A soap remnant molding assembly includes a squeezer having a housing portion defining a chamber, and a handle portion engaged to the housing portion and extending outwardly from the housing portion. The molding assembly also includes a squeezer cover pivotally coupled to the squeezer and adapted to move between an open position and a close position. The squeezer cover includes a cover portion adapted to engaged with the housing portion and cover an access opening of the chamber in the close position of the squeezer cover, and a handle structure extending from the cover portion. A tray is removably arranged inside the chamber and includes a cavity to receive a plurality of soap remnants. The plurality of soap remnants arranged inside the cavity are pressed together to form a soap bar in response to the pivoting of the squeezer cover to the close position.

A soap melting assembly includes a chest that is comprised of a microwave safe material thereby facilitating the chest to be heated in a microwave oven. A lid is hingedly coupled to the chest for closing the chest and the lid is comprised of a microwave safe material. A drawer is slidably positioned in the lid and the drawer is comprised of a microwave safe material. A block is stored in the drawer and the block is comprised of glass. The block is removable from the drawer and positioned on the plurality of soap slivers when the chest becomes filled with the soap slivers. Thus, the block compresses the soap slivers into a single bar when the chest and the soap slivers are heated in the microwave oven.

A soap melting assembly includes a chest that is comprised of a microwave safe material thereby facilitating the chest to be heated in a microwave oven. A lid is hingedly coupled to the chest for closing the chest and the lid is comprised of a microwave safe material. A drawer is slidably positioned in the lid and the drawer is comprised of a microwave safe material. A block is stored in the drawer and the block is comprised of glass. The block is removable from the drawer and positioned on the plurality of soap slivers when the chest becomes filled with the soap slivers. Thus, the block compresses the soap slivers into a single bar when the chest and the soap slivers are heated in the microwave oven.

A soap reforming assembly includes a housing and a soap collection unit that is coupled to the housing for collecting and transporting pieces of soap when the pieces of soap are dropped into the housing. A heating element is coupled to the housing and the heating element heats the soap collection unit to melt the soap pieces into a fluid soap. A forming unit is positioned within the housing for receiving the fluid soap from the soap collection unit when the heating element produces the fluid soap. The forming unit cools and forms the fluid soap into a bar for bathing. A drawer is slidably positioned in the housing and the drawer receives the bar of soap from the forming unit. The drawer is positionable in an open position having the drawer extending outwardly from the housing to dispense the bar of soap.

A soap reforming assembly includes a housing and a soap collection unit that is coupled to the housing for collecting and transporting pieces of soap when the pieces of soap are dropped into the housing. A heating element is coupled to the housing and the heating element heats the soap collection unit to melt the soap pieces into a fluid soap. A forming unit is positioned within the housing for receiving the fluid soap from the soap collection unit when the heating element produces the fluid soap. The forming unit cools and forms the fluid soap into a bar for bathing. A drawer is slidably positioned in the housing and the drawer receives the bar of soap from the forming unit. The drawer is positionable in an open position having the drawer extending outwardly from the housing to dispense the bar of soap.

A soap melting assembly includes a chest that is comprised of a microwave safe material thereby facilitating the chest to be heated in a microwave oven. A lid is hingedly coupled to the chest for closing the chest and the lid is comprised of a microwave safe material. A drawer is slidably positioned in the lid and the drawer is comprised of a microwave safe material. A block is stored in the drawer and the block is comprised of glass. The block is removable from the drawer and positioned on the plurality of soap slivers when the chest becomes filled with the soap slivers. Thus, the block compresses the soap slivers into a single bar when the chest and the soap slivers are heated in the microwave oven.

A soap melting assembly includes a chest that is comprised of a microwave safe material thereby facilitating the chest to be heated in a microwave oven. A lid is hingedly coupled to the chest for closing the chest and the lid is comprised of a microwave safe material. A drawer is slidably positioned in the lid and the drawer is comprised of a microwave safe material. A block is stored in the drawer and the block is comprised of glass. The block is removable from the drawer and positioned on the plurality of soap slivers when the chest becomes filled with the soap slivers. Thus, the block compresses the soap slivers into a single bar when the chest and the soap slivers are heated in the microwave oven.

A soap reforming assembly includes a housing and a soap collection unit that is coupled to the housing for collecting and transporting pieces of soap when the pieces of soap are dropped into the housing. A heating element is coupled to the housing and the heating element heats the soap collection unit to melt the soap pieces into a fluid soap. A forming unit is positioned within the housing for receiving the fluid soap from the soap collection unit when the heating element produces the fluid soap. The forming unit cools and forms the fluid soap into a bar for bathing. A drawer is slidably positioned in the housing and the drawer receives the bar of soap from the forming unit. The drawer is positionable in an open position having the drawer extending outwardly from the housing to dispense the bar of soap.

A bar soap recycling device including an enclosure assembly, a tray assembly, an electrical assembly, and a soap assembly is disclosed. These assemblies in conjunction with one another provide a simple solution to recycling used bars of soap. Leftover chips, slivers, or pieces of used soap bars are placed within a mold of the tray assembly. The tray assembly is placed within an enclosure that includes an integrated heating element. The heating element warms the heat conducting mold to the point of melting the used soap bars. A timer determines when the soap bars have had enough time to melt into the shape of the mold. A cooling element in the form of a fan then cools the mold and soap contained therein to resolidify the used bars of soap into a single bar. The resolidified bar of soap is then removed from the mold and ready to be used.

A bar soap recycling device including an enclosure assembly, a tray assembly, an electrical assembly, and a soap assembly is disclosed. These assemblies in conjunction with one another provide a simple solution to recycling used bars of soap. Leftover chips, slivers, or pieces of used soap bars are placed within a mold of the tray assembly. The tray assembly is placed within an enclosure that includes an integrated heating element. The heating element warms the heat conducting mold to the point of melting the used soap bars. A timer determines when the soap bars have had enough time to melt into the shape of the mold. A cooling element in the form of a fan then cools the mold and soap contained therein to resolidify the used bars of soap into a single bar. The resolidified bar of soap is then removed from the mold and ready to be used.