阅读说明：本技术 一种挂钩等间距分布的窗帘展示架 (Curtain showing stand with hooks distributed at equal intervals ) 是由 周峰 李阿娟 项挺 于 2021-07-27 设计创作，主要内容包括：本发明公开了一种挂钩等间距分布的窗帘展示架,涉及窗帘展示架技术领域；包括导轨、伸缩连接架；所述导轨包括固定部、升降部、升降装置；所述伸缩连接架包括若干由两个伸缩杆相互铰接而成的呈V字形的伸缩部；所述伸缩部首尾相互铰接从而形成一个呈波浪形的伸缩结构,所述伸缩部两端均设有支撑滑座,所述伸缩部中部的上方设有悬挂滑座；将位于伸缩连接架两端的伸缩部命名为端伸缩部；所述伸缩连接架还包括第一连接机构、第二连接机构、拉长装置、调杆装置；所述伸缩部一侧设有导向套,所述悬挂滑座上固接有导向杆。本发明的有益效果是：1.安装和拆卸的时候,不需要爬梯子,安全和方便；2.第二连接机构等间距分布,悬挂的效果好。(The invention discloses a curtain showing stand with hooks distributed at equal intervals, and relates to the technical field of curtain showing stands; comprises a guide rail and a telescopic connecting frame; the guide rail comprises a fixing part, a lifting part and a lifting device; the telescopic connecting frame comprises a plurality of V-shaped telescopic parts formed by mutually hinging two telescopic rods; the telescopic parts are hinged end to form a wavy telescopic structure, supporting sliding seats are arranged at two ends of each telescopic part, and a hanging sliding seat is arranged above the middle part of each telescopic part; the telescopic parts at the two ends of the telescopic connecting frame are named as end telescopic parts; the telescopic connecting frame further comprises a first connecting mechanism, a second connecting mechanism, an elongation device and a rod adjusting device; one side of the telescopic part is provided with a guide sleeve, and a guide rod is fixedly connected to the hanging sliding seat. The invention has the beneficial effects that: 1. when the device is mounted and dismounted, a ladder does not need to be climbed, and the device is safe and convenient; 2. the second connecting mechanisms are distributed at equal intervals, and the hanging effect is good.)

1. A curtain showing stand with hooks distributed at equal intervals is characterized by comprising a guide rail and a telescopic connecting frame which is connected to the lower side of the guide rail in a sliding manner and is used for connecting a curtain;

the guide rail comprises a fixing part, a lifting part and a lifting device for moving the lifting part up and down;

the telescopic connecting frame comprises a plurality of V-shaped telescopic parts formed by mutually hinging two telescopic rods;

the telescopic parts are hinged end to form a wavy telescopic structure, supporting sliding seats are arranged at two ends of each telescopic part, a hanging sliding seat is arranged above the middle part of each telescopic part, and the supporting sliding seats and the hanging sliding seats are connected with the guide rails in a sliding manner;

the telescopic parts at the two ends of the telescopic connecting frame are named as end telescopic parts;

the telescopic connecting frame also comprises a first connecting mechanism which is positioned in the middle of the end telescopic part and is used for connecting the end part of the upper edge of the curtain, a second connecting mechanism which is positioned on the hanging sliding seat and is used for connecting the upper edge of the curtain, an elongation device for changing the length of the telescopic connecting frame, and a rod adjusting device for changing the distance between the curtain and the second connecting mechanism by changing the length of the telescopic connecting frame;

one side of the telescopic part is provided with a guide sleeve, a guide rod is fixedly connected to the hanging slide seat, and the guide rod penetrates through the guide sleeve.

