Patent ID: 11857918
Assignee: HARBIN INSTITUTE OF TECHNOLOGY
Field: Chemical engineering (Chemistry)
Classification: CPC B  Y | IPC B

Claim 0:
1. A liquid water harvester based on a valve-controlled active air supply,
comprising an active air supply device (1), an electric valve (2), a heating film (3), a moisture absorbing material (4), a moisture absorbing material storage device (5), an inner container (6), an inner container cover (7), an external hood (8), and an external hood cover (9) and a controller;
wherein the external hood (8) is a structure with a top end opened and a bottom end closed; the active air supply device (1) is disposed at a corner of a bottom surface inside the external hood (8); an air inlet of the active air supply device (1) penetrates through a sidewall of the external hood (8); the electric valve (2) is disposed at the bottom surface inside the external hood (8); an air outlet of the active air supply device (1) is communicated with an air inlet of the electric valve (2); the air outlet of the active air supply device (1) is also provided with an exit opening in a vertical upward direction; the moisture absorbing material storage device (5) is disposed at a center of the bottom surface inside the external hood (8); the moisture absorbing material storage device (5) is a structure with a top opened and a bottom closed; a plurality of groups of vertically-arranged air vents (5-1) are disposed symmetrically at both sides of the moisture absorbing material storage device 5; an air outlet of the electric valve (2) faces toward the air vents (5-1) at a side of the moisture absorbing material storage device (5); the heating film (3) is disposed at a bottom surface in an inner cavity of the moisture absorbing material storage device (5); the moisture absorbing material (4) is disposed on the heating film (3) and located inside the inner cavity of the moisture absorbing material storage device (5); a top of the moisture absorbing material (4) is lower than the highest air vent (5-1); the bottom center of the inner container (6) is covered on the top of the moisture absorbing material storage device (5); the bottom center of the inner container (6) is an open structure in communication with the inner cavity of the moisture absorbing material storage device (5); the interior of the inner container (6) is a hollow structure which is formed into a water storage cavity (6-1); the inner container cover (7) is disposed at a top of the inner container (6); a micro-nano structure condensation surface is disposed on a top of an inner wall of the inner container cover (7); the micro-nano structure condensation surface is a concave-convex alternating surface, where a hydrophilic coating is disposed on a concave surface (7-2) and a hydrophobic coating is disposed on a convex surface (7-1);
the electric valve (2) is located below a side of the inner container (6); a gap is reserved between each of an outer bottom surface and an outer sidewall of the inner container (6) and an inner wall of the external hood (8), so as to form a ventilation area; the external hood cover (9) is disposed at a top of the external hood (8); the external hood cover (9) is an open structure which has an inner diameter smaller than an inner diameter of the external hood (8); a signal output end of the controller is respectively connected to a signal input end of the active air supply device (1), a signal input end of the electric valve (2) and a signal input end of the heating film (3).