A stringless blind structure includes a mail rail, a secondary rail, a main blind body and a string body. The main rail, the secondary rail and the main blind body are connected and operated through the string body and a string, so the cost of the structure is lower and the it is more convenient and easier to assemble. Also, the string body winds around two connecting units, and is restricted by the string. When the main blind body expands or restores through the movement of the main rail and the secondary rail, the movement is restricted and controlled by the string to achieve the goal of stringless movement to reduce the noise when the blind moves and to further improve the life quality at home.

FIELD OF THE INVENTION

The present invention relates to a blind structure, and more particularly to a stringless blind structure.

BACKGROUND OF THE INVENTION

Conventionally, a stringless blind structure includes a blind structure having an upper beam with a receiving slot, and the bottom of the receiving slot has a plurality of through holes for strings. Also, a string controller and a fixed base are disposed on both sides, and a moving base is disposed between the string controller and the fixed base. The bottom of the upper beam has a blind body and a lower beam, and a plurality of string holes are formed corresponding to the through holes on the upper beam. A plurality of guiding units are formed on the fixed base and moving base to achieve the goal of guiding when the string is pulled or released. A transmitting string is coupled with the string controller, and one end of the transmitting string and one side of the moving base have a block and a protruding block to engage with each other, so that the transmitting string can wind around the moving base and the fixed base and connect with each other. A user can simply applies force to the lower beam to change the status of the string on the moving base and control the transmitting string, so that the user can easily control the blind body to expand or restore.

However, conventional stringless blind structure is disadvantageous because there are too many components and it is not easy to assemble, so the cost to assemble the structure is high and it is difficult to maintain. Also, the expansion and restoration of the blind body is controlled by the moving base and string controller, so it generates noise when the moving base moves. Furthermore, the string controller generates noise as well when it pulls or release the transmitting string due to the interaction of inner rotor and spring. Therefore, there remains a need for a new and improved stringless blind structure to overcome the problems stated above.

SUMMARY OF THE INVENTION

The problem the present invention would like to solve is that conventional stringless blind structure is disadvantageous because there are too many components and it is not easy to assemble, so the cost to assemble the structure is high and it is difficult to maintain. Also, the expansion and restoration of the blind body is controlled by the moving base and string controller, so it generates noise when the moving base moves. Furthermore, the string controller generates noise as well when it pulls or release the transmitting string due to the interaction of inner rotor and spring.

To solve and overcome the problems stated above, the present invention provides a stringless blind structure including a main rail, a secondary rail, a main blind body and a string body. An open slot is horizontally formed at one side of the main rail, and a sliding rail is formed inside. A second open slot is horizontally formed at one side of the secondary rail, and a second sliding rail is formed inside. Inner space of the secondary rail is divided into a left side and a right side, and a corresponding restricting portion is formed therein. One end of a string is disposed around the restricting portion, and a connecting unit is coupled with the same end. The main blind body engages with the main rail and the secondary rail through an upper end and a lower end, and two through holes are formed through the upper portion to the lower portion of the main blind body. The string body winds several times between two connecting units and two ends thereof with identical length are cross, inserted into the through holes of the main blind body, and tied at the upper portion of the main blind body to form a secured positioning.

Comparing with the conventional arts, the present invention is advantageous because the main rail, the secondary rail and the main blind body are connected and operated through the string body and the string, so the cost of the structure is lower and the it is more convenient and easier to assemble. Also, the string body winds around two connecting units, and is restricted by the string. When the main blind body expands or restores through the movement of the main rail and the secondary rail, the movement is restricted and controlled by the string to achieve the goal of stringless movement to reduce the noise when the blind moves and to further improve the life quality at home.