2. The window curtain display stand with the evenly-spaced hooks as claimed in claim 1, wherein the telescopic rod comprises a first rod and a second rod slidably connected with the first rod;

the upper end of the first rod is hinged with the supporting sliding seat, and the lower end of the second rod is hinged with the adjacent second rod;

the rod adjusting device comprises adjusting cylinders positioned on the telescopic rods, liquid positioned in the adjusting cylinders and pipes used for connecting the adjacent adjusting cylinders;

the pipes are used for liquid to flow between adjacent adjusting cylinders so as to enable the adjusting cylinders to be synchronously lengthened or shortened;

the adjusting cylinder comprises a cylinder body fixedly connected with the first rod, a piston connected in the cylinder body in a sliding manner, a piston rod connected with the piston, and a first return spring for returning the adjusting cylinder;

one end of the piston rod, which is far away from the piston, is fixedly connected with the second rod, and the piston of the adjusting cylinder, which is positioned at one end of the telescopic connecting frame, is also connected with a pull rod;

the rod adjusting device further comprises a pulling mechanism for pulling the pull rod.

3. The window curtain display stand with the evenly-spaced hooks as claimed in claim 2, wherein the elongation device comprises a fixing mechanism at one end of the telescopic connection frame, and a driving mechanism at the other end of the telescopic connection frame;

the fixing mechanism is used for fixing the corresponding end of the telescopic connecting frame on the guide rail;

the driving mechanism is used for driving the corresponding end of the telescopic connecting frame to move towards one side far away from the fixing mechanism, so that the telescopic connecting frame is lengthened.

4. The window curtain display stand with the hooks being distributed at equal intervals as claimed in claim 3, wherein a driving rack is fixedly connected to the guide rail;

the driving mechanism comprises a transmission gear rotationally connected with the corresponding supporting sliding seat, a driving gear rotationally connected in the supporting sliding seat, a transmission shaft fixedly connected with the transmission gear, a sliding rack slidably connected with the supporting sliding seat, a damping gear sleeved on the transmission shaft, damping oil positioned between the damping gear and the transmission shaft, a second reset spring used for resetting the sliding rack, a proximity switch positioned at one end of the sliding rack, a driving shaft penetrating through the driving gear, the damping oil positioned between the driving shaft and the driving gear, and a driving machine used for rotating the driving shaft;

the driving rack is matched with the transmission gear, the transmission gear is matched with the driving gear, and the damping gear is matched with the sliding rack;

an inserting groove is formed in an output shaft of the driving machine, one end, far away from the first rod, of the driving shaft is inserted into the inserting groove, a buffer spring is arranged between the bottom of the inserting groove and the driving shaft, the cross section of the inserting groove is square, the end portion of the driving shaft is matched with the inserting groove, a cavity is arranged in the corresponding supporting sliding seat, one end, far away from the driving machine, of the driving shaft is located in the cavity and fixedly connected with a driving plate, and a pulling rack is fixedly connected to one side of the pull rod;

the pulling mechanism comprises a pulling gear meshed with the pulling rack, a pulling rotating shaft penetrating through the pulling gear, damping oil positioned between the pulling gear and the pulling rotating shaft, a pulling turntable fixedly connected to one end of the pulling rotating shaft, a clamping block positioned on one side of the driving plate, a clamping groove positioned on the pulling turntable and used for being matched with the clamping block, and a driving cylinder used for moving the driving machine to move towards the pulling rotating shaft;

the upper end of the first rod corresponding to the driving mechanism is hinged to the supporting sliding seat through the pulling rotating shaft, the pulling rotating shaft is coaxial with the driving shaft, and the pulling rotary disc is located in the cavity.

5. The curtain display stand with the hooks being distributed at equal intervals according to claim 4, wherein a support rod is arranged at the lower end of the telescopic part, the second rod is hinged with the adjacent second rod through the support rod, the guide sleeve is fixedly connected to one side of the support rod, and a first limiting plate is fixedly connected to one end, away from the second rod, of the support rod;

the first connecting mechanism comprises a driven wheel rotatably connected to the corresponding supporting rod, a bulge fixedly connected with the driven wheel and a driven hook fixedly connected to one side of the driven wheel;

the driven wheel is positioned at one end of the supporting rod, which is far away from the second rod, and the upper end of the first limiting plate is fixedly connected with the supporting rod;

the driven hook comprises a driven rotating rod and a driven felting needle, wherein one end of the driven rotating rod is fixedly connected with the driven hook, and the driven felting needle is positioned at one end of the driven rotating rod, which is far away from the driven wheel and is used for hooking the curtain;

