is a wet dry button electrically coupled to a red wet indicator light, a green dry indicator light, and the microcontroller.

5. The sanitizing system of Claim 4, further comprising a plurality of maintenance hatches, arranged on the housing and configured to allow a user to open the housing to perform maintenance and repairs on the sanitizing system.