Motorized venetian blind

What is claimed is: 1 . A motorized venetian blind, comprising: a headrail; a bottom rail, situated below the headrail through a front pull cord and a rear pull cord which are respectively connected to a first reeling wheel and a second reeling wheel, wherein the first reeling wheel and the second reeling wheel are disposed on the headrail; plural slats, suspended by a ladder cord and located between the headrail and the bottom rail, wherein the ladder cord comprises a front warp and a rear warp each have one end connected to a tilting wheel disposed on the headrail; the plural slats are located between the front warp and the rear warp; the front warp and the front pull cord pass one side of the slats, and the rear warp and the rear pull cord pass the other side of the slats; a first lifting electric machine, configured to control the first reeling wheel to rotate for performing one of retracting the front pull cord and releasing the front pull cord; a second lifting electric machine, configured the second reeling wheel to rotate for performing one of retracting the rear pull cord and releasing the rear pull cord; and a tilting electric machine, configured to control the tilting wheel to rotate for generating a relative movement that is substantially vertical of the front warp and the rear warp of the ladder cord, whereby the slats are tilted between a horizontal position and a closed position; wherein when the front pull cord and the rear pull cord are concurrently retracted or when the front pull cord and the rear pull cord are concurrently released, the bottom rail is moved between an upper limit position and a lower limit position, wherein the upper limit position is close to the headrail and the lower limit position is distanced from the headrail; when one of the front warp and the rear warp is moved upwardly for tilting the slats from the horizontal position to the closed position, the front pull cord or the rear pull cord on a same side as the one of the front warp and the rear warp that is moved upwardly is also moved upwardly, making the bottom rail tilt towards a same direction as a tilting direction of the slats to a substantially vertical position and partially overlap the neighboring one of the slats. 2 . The motorized venetian blind of claim 1 , wherein the headrail has a datum surface, and the front pull cord, the rear pull cord, the front warp and the rear warp pass through the datum surface; if the front pull cord is the one of the front pull cord and the rear pull cord that is moved upwardly, an amount of upward movement with respect to the datum surface of the front pull cord is greater than an amount of upward movement with respect to the datum surface of the front warp; if the rear pull cord is the one of the front pull cord and the rear pull cord that is moved upwardly, an amount of upward movement with respect to the datum surface of the rear pull cord is greater than an amount of upward movement with respect to the datum surface of the rear warp. 3 . The motorized venetian blind of claim 1 , wherein the headrail has a datum surface, and the front pull cord, the rear pull cord, the front warp and the rear warp pass through the datum surface; if the front pull cord is the one of the front pull cord and the rear pull cord that is moved upwardly, an amount of upward movement with respect to the datum surface of the front pull cord is substantially equal to an amount of upward movement with respect to the datum surface of the front warp; if the rear pull cord is the one of the front pull cord and the rear pull cord that is moved upwardly, an amount of upward movement with respect to the datum surface of the rear pull cord is substantially equal to an amount of upward movement with respect to the datum surface of the rear warp. 4 . The motorized venetian blind of claim 1 , wherein the headrail has a datum surface, and the front pull cord, the rear pull cord, the front warp and the rear warp pass through the datum surface; if the front pull cord is the one of the front pull cord and the rear pull cord that is moved upwardly, an amount of upward movement with respect to the datum surface of the front pull cord is smaller than an amount of upward movement with respect to the datum surface of the front warp; if the rear pull cord is the one of the front pull cord and the rear pull cord that is moved upwardly, an amount of upward movement with respect to the datum surface of the rear pull cord is smaller than an amount of upward movement with respect to the datum surface of the rear warp. 5 . The motorized venetian blind of claim 1 , wherein the headrail has a datum surface, and the front pull cord, the rear pull cord, the front warp and the rear warp pass through the datum surface; when the slats are tilted from the horizontal position to the closed position, the other one of the front pull cord and the rear pull cord rather than the one of the front pull cord and the rear pull cord that is moved upwardly is moved downwardly; if the front pull cord is the one moved downwardly, an amount of downward movement with respect to the datum surface of the front pull cord is substantially equal to an amount of downward movement with respect to the datum surface of the front warp; if the rear pull cord is the one that is moved downwardly, an amount of downward movement with respect to the datum surface of the rear pull cord is substantially equal to than an amount of downward movement with respect to the datum surface of the rear warp. 6 . The motorized venetian blind of claim 1 , further comprising: a first detector, configured to detect tension of the front pull cord; and a second detector, configured to detect tension of the rear pull cord. 7 . The motorized venetian blind of claim 6 , wherein when at least one of the first detector and the second detector detects tension smaller than a preset value while the first lifting electric machine and the second lifting electric machine are driving the first reeling wheel and the second reeling wheel to rotate respectively, a first control signal and a second control signal are transmitted to the first lifting electric machine and the second lifting electric machine respectively, whereby the first lifting electric machine and the second lifting electric machine stop controlling the first reeling wheel and the second reeling wheel to rotate respectively. 8 . The motorized venetian blind of claim 6 , wherein when the first detector and the second detector both detect tension smaller than a preset value while the first reeling wheel and the second reeling wheel are stationary, a first control signal and a second control signal are transmitted to the first lifting electric machine and the second lifting electric machine respectively, whereby the first lifting electric machine and the second lifting electric machine control the first reeling wheel and the second reeling wheel to rotate respectively for concurrently retracting the front pull cord and the rear pull cord, or concurrently releasing the front pull cord and the rear pull cord. 9 . The motorized venetian blind of claim 6 , wherein a first tilting signal is transmitted in response to only the second detector between the first detector and the second detector detecting tension smaller than a preset value, whereby the tilting electric machine controls the tilting wheel to rotate in a first direction for releasing the front warp and retracting the rear warp; a second tilting signal is transmitted in response to only the first detector between the first detector and the second detector detecting tension smaller than the preset value, whereby the tilting electric machine controls the tilting wheel to rotate in a second direction for r