a groove is formed in the lower side of the hanging sliding seat, and the supporting rod corresponds to the groove in position;

the second connecting mechanism comprises a driving wheel rotatably connected to one side inside the groove, a servo motor used for rotating the driving wheel, a driving hook fixedly connected to one side of the driving wheel, a vertical sliding groove located on one side of the driving wheel and used for being matched with the protrusion, and a second limiting plate fixedly connected to the lower side of the hanging sliding seat;

the driving hook comprises a driving rotating rod and a driving felting needle, wherein one end of the driving rotating rod is fixedly connected with the driving wheel, and the driving felting needle is fixedly connected with one end of the driving rotating rod, which is far away from the driving wheel, and is used for hooking the curtain;

when driven bull stick was located from the driving wheel downside, driven bull stick and driven hook all were located one side that the second pole was kept away from to first limiting plate, driven bull stick lower extreme is to keeping away from second pole lopsidedness, the one end orientation that driven bull stick was kept away from to driven felting needle is kept away from second pole one side and is extended, the drive bull stick is located the drive wheel upside, drive bull stick upper end is to second pole lopsidedness, the drive felting needle is kept away from the one end of drive bull stick and is extended to keeping away from second pole one side, the one end that the drive felting needle was kept away from the drive bull stick is located one side that the second pole was kept away from to the second limiting plate.

6. The window curtain display stand with the equally-spaced hooks as claimed in claim 5, wherein the driven pricker and the driving pricker are both circular arcs, the center of the driven pricker coincides with the rotation center of the driven wheel, the center of the driving pricker coincides with the rotation center of the driving wheel, the center of the driven pricker is 30-40 degrees, and the center of the driving pricker is 160-170 degrees.

7. The window curtain display stand with the evenly-spaced hooks as claimed in claim 4, wherein the fixing mechanism comprises a fixed gear on the corresponding support slide, a self-locking motor for rotating the fixed gear;

the fixed gear is matched with the driving rack.

8. The window covering display rack with evenly spaced hooks as claimed in claim 1, wherein the telescopic rods are equal in length.

9. The window curtain display stand with equally spaced hooks as claimed in claim 1, wherein the lifting means comprises a winding machine on the lifting part, and a pulling rope connected to the winding machine.

10. The window curtain display stand with the evenly-spaced hooks as claimed in claim 4, wherein the fixing portion comprises a supporting slide rail for the supporting slide to slide, and a hanging slide rail for the hanging slide to slide;

the lifting part comprises a supporting slide rail and a hanging slide rail, wherein the supporting slide rail is used for the supporting slide to slide in a matching way, and the hanging slide rail is used for the hanging slide to slide in a matching way;

the driving rack is fixedly connected to the supporting slide rail.

Technical Field

The invention belongs to the technical field of curtain showing stands, and particularly relates to a curtain showing stand with hooks distributed at equal intervals.

Background

In an exhibition hall or an exhibition, a curtain needs to be hung on a display rack.

The existing display rack needs to be climbed by a ladder to be touched when a curtain is installed and disassembled, so that the display rack is unsafe and low in efficiency.

Disclosure of Invention

The invention aims to overcome the defects in the prior art, and provides a curtain display rack with hooks distributed at equal intervals, which is convenient and safe.

In order to achieve the purpose, the invention adopts the following technical scheme:

