Low closure force motorized latch

I claim: 1. An appliance latch assembly for latching a door comprising: a housing providing an aperture for receiving a strike from a first direction and defining movement of the strike into the aperture along a strike insertion axis, the housing holding: an electric motor; a strike grip movable in the first direction along the strike insertion axis by the electric motor from an outward unlock position toward an inward locked position further advanced along the strike insertion axis in the first direction further into the housing; the strike grip providing at least one spring-biased element, the spring-biased element being movable when the strike grip is in the outward unlock position to receive and releasably retain the strike in response to a manually applied engagement force from the first direction and to release the strike in response to a manually applied disengagement force opposite the first direction; and a strike grip lock blocking movement of the spring-biased element to release the strike in response to the manually applied force opposite the first direction when the strike grip is in the inward locked position. 2. The appliance latch assembly of claim 1 wherein the at least one spring-biased element is two opposed jaws spring-biased to close about the strike when the strike is received therebetween. 3. The appliance latch assembly of claim 2 wherein the jaws are urged toward a closed position by an axially spring-biased ridge engaging corresponding shoulders of the jaws. 4. The appliance latch assembly of claim 2 wherein the strike grip lock is a collar surrounding the jaws preventing them from opening to release the strike when the strike grip is in the inward locked position. 5. An appliance latch assembly for latching a door comprising: a housing providing an aperture for receiving a strike from a first direction and holding: an electric motor; a strike grip movable by the electric motor between an outward unlock position toward the first direction along an axis and an inward locked position away from the first direction; the strike grip providing at least one spring-biased element, the spring-biased element being movable when the strike grip is in the outward unlock position to receive and releasably retain the strike in response to a manually applied engagement force from the first direction and to release the strike in response to a manually applied disengagement force opposite the first direction; a strike grip lock blocking movement of the spring-biased element to release the strike in response to the manually applied force opposite the first direction when the strike grip is in the inward locked position, wherein: the at least one spring-biased element is two opposed jaws spring-biased to close about the strike when the strike is received therebetween; the strike grip lock is a collar surrounding the jaws preventing them from opening to release the strike when the strike grip is in the inward locked position; and the motor moves a closer element and the collar is attached to the closer element to float axially with respect to the closer element and is spring-biased away from the closer element toward the first direction. 6. An appliance latch assembly for latching a door comprising: a housing providing an aperture for receiving a strike from a first direction and holding: an electric motor; a strike grip movable by the electric motor between an outward unlock position toward the first direction along an axis and an inward locked position away from the first direction; the strike grip providing at least one spring-biased element, the spring-biased element being movable when the strike grip is in the outward unlock position to receive and releasably retain the strike in response to a manually applied engagement force from the first direction and to release the strike in response to a manually applied disengagement force opposite the first direction; and a strike grip lock blocking movement of the spring-biased element to release the strike in response to the manually applied force opposite the first direction when the strike grip is in the inward locked position, wherein the motor moves a closer element and the strike grip is attached to a support floating with respect to the closer element and is spring-biased against the closer element away from the first direction. 7. An appliance latch assembly for latching a door comprising: a housing providing an aperture for receiving a strike from a first direction and holding: an electric motor; a strike grip movable by the electric motor between an outward unlock position toward the first direction along an axis and an inward locked position away from the first direction; the strike grip providing at least one spring-biased element, the spring-biased element being movable when the strike grip is in the outward unlock position to receive and releasably retain the strike in response to a manually applied engagement force from the first direction and to release the strike in response to a manually applied disengagement force opposite the first direction; and a strike grip lock blocking movement of the spring-biased element to release the strike in response to the manually applied force opposite the first direction when the strike grip is in the inward locked position, wherein the motor moves the strike grip along the axis by rotating an axially threaded member engaging a correspondingly threaded support of the strike grip. 8. The appliance latch assembly of claim 7 wherein the motor communicates through a gear train with gear teeth extending radially outward from the axially threaded member. 9. The appliance latch assembly of claim 8 wherein a gear train includes a worm gear driven by a shaft of the motor extending perpendicular to the axis. 10. The appliance latch assembly of claim 7 wherein the axially threaded member is an outer sleeve having inwardly extending threads and surrounding a telescoping inner sleeve having outwardly extending threads providing the correspondingly threaded support, and wherein the strike grip provides two opposed jaws spring-biased to close about the strike when the strike is received therebetween wherein the jaws are urged toward a closed position by an axially spring-biased ridge of the telescoping inner sleeve engaging corresponding shoulders of the jaws and wherein the motor moves a closer element and the strike grip is attached to a support floating with respect to the closer element and is spring-biased against the closer element away from the first direction. 11. The appliance latch assembly of claim 10 wherein each of the outer sleeve, the inner sleeve and the opposed jaws comprise a thermoplastic polymer material. 12. A washing appliance comprising: a housing having a door movable from an open position permitting a loading of a washing chamber, through a close position visually covering the washing chamber but allowing outside airflow into the washing chamber, to a seal position sealing water within the washing chamber by a compression of a gasket; a strike on one of the housing and the door; a latch housing on the other one of the housing and the door and providing an aperture for receiving the strike from a first direction; an electric motor; a strike grip movable by the electric motor between an outward unlock position toward the first direction along an axis extending into the aperture and an inward locked position away from the first direction with movement of the strike grip being coaxial with movement of the strike received in the aperture; the strike grip providing at least one spring-biased element, the spring-biased element be