CN210738427U - Double-push-head electric shutter control system - Google Patents

Abstract

For the work efficiency of efficient promotion motor more, the utility model provides an electronic tripe control system of two heads that push away, it includes: the device comprises a first group of louvers, a second group of louvers, a frame, a connecting rod, a pushing head, a positioning locking piece and a motor, wherein the frame comprises an upper frame, a left frame, a lower frame and a right frame; the method is characterized in that: the frame also comprises a middle frame, a motor support is arranged on the middle frame, the lower end of the motor is fixed on the motor support, and a threaded hole which is through from left to right is formed in the free end of a motor shaft above the motor; the push head comprises a first push head and a second push head, a first screw rod is arranged at the right end of the first push head, a second screw rod is arranged at the left end of the second push head, and the first screw rod and the second screw rod can be respectively inserted into threaded holes which are communicated with the left side and the right side of the free end of the motor shaft and are locked through nuts, so that the motor shaft is fixed with one end of the first push head and one end of the second push head.

Description

Double-push-head electric shutter control system

Technical Field

The utility model relates to a shutter technical field, it is comparatively concrete, involve an electronic tripe control system of two heads that push away.

Background

At present, in the technical field of shutters, a motor is generally adopted to drive a pushing head, then a connecting rod is driven by the pushing head, and the connecting rod is connected with a group of shutters, so that the effect that the motor can drive the group of shutters to move can be achieved. The control scheme of the electric shutter is relatively mature. However, the motor push head only drives one connecting rod to move, so that stress points are concentrated on one side, and the other side does not receive force at all, so that energy of the motor in a reciprocating stroke is wasted.

SUMMERY OF THE UTILITY MODEL

In view of this, for the work efficiency of more efficient promotion motor, the utility model provides an electronic tripe control system of two throwers, its motor that drives two symmetries through a motor pushes away the head to the motor of two symmetries pushes away the head and all is connected to the connecting rod, and the connecting rod links to each other with two sets of tripes respectively, adopts this kind of mode, can realize that a motor drives the effect that two sets of tripes moved.

A dual-pusher electric blind control system, comprising: the device comprises a first group of louvers 110, a second group of louvers 120, a frame 2, a connecting rod 4, a pushing head 5, a positioning locking piece 6 and a motor 7, wherein the frame 2 comprises an upper frame 21, a left frame 22, a lower frame 23 and a right frame 24; the method is characterized in that: the frame 2 further comprises a middle frame 25, a left shaft hole and a right shaft hole are respectively arranged on the inner side surfaces of the left frame 22 opposite to the middle frame 25, a rotating shaft sleeve 33 is respectively arranged on the blades 1 of the first group of louvers 110, and the rotating shaft sleeve 33 is movably sleeved on the inner side surfaces of the left frame 22 opposite to the middle frame 25 to form the left shaft hole and the right shaft hole; the inner side surfaces of the middle frame 25 opposite to the right frame 24 are respectively provided with a left shaft hole and a right shaft hole, the blades of the second group of louvers 120 are respectively provided with a rotating shaft sleeve 33, and the rotating shaft sleeve 33 is movably sleeved on the left shaft hole and the right shaft hole which are arranged on the inner side surfaces of the middle frame 25 opposite to the right frame 24; a motor support 251 is arranged on the middle frame 25, the lower end of the motor 7 is fixed on the motor support 251, and a threaded hole which is through from left to right is arranged at the free end of the motor shaft 71 above the motor 7; the push head 5 comprises a first push head 51 and a second push head 52, a first screw rod is arranged at the right end of the first push head 51, a second screw rod is arranged at the left end of the second push head 52, and the first screw rod and the second screw rod can be respectively inserted into left and right through threaded holes at the free end of the motor shaft and are locked through nuts, so that the motor shaft 71 is fixed with one end of the first push head 51 and one end of the second push head 52; the connecting rod 4 comprises a first connecting rod 41 and a second connecting rod 42, the other end of the first push head 51 is fixedly connected to the first connecting rod 41, and the other section of the second push head 52 is fixedly connected to the second connecting rod 42; a plurality of positioning locking pieces 6 are respectively arranged on the first connecting rod 41 and the second connecting rod 42, the positioning locking pieces 6 can enable the first connecting rod 41 to be connected with the first group of louvers 110, and the positioning locking pieces 6 enable the second connecting rod 42 to be connected with the second group of louvers 120.