a curtain showing stand with hooks distributed at equal intervals comprises a guide rail and a telescopic connecting frame which is connected to the lower side of the guide rail in a sliding manner and is used for connecting a curtain; the guide rail comprises a fixing part, a lifting part and a lifting device for moving the lifting part up and down; the telescopic connecting frame comprises a plurality of V-shaped telescopic parts formed by mutually hinging two telescopic rods; the telescopic parts are hinged end to form a wavy telescopic structure, supporting sliding seats are arranged at two ends of each telescopic part, a hanging sliding seat is arranged above the middle part of each telescopic part, and the supporting sliding seats and the hanging sliding seats are connected with the guide rails in a sliding manner; the telescopic parts at the two ends of the telescopic connecting frame are named as end telescopic parts; the telescopic connecting frame also comprises a first connecting mechanism which is positioned in the middle of the end telescopic part and is used for connecting the end part of the upper edge of the curtain, a second connecting mechanism which is positioned on the hanging sliding seat and is used for connecting the upper edge of the curtain, an elongation device for changing the length of the telescopic connecting frame, and a rod adjusting device for changing the distance between the curtain and the second connecting mechanism by changing the length of the telescopic connecting frame; one side of the telescopic part is provided with a guide sleeve, a guide rod is fixedly connected to the hanging slide seat, and the guide rod penetrates through the guide sleeve.

Preferably, the telescopic rod comprises a first rod and a second rod which is connected with the first rod in a sliding way; the upper end of the first rod is hinged with the supporting sliding seat, and the lower end of the second rod is hinged with the adjacent second rod; the rod adjusting device comprises adjusting cylinders positioned on the telescopic rods, liquid positioned in the adjusting cylinders and pipes used for connecting the adjacent adjusting cylinders; the pipes are used for liquid to flow between adjacent adjusting cylinders so as to enable the adjusting cylinders to be synchronously lengthened or shortened; the adjusting cylinder comprises a cylinder body fixedly connected with the first rod, a piston connected in the cylinder body in a sliding manner, a piston rod connected with the piston, and a first return spring for returning the adjusting cylinder; one end of the piston rod, which is far away from the piston, is fixedly connected with the second rod, and the piston of the adjusting cylinder, which is positioned at one end of the telescopic connecting frame, is also connected with a pull rod; the rod adjusting device further comprises a pulling mechanism for pulling the pull rod.

Preferably, the elongation device comprises a fixing mechanism positioned at one end of the telescopic connecting frame and a driving mechanism positioned at the other end of the telescopic connecting frame; the fixing mechanism is used for fixing the corresponding end of the telescopic connecting frame on the guide rail; the driving mechanism is used for driving the corresponding end of the telescopic connecting frame to move towards one side far away from the fixing mechanism, so that the telescopic connecting frame is lengthened.

Preferably, the guide rail is fixedly connected with a driving rack; the driving mechanism comprises a transmission gear rotationally connected with the corresponding supporting sliding seat, a driving gear rotationally connected in the supporting sliding seat, a transmission shaft fixedly connected with the transmission gear, a sliding rack slidably connected with the supporting sliding seat, a damping gear sleeved on the transmission shaft, damping oil positioned between the damping gear and the transmission shaft, a second reset spring used for resetting the sliding rack, a proximity switch positioned at one end of the sliding rack, a driving shaft penetrating through the driving gear, the damping oil positioned between the driving shaft and the driving gear, and a driving machine used for rotating the driving shaft; the driving rack is matched with the transmission gear, the transmission gear is matched with the driving gear, and the damping gear is matched with the sliding rack; an inserting groove is formed in an output shaft of the driving machine, one end, far away from the first rod, of the driving shaft is inserted into the inserting groove, a buffer spring is arranged between the bottom of the inserting groove and the driving shaft, the cross section of the inserting groove is square, the end portion of the driving shaft is matched with the inserting groove, a cavity is arranged in the corresponding supporting sliding seat, one end, far away from the driving machine, of the driving shaft is located in the cavity and fixedly connected with a driving plate, and a pulling rack is fixedly connected to one side of the pull rod; the pulling mechanism comprises a pulling gear meshed with the pulling rack, a pulling rotating shaft penetrating through the pulling gear, damping oil positioned between the pulling gear and the pulling rotating shaft, a pulling turntable fixedly connected to one end of the pulling rotating shaft, a clamping block positioned on one side of the driving plate, a clamping groove positioned on the pulling turntable and used for being matched with the clamping block, and a driving cylinder used for moving the driving machine to move towards the pulling rotating shaft; the upper end of the first rod corresponding to the driving mechanism is hinged to the supporting sliding seat through the pulling rotating shaft, the pulling rotating shaft is coaxial with the driving shaft, and the pulling rotary disc is located in the cavity.