DETAILED DESCRIPTION OF THE INVENTION

Referring toFIGS. 1 to 2, the present invention provides a stringless blind structure including a main rail (10), a secondary rail (20), a main blind body (30) and a string body (40). An open slot (11) is horizontally formed at one side of the main rail (10), and a sliding rail (12) is formed inside. A second open slot (21) is horizontally formed at one side of the secondary rail (20), and a second sliding rail (22) is formed inside. Inner space of the secondary rail (20) is divided into a left side and a right side, and a corresponding restricting portion (23) is formed therein. One end of a string (24) is disposed around the restricting portion (23), and a connecting unit (25) is coupled with the same end. Both sides of the open slot (11) and the second open slot (21) of the mail rail (10) and the second rail (20) have a cover (111) and a second cover (211) respectively, and a straight rod (212) can extend from a bottom surface of the second cover (211) of the second rail (20) to provide for the restricting portion (23) being disposed thereon and to form a secured positioning (seeFIG. 3). The main blind body (30) engages with the main rail (10) and the secondary rail (20) through an upper end and a lower end, wherein a connecting board (31) is disposed at the upper and the lower ends of the main blind body (30) to insert into the sliding rail (12) and the second sliding rail (22) of the mail rail (10) and the secondary rail (20) to form a secured positioning. Also, two through holes (32) are formed through the upper portion to the lower portion of the main blind body (30). The string body (40) winds several times between two connecting units (25) and two ends thereof with identical length are cross, inserted into the through holes (32) of the main blind body (30) (seeFIGS. 3 and 4), and tied at the upper portion of the main blind body (30) to form a secured positioning.

Referring toFIGS. 2,4,5and6, the inner portion of the secondary rail (20) provides the string (24) to wind around the restricting portion (23) with its two ends, each of which couples with the connecting unit (25). Middle portion of the string body (40) winds around the connecting units (25), and two ends thereof with identical length are cross, inserted into the through holes (32) of the main blind body (30), and tied at the upper portion of the main blind body (30). The connecting board (31) is disposed at both ends of the main blind body (30) and inserted into the sliding rail (12) and the second sliding rail (22) of the mail rail (10) and the secondary rail (20) to form a secured positioning. Also, the cover (11) and the second cover (211) are provided to cover both sides of the open slot (11) and the second open slot (21) of the main rail (10) and the secondary rail (20) to complete the stringless blind structure.

Referring toFIGS. 4,7,8and9, when the blinds are not used, the string body (40) is collected between two connecting units (25) through the string (24) to shorten the length between the string body (40) and the main blind body (30). When a user wants to expand the main blind body (30) to shield the sunlight, the main blind body (30) can be pulled down from the main rail (10) or the secondary rail (20) to expand the main blind body (30) and the string body (40) from the secondary rail (20) at the same time. Also, the string body (40) is connected with the string (24) through the connecting unit (25), and the string body (40) winds with the connecting unit (25), and are cross and inserted into the through hole (32) of the main blind body (30). When the string body (40) is pulled out with the main blind body (30), two connecting units (25) are moved towards the center, and the string (24) is stretched due to the movement of the connecting units (25). Meanwhile, the main rail (10) or the secondary rail (20) are securely positioned and expand due to the winding of the string body between the connecting unit (25) and the resilient force of the string (24).

On the other hand, when the main blind body (30) are restored to its original position, the main rail (10) or the secondary rail (20) are pushed up, and the string body (40) is loosened due to the reduction of the gravity of the main rail (10) and the secondary rail (20). Also, two connecting units (25) are moved toward outside due to the resilience of the string (24), so that the string body (40) are collected between two connecting units (25). And the string body (40) is restricted by the string (24) to prevent the string body (40) from being pulled out by the weight of the main rail (10) and the secondary rail (20), and to further prevent the main blind body (30) from expanding when there is no force applied to it.

According to the embodiments discussed above, the present invention is advantageous because the main rail (10), the secondary rail (20) and the main blind body (30) are connected and operated through the string body (40) and the string (24), so the cost of the structure is lower and the it is more convenient and easier to assemble. Also, the string body (40) winds around two connecting units (25), and is restricted by the string (24). When the main blind body (30) expands or restores through the movement of the main rail (10) and the secondary rail (20), the movement is restricted and controlled by the string (24) to achieve the goal of stringless movement to reduce the noise when the blind moves and to further improve the life quality at home.