Blind body actuator casing for non-pull cord window blind assembly

Abstract

A blind body actuator casing includes a plastic top panel defining a bottom wall, a plastic bottom panel defining a top wall and detachably fastened to the plastic top panel with a predetermined interval defined between the bottom wall of the plastic top panel and the top wall of the plastic bottom panel, and a plurality of metal wheel axles connected between the bottom wall of the plastic top panel and the top wall of the plastic bottom panel. Thus, the invention effectively reduces noises during rotation of rotary components that are mounted on the metal wheel axles.

Claims

1. A blind body actuator casing for a non-pull cord window blind assembly, comprising: a plastic top panel defining a bottom wall; a plastic bottom panel defining a top wall, said plastic bottom panel being detachably fastened to said plastic top panel with a predetermined interval defined between said bottom wall of said plastic top panel and said top wall of said plastic bottom panel; and a plurality of metal wheel axles connected between said bottom wall of said plastic top panel and said top wall of said plastic bottom panel, wherein said plastic top panel and said plastic bottom panel are made of plastic and said plurality of metal wheel axles are made of metal; wherein each of said metal wheel axles is a one-piece member; wherein when said plastic top panel is detached from said plastic bottom panel, each of said metal wheel axles is only connected with said bottom wall of said plastic top panel; wherein said plastic bottom panel comprises a plurality of positioning grooves; each said metal wheel axle has a top end thereof fixedly connected to said bottom wall of said plastic top panel and an opposite bottom end thereof detachably fastened to one respective said positioning groove of said plastic bottom panel; wherein each of said metal wheel axles is extended entirely between said bottom wall of said plastic top panel and said top wall of said plastic bottom panel; and wherein said plurality of positioning grooves are in said top wall of said plastic bottom panel.

2. The blind body actuator casing as claimed in claim 1, wherein said plastic top panel comprises a plurality of first side pillars downwardly extended from the bottom wall thereof; said plastic bottom panel comprises a plurality of second side pillars upwardly extended from the top wall thereof and detachably fastened to the respective said first side pillars.

3. The blind body actuator casing as claimed in claim 2, wherein each said first side pillar comprises a hook portion; each said second side pillar comprises a hook groove detachably fastened to said hook portion of one respective said first side pillar.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is an oblique top elevational view of a blind body actuator casing in accordance with a first embodiment of the present invention.

(2) FIG. 2 is an exploded view of the blind body actuator casing in accordance with the first embodiment of the present invention.

(3) FIG. 3 is a front view of the blind body actuator casing in accordance with the first embodiment of the present invention.

(4) FIG. 4 illustrates the blind body actuator casing of the first embodiment of the present invention installed in the headrail of a non-pull cord window blind assembly.

(5) FIG. 5 is an exploded view of a blind body actuator casing in accordance with a second embodiment of the present invention.

DETAILED DESCRIPTION OF THE INVENTION

(6) Referring to FIG. 1, FIG. 2 and FIG. 3, a blind body actuator casing 10 is mounted in a headrail 12 (see FIG. 4), comprising a plastic top panel 21, an opposite plastic bottom panel 31, and four metal wheel axles 40.

(7) The plastic top panel 21 comprises a plurality of first side pillars 22 downwardly extended from a bottom wall around the border thereof. Each first side pillar 22 comprises a hook portion 23 extended from a bottom end thereof.

(8) The plastic bottom panel 31 comprises a plurality of second side pillars 32 upwardly extended from a top wall around the border thereof. Each second side pillars 32 comprises a hook groove 33 located on a top end thereof.

(9) The metal wheel axles 40 are respectively composed of two components, each comprising a second metal axle component 34 and a first metal axle component 24. The first metal axle component 24 has a top end thereof fixedly fastened to the bottom wall of the plastic top panel 21 using insert molding technology. The second metal axle component 34 has a bottom end thereof fixedly fastened to the top wall of the plastic bottom panel 31 using insert molding technology. Further, the first metal axle component 24 has a connection protrusion 25 protruded from an opposite bottom end thereof; the second metal axle component 34 has a connection recess 35 located on an opposite top end thereof.

(10) In installation, the hook portions 23 of the first side pillars 22 of the plastic top panel 21 are respectively hooked in the hook grooves 33 of the respective second side pillars 32 of the plastic bottom panel 31 to force the connection protrusions 25 of the respective first metal axle components 24 into engagement with the connection recesses 35 of the respective second metal axle components 34. After installation, the first metal axle components 24 and the second metal axle components 34 are respectively fastened together to create the respective metal wheel axles 40 that support other rotary components (such as coil spring winding wheels 14 or lift-cord winding wheels 16) to create a blind body actuator 18, avoiding generation of noises during rotation of the rotary components.

(11) In a second embodiment of the present invention, each metal wheel axle 42 is a one-piece member. As illustrated in FIG. 5, each metal wheel axle 42 has a top end thereof fixedly fastened to the bottom wall of the plastic top panel 21 using insert molding technology. In installation, the opposite bottom end of each metal wheel axle 42 is fastened to a respective positioning groove 36 in the top wall of the plastic bottom panel 31. This structural arrangement can also achieve the effect of noise reduction.