Preferably, the lower end of the telescopic part is provided with a support rod, the second rod is hinged with the adjacent second rod through the support rod, the guide sleeve is fixedly connected to one side of the support rod, and one end of the support rod, far away from the second rod, is fixedly connected with a first limiting plate; the first connecting mechanism comprises a driven wheel rotatably connected to the corresponding supporting rod, a bulge fixedly connected with the driven wheel and a driven hook fixedly connected to one side of the driven wheel; the driven wheel is positioned at one end of the supporting rod, which is far away from the second rod, and the upper end of the first limiting plate is fixedly connected with the supporting rod; the driven hook comprises a driven rotating rod and a driven felting needle, wherein one end of the driven rotating rod is fixedly connected with the driven hook, and the driven felting needle is positioned at one end of the driven rotating rod, which is far away from the driven wheel and is used for hooking the curtain; a groove is formed in the lower side of the hanging sliding seat, and the supporting rod corresponds to the groove in position; the second connecting mechanism comprises a driving wheel rotatably connected to one side inside the groove, a servo motor used for rotating the driving wheel, a driving hook fixedly connected to one side of the driving wheel, a vertical sliding groove located on one side of the driving wheel and used for being matched with the protrusion, and a second limiting plate fixedly connected to the lower side of the hanging sliding seat; the driving hook comprises a driving rotating rod and a driving felting needle, wherein one end of the driving rotating rod is fixedly connected with the driving wheel, and the driving felting needle is fixedly connected with one end of the driving rotating rod, which is far away from the driving wheel, and is used for hooking the curtain; when driven bull stick was located from the driving wheel downside, driven bull stick and driven hook all were located one side that the second pole was kept away from to first limiting plate, driven bull stick lower extreme is to keeping away from second pole lopsidedness, the one end orientation that driven bull stick was kept away from to driven felting needle is kept away from second pole one side and is extended, the drive bull stick is located the drive wheel upside, drive bull stick upper end is to second pole lopsidedness, the drive felting needle is kept away from the one end of drive bull stick and is extended to keeping away from second pole one side, the one end that the drive felting needle was kept away from the drive bull stick is located one side that the second pole was kept away from to the second limiting plate.

Preferably, the driven lancet needle and the driving lancet needle are both arc-shaped, the center of circle of the driven lancet needle coincides with the rotation center of the driven wheel, the center of circle of the driving lancet needle coincides with the rotation center of the driving wheel, the central angle of the driven lancet needle is 30-40 degrees, and the central angle of the driving lancet needle is 160-170 degrees.

Preferably, the fixing mechanism comprises a fixed gear on the corresponding support slide, and a self-locking motor for rotating the fixed gear; the fixed gear is matched with the driving rack.

Preferably, the telescopic rods are of equal length.

Preferably, the lifting device includes a hoist disposed on the lifting unit and a rope connected to the hoist.

Preferably, the fixed part comprises a supporting slide rail for the supporting slide to slide in a matching way and a hanging slide rail for the hanging slide to slide in a matching way; the lifting part comprises a supporting slide rail and a hanging slide rail, wherein the supporting slide rail is used for the supporting slide to slide in a matching way, and the hanging slide rail is used for the hanging slide to slide in a matching way; the driving rack is fixedly connected to the supporting slide rail.

The invention has the beneficial effects that: 1. when the device is mounted and dismounted, a ladder does not need to be climbed, and the device is safe and convenient; 2. the second connecting mechanisms are distributed at equal intervals, and the hanging effect is good.