Furthermore, the positioning locking piece 6 comprises a sleeve 61, a screw 62 and a driving plate 63, wherein the sleeve 61 is provided with a first through hole 611 penetrating up and down and a second through hole 612 perpendicular to the first through hole 611 penetrating up and down, the connecting rod 4 penetrates through the first through hole 611 penetrating up and down of the sleeve 61, and the screw 62 is screwed into the second through hole 612 to fixedly lock the connecting rod 4 in the sleeve 61.

Further, the driving plate 63 is in a herringbone shape, the top of the herringbone driving plate 63 is connected with the sleeve 61, the bottom of the herringbone driving plate 63 is connected with the blade 1, the distance between the top of the herringbone driving plate 63 and the end part of the blade 1 is short, and the distance between the top of the herringbone driving plate 63 and the middle part of the blade 1 is long.

Further, the driving plate 63 may be located on the upper blade 11 or the lower blade 12 of the blade 1. Preferably, the driving plate 63 is located on the lower blade 12 of the blade 1, which is beneficial to improving the supporting force.

Further, the motor 7 is electrically connected with the PLC, and the motion of the motor can be controlled through the PLC.

Further, a communication unit is arranged in the motor 7, and can be communicated with the mobile control end, so that the mobile control end can control the motor 7 to move.

Furthermore, the included angle between the blade 1 and the plane formed by the frame 2 is 0-105 degrees.

Further, the blade 1 is composed of an upper blade 11, a lower blade 12, a left movable cover plate 3 and a right movable cover plate 3 which are opposite, a cavity is arranged inside the upper blade 11, the lower blade 12, the left movable cover plate 3 and the right movable cover plate 3 which are opposite, and a rotating shaft sleeve 33 is correspondingly arranged in the middle of the movable cover plate 3.

Further, the central point of activity apron 3 puts and is equipped with third through-hole 34, and it has a plurality of screw hole to distribute around the first through-hole, and during the installation, earlier place inside blade 1 nested extensible component 32 in, the third through-hole 34 is passed to the one end of nested extensible component 32 in, then cup joints pivot cover 33 in the one end of extensible component 32 to make activity apron 3 fixed with blade 1 through countersunk screw 31. The use of a removable cover plate with an inner nested telescopic assembly 32 allows for a simpler process of mounting the blade 1 to the frame 2.

Further, in order to prevent the blade 1 from corroding, an aluminum alloy 6063T5 is used for the blade 1, and preferably, fluorocarbon is coated on the surface of the aluminum alloy 6063T 5.

Further, the motor 7 adopts a push rod motor, the working voltage of the push rod motor is 220V, the frequency is 50Hz, and the waterproof grade is IP 56.

Drawings

Fig. 1 is a schematic structural view of the electric louver control system with two pushing heads of the present invention.

FIG. 2 is a right side view of the first set of electric blind control systems.

FIG. 3 is a schematic view of a first set of electric blind control systems at a 0 angle.

Fig. 4 is an enlarged view of a portion a.

Fig. 5 is a schematic view of a sleeve.

Description of the main elements

The following detailed description of the invention will be further described in conjunction with the above-identified drawings.

Detailed Description

Specific embodiment example 1:

as shown in fig. 1, it is a schematic structural diagram of the dual-pushing head electric louver control system of the present invention; FIG. 2 is a right side view of the first set of electric blind control systems; FIG. 3 is a schematic view of a first set of electric blind control systems at an angle of 0; as shown in fig. 4, which is an enlarged view of part a; fig. 5 is a schematic view of the sleeve.

