A rack organizes dental implant containers both when housed within intermediate packaging and when removed therefrom, being arranged according to a tooth intended to receive the dental implant within the container. The rack includes: upper and lower flanges, and a connecting flange that separates the upper and lower flanges. The upper flange and connecting flange are each formed with a plurality of openings shaped to receive the dental implant container therethrough when the container is removed from the intermediate packaging. The openings may each have first and second slots to accommodate receiving a container therethrough when housed within intermediate packaging. The lower flange may removably couple to a base with a plurality of recesses, being usable to assist with restorative procedures relating to fixing dental implants, and may be removably coupled to the lower flange with the plurality recesses aligned with a plurality of openings in the lower flange.

In some embodiments, apparatuses and methods are provided herein useful to providing data files associated with orthodontic appliances. In some embodiments, a system for providing data files associated with orthodontic appliances comprises a database, wherein the database stores the data files associated with the orthodontic appliances and a control circuit, wherein the control circuit is communicatively coupled to the database, a user device, and a printer, wherein the control circuit is configured to receive, from the user device, an indication of a selected orthodontic device, retrieve, based on the indication of the selected orthodontic device from the database, one of the data files associated with the orthodontic appliances, wherein the one of the data files associated with the orthodontic appliances corresponds to the selected orthodontic appliance, and transmit, to the printer, the one of the data files associated with the orthodontic appliances.

A smart dental hygiene that dispenses oral hygiene products including toothpaste, mouthwash, and dental floss is disclosed. The apparatus includes a casing comprising a first container for storing toothpaste, a second container for storing mouthwash, and the third container for storing dental floss. A first dispenser may be connected to the first container for enabling dispensing of toothpaste. A second dispenser may be connected to the second container for enabling dispensing of mouthwash. A third dispenser may be connected to the third container for enabling dispensing of dental floss. Furthermore, a microcontroller communicatively connected to the plurality of sensors is provided. The microcontroller may analyse the data collected by a plurality of sensors to determine a plurality of usage factors including quantity of toothpaste, mouthwash and dental floss dispensed during each dispensing action, amount of toothpaste, mouthwash and dental floss remaining in the containers, and the like.

Provided are a washing device, a control method thereof and a smart home apparatus. The washing device includes a support plate, a charging cup, a liquid feeder and a power supply management system. A top surface of the support plate is provided with a first charging stand. The heating member can be electrically connected to the first charging stand. The liquid feeder is provided with a fluid inlet, a fluid outlet and an on-off switch. The power supply management system is connected to and controls the first charging stand and the on-off switch, the power supply management system receives a start-up instruction, controls the on-off switch to be turned on according to the start-up instruction to supply liquid to the charging cup, and controls the first charging stand to be electrified according to the start-up instruction to heat the liquid in the charging cup through the heating member.

Provided are a toothbrush sterilizing assembly and an electric toothbrush. The toothbrush sterilizing assembly includes a sterilizing shell, a sterilizing cover, a sterilizing element, a control module and a power supply module. The sterilizing shell has a cylindrical shape and is sleeved outside an electric toothbrush. The sterilizing cover is detachably connected to one end of the sterilizing shell and is capable of covering the one end of the sterilizing shell. The sterilizing element is disposed on an inner wall of the one end of the sterilizing shell. The control module is connected to the sterilizing element and configured to control the sterilizing element to start to sterilize a brush head of the electric toothbrush. The power supply module is electrically connected to the control module.

Provided are a toothbrush sterilizing assembly and an electric toothbrush. The toothbrush sterilizing assembly includes a sterilizing shell, a sterilizing cover, a sterilizing element, a control module and a power supply module. The sterilizing shell has a cylindrical shape and is sleeved outside an electric toothbrush. The sterilizing cover is detachably connected to one end of the sterilizing shell and is capable of covering the one end of the sterilizing shell. The sterilizing element is disposed on an inner wall of the one end of the sterilizing shell. The control module is connected to the sterilizing element and configured to control the sterilizing element to start to sterilize a brush head of the electric toothbrush. The power supply module is electrically connected to the control module.

A an attachable orthodontic device case includes an orthodontic device case having an interior volume configured for holding an orthodontic device, the orthodontic device case comprising a first half and the second half, wherein the first half is hingably coupled to the second half via a plurality of barrel hinges, a first handle located on the first half of the orthodontic device case, and a male protrusion located on the first handle, a second handle located on the second half of the orthodontic device case, and a female orifice located on the second handle, wherein the female orifice is configured to mate securely with the male protrusion located on the first handle, and, a flat surface on a rear of the second half of the orthodontic device case and a magnet and/or an adhesive on said flat surface for removably coupling to a rear of a mobile computing device.

A an attachable orthodontic device case includes an orthodontic device case having an interior volume configured for holding an orthodontic device, the orthodontic device case comprising a first half and the second half, wherein the first half is hingably coupled to the second half via a plurality of barrel hinges, a first handle located on the first half of the orthodontic device case, and a male protrusion located on the first handle, a second handle located on the second half of the orthodontic device case, and a female orifice located on the second handle, wherein the female orifice is configured to mate securely with the male protrusion located on the first handle, and, a flat surface on a rear of the second half of the orthodontic device case and a magnet and/or an adhesive on said flat surface for removably coupling to a rear of a mobile computing device.

Systems and methods are disclosed for sterile delivery of prostheses that protect refined and/or conditioned surface properties and thereby reduce aging of surface properties in prostheses. An example of the system includes a partially custom-shaped holder that also serves as an insertion tool that holds a customized dental prosthesis in a pre-defined position inside a titanium container that is hermetically sealed. Container materials serve as a getter or catalyst with respect to the osseoconductive surface. An example of the method includes laser welding to hermetically seal a metal container as packaging for a prosthesis with a metal foil, and the sterilization of the packaged and sealed prosthesis with dry heat.

Systems and methods are disclosed for sterile delivery of prostheses that protect refined and/or conditioned surface properties and thereby reduce aging of surface properties in prostheses. An example of the system includes a partially custom-shaped holder that also serves as an insertion tool that holds a customized dental prosthesis in a pre-defined position inside a titanium container that is hermetically sealed. Container materials serve as a getter or catalyst with respect to the osseoconductive surface. An example of the method includes laser welding to hermetically seal a metal container as packaging for a prosthesis with a metal foil, and the sterilization of the packaged and sealed prosthesis with dry heat.