A dual-pusher electric blind control system, comprising: the device comprises a first group of louvers 110, a second group of louvers 120, a frame 2, a connecting rod 4, a pushing head 5, a positioning locking piece 6 and a motor 7, wherein the frame 2 comprises an upper frame 21, a left frame 22, a lower frame 23 and a right frame 24; the method is characterized in that: the frame 2 further comprises a middle frame 25, a left shaft hole and a right shaft hole are respectively arranged on the inner side surfaces of the left frame 22 opposite to the middle frame 25, a rotating shaft sleeve 33 is respectively arranged on the blades 1 of the first group of louvers 110, and the rotating shaft sleeve 33 is movably sleeved on the inner side surfaces of the left frame 22 opposite to the middle frame 25 to form the left shaft hole and the right shaft hole; the inner side surfaces of the middle frame 25 opposite to the right frame 24 are respectively provided with a left shaft hole and a right shaft hole, the blades of the second group of louvers 120 are respectively provided with a rotating shaft sleeve 33, and the rotating shaft sleeve 33 is movably sleeved on the left shaft hole and the right shaft hole which are arranged on the inner side surfaces of the middle frame 25 opposite to the right frame 24; a motor support 251 is arranged on the middle frame 25, the lower end of the motor 7 is fixed on the motor support 251, and a threaded hole which is through from left to right is arranged at the free end of the motor shaft 71 above the motor 7; the push head 5 comprises a first push head 51 and a second push head 52, a first screw rod is arranged at the right end of the first push head 51, a second screw rod is arranged at the left end of the second push head 52, and the first screw rod and the second screw rod can be respectively inserted into left and right through threaded holes at the free end of the motor shaft and are locked through nuts, so that the motor shaft 71 is fixed with one end of the first push head 51 and one end of the second push head 52; the connecting rod 4 comprises a first connecting rod 41 and a second connecting rod 42, the other end of the first push head 51 is fixedly connected to the first connecting rod 41, and the other section of the second push head 52 is fixedly connected to the second connecting rod 42; a plurality of positioning locking pieces 6 are respectively arranged on the first connecting rod 41 and the second connecting rod 42, the positioning locking pieces 6 can enable the first connecting rod 41 to be connected with the first group of louvers 110, and the positioning locking pieces 6 enable the second connecting rod 42 to be connected with the second group of louvers 120.

The positioning locking piece 6 comprises a sleeve 61, a screw 62 and a driving plate 63, wherein the sleeve 61 is provided with a first through hole 611 penetrating up and down and a second through hole 612 perpendicular to the first through hole 611 penetrating up and down, the connecting rod 4 penetrates through the first through hole 611 penetrating up and down of the sleeve 61, and the screw 62 is screwed into the second through hole 612 to fixedly lock the connecting rod 4 in the sleeve 61.

The driving plate 63 is in a herringbone shape, the top of the herringbone driving plate 63 is connected with the sleeve 61, the bottom of the herringbone driving plate 63 is connected with the blade 1, the distance between the top of the herringbone driving plate 63 and the end part of the blade 1 is short, and the distance between the top of the herringbone driving plate 63 and the middle part of the blade 1 is long.

The drive plate 63 may be located on the upper blade 11 or the lower blade 12 of the blade 1. Preferably, the driving plate 63 is located on the lower blade 12 of the blade 1, which is beneficial to improving the supporting force.

The motor 7 is electrically connected with the PLC, and the motion of the motor can be controlled through the PLC. The motor 7 is provided with a communication unit which can be communicated with the mobile control end, so that the mobile control end can control the movement of the motor 7.

The included angle between the plane formed by the blade 1 and the frame 2 is 0-105 degrees.

The blade 1 comprises an upper blade 11, a lower blade 12, a left movable sealing cover plate and a right movable sealing cover plate 3 which are opposite, cavities are arranged inside the upper blade 11, the lower blade 12, the left movable sealing cover plate and the right movable sealing cover plate 3, and a rotating shaft sleeve 33 is correspondingly arranged in the middle of the movable sealing cover plate 3.

The central point of activity apron 3 puts and is equipped with third through-hole 34, and it has a plurality of screw hole to distribute around the first through-hole, and during the installation, earlier place inside blade 1 nested extensible assembly 32 in, the third through-hole 34 is passed to the one end of nested extensible assembly 32 in, then cup joints pivot cover 33 in the one end of extensible assembly 32 to make activity apron 3 fixed with blade 1 through countersunk screw 31. The use of a removable cover plate with an inner nested telescopic assembly 32 allows for a simpler process of mounting the blade 1 to the frame 2.

In order to prevent the blade 1 from being corroded, the blade 1 is made of aluminum alloy 6063T5, and the surface of the aluminum alloy 6063T5 is preferably coated with fluorocarbon.

The motor 7 adopts a push rod motor, the working voltage of the push rod motor is 220V, the frequency is 50Hz, and the waterproof grade is IP 56.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A dual-pusher electric blind control system, comprising: the device comprises a first group of louvers (110), a second group of louvers (120), a frame (2), a connecting rod (4), a pushing head (5), a positioning locking piece (6) and a motor (7), wherein the frame (2) comprises an upper frame (21), a left frame (22), a lower frame (23) and a right frame (24); the method is characterized in that: the frame (2) further comprises a middle frame (25), a left shaft hole and a right shaft hole are respectively formed in the inner side faces, opposite to the middle frame (25), of the left frame (22), rotating shaft sleeves (33) are respectively arranged on the blades (1) of the first group of louvers (110), and the rotating shaft sleeves (33) are movably sleeved on the inner side faces, opposite to the middle frame (25), of the left frame (22) to form the left shaft hole and the right shaft hole; the inner side surfaces of the middle frame (25) and the right frame (24) which are opposite are respectively provided with a left shaft hole and a right shaft hole, the blades of the second group of louvers (120) are respectively provided with a rotating shaft sleeve (33), and the rotating shaft sleeve (33) is movably sleeved on the left shaft hole and the right shaft hole which are arranged on the inner side surfaces of the middle frame (25) and the right frame (24) which are opposite; a motor support (251) is arranged on the middle frame (25), the lower end of the motor (7) is fixed on the motor support (251), and a left-right through threaded hole is formed in the free end of a motor shaft (71) above the motor (7); the push head (5) comprises a first push head (51) and a second push head (52), a first screw rod is arranged at the right end of the first push head (51), a second screw rod is arranged at the left end of the second push head (52), the first screw rod and the second screw rod can be respectively inserted into left and right through threaded holes at the free end of the motor shaft and are locked through nuts, so that the motor shaft (71) is fixed with one end of the first push head (51) and one end of the second push head (52); the connecting rod (4) comprises a first connecting rod (41) and a second connecting rod (42), the other end of the first pushing head (51) is fixedly connected to the first connecting rod (41), and the other section of the second pushing head (52) is fixedly connected to the second connecting rod (42); be equipped with a plurality of location latch fitting (6) respectively on first connecting rod (41) and second connecting rod (42), location latch fitting (6) can make first connecting rod (41) be connected with first group tripe (110), and location latch fitting (6) make second connecting rod (42) be connected with second group tripe (120) simultaneously.

2. The dual-ram electric blind control system of claim 1, wherein: the positioning locking piece (6) comprises a sleeve (61), a screw (62) and a driving plate (63), a first through hole (611) which is through up and down and a second through hole (612) which is perpendicular to the first through hole (611) which is through up and down are formed in the sleeve (61), the connecting rod (4) penetrates through the first through hole (611) which is through up and down of the sleeve (61), the screw (62) is screwed into the second through hole (612), and the connecting rod (4) is fixedly locked inside the sleeve (61).

3. The dual-ram electric blind control system of claim 2, wherein: the driving plate (63) is in a herringbone shape, the top of the herringbone driving plate (63) is connected with the sleeve (61), the bottom of the herringbone driving plate (63) is connected with the blade (1), the distance between the top of the herringbone driving plate (63) and the end part of the blade (1) is short, and the distance between the top of the herringbone driving plate (63) and the middle part of the blade (1) is long.

4. The dual-ram electric blind control system of claim 2, wherein: the drive plate (63) may be located on the upper blade (11) or the lower blade (12) of the blade (1).

5. The dual-ram electric blind control system of claim 2, wherein: the motor (7) is electrically connected with the PLC, and the motion of the motor can be controlled through the PLC.

6. The dual-ram electric blind control system of claim 2, wherein: the motor (7) is provided with a communication unit which can be communicated with the mobile control end, so that the mobile control end can control the motor (7) to move.

7. The dual-ram electric blind control system of claim 2, wherein: the included angle between the plane formed by the blade (1) and the frame (2) is 0-105 degrees.

8. The dual-ram electric blind control system of claim 2, wherein: the blade (1) comprises an upper blade (11), a lower blade (12) and a left movable sealing cover plate and a right movable sealing cover plate (3) which are opposite, cavities are arranged in the upper blade (11), the lower blade (12) and the left movable sealing cover plate and the right movable sealing cover plate (3), and a rotating shaft sleeve (33) is correspondingly arranged in the middle of the movable sealing cover plate (3).

9. The dual-ram electric blind control system of claim 8, wherein: the central point of activity apron (3) puts and is equipped with third through-hole (34), and it has a plurality of screw hole to distribute around the first through-hole, during the installation, places inside blade (1) nested extensible assembly (32) earlier, and third through-hole (34) are passed to the one end of nested extensible assembly (32) in, then cup joints pivot cover (33) in the one end of extensible assembly (32) to make activity apron (3) fixed with blade (1) through countersunk screw (31).

10. The dual-ram electric blind control system of claim 1, wherein: the motor (7) adopts a push rod motor, the working voltage of the push rod motor is 220V, the frequency is 50Hz, and the waterproof grade is IP 56.

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