Drawings

FIG. 1 is a schematic diagram of an embodiment;

FIG. 2 is an enlarged view of FIG. 1 at A;

FIG. 3 is an enlarged view of FIG. 1 at B;

FIG. 4 is a schematic view of a first connection mechanism and a second connection mechanism;

FIG. 5 is an enlarged view at C of FIG. 4;

FIG. 6 is a schematic view of the connection of the two ends of the window covering to the first connecting mechanism;

FIG. 7 is a schematic view of the window covering being penetrated by the driven lancet;

FIG. 8 is a schematic view of the fixing mechanism fixing one end of the telescopic link to the guide rail;

FIG. 9 is a schematic view of the window covering being straightened;

FIG. 10 is a schematic view of the sliding rack moving to a position near the switch after the driven shaft rotates;

FIG. 11 is a schematic view showing the sliding rack and the proximity switch being disengaged after the driven shaft stops rotating and then the shaft is pulled to rotate to drive the pull rod to move;

FIG. 12 is a schematic view of the first linkage moving upward toward the second linkage after the extension rod is shortened;

FIG. 13 is a schematic view of the projection after it has moved to the upper end of the vertical chute;

FIG. 14 is a schematic view of the servo motor rotated 180 degrees;

FIG. 15 is a schematic view of the first linkage after downward movement;

fig. 16 is a schematic view of the extension rod when extended.

In the figure: the curtain 2, the fixed part 3, the lifting part 4, the supporting slide 5, the hanging slide 6, the telescopic rod 7, the supporting slide 8, the hanging slide 9, the guide sleeve 10, the guide rod 11, the first rod 12, the second rod 13, the pipe 14, the cylinder 15, the liquid 16, the piston 17, the piston rod 18, the first return spring 19, the pull rod 20, the driving rack 21, the transmission gear 22, the driving gear 23, the transmission shaft 24, the sliding rack 25, the second return spring 26, the proximity switch 27, the damping gear 28, the driving shaft 29, the driving machine 30, the slot 31, the buffer spring 32, the driving plate 33, the pulling gear 34, the pulling rotating shaft 35, the pulling turntable 36, the clamping block 37, the driving cylinder 38, the support rod 39, the driven wheel 40, the protrusion 41, the driven hook 42, the driven rotating rod 43, the driven puncturing needle 44, the first limiting plate 45, the groove 46, the driving wheel 47, the driving rotating rod 48 and the driving puncturing needle 49, The vertical sliding chute 50, the second limit plate 51, the pull rope 54, the fixed gear 55 and the limit bulge 57.

Detailed Description

The invention is explained in further detail below with reference to the figures and the detailed description:

example (b):

referring to fig. 1 to 16, a curtain display stand with hooks distributed at equal intervals comprises a guide rail and a telescopic connecting frame which is connected to the lower side of the guide rail in a sliding manner and is used for connecting a curtain 2;

the guide rail comprises a fixed part 3, a lifting part 4 and a lifting device for moving the lifting part 4 up and down; the lifting device includes a hoist disposed on the lifting unit 4 and a rope 54 connected to the hoist.

The telescopic connecting frame comprises a plurality of V-shaped telescopic parts formed by mutually hinging two telescopic rods 7; the telescopic rods 7 are equal in length.

The telescopic parts are hinged end to form a wavy telescopic structure, supporting sliding seats 5 are arranged at two ends of each telescopic part, a hanging sliding seat 6 is arranged above the middle part of each telescopic part, and the supporting sliding seats 5 and the hanging sliding seats 6 are connected with the guide rails in a sliding manner;

the telescopic parts at the two ends of the telescopic connecting frame are named as end telescopic parts;

the telescopic connecting frame further comprises a first connecting mechanism which is positioned in the middle of the end telescopic part and is used for connecting the end part of the upper edge of the curtain 2, a second connecting mechanism which is positioned on the hanging sliding seat 6 and is used for connecting the upper edge of the curtain 2, an elongation device for changing the length of the telescopic connecting frame, and a rod adjusting device for changing the distance between the curtain 2 and the second connecting mechanism by changing the length of the telescopic rod 7;

one side of the telescopic part is provided with a guide sleeve 10, a guide rod 11 is fixedly connected to the hanging slide seat 6, and the guide rod 11 penetrates through the guide sleeve 10.

The telescopic rod 7 comprises a first rod 12 and a second rod 13 which is connected with the first rod 12 in a sliding way;

the upper end of the first rod 12 is hinged with the supporting slide 5, and the lower end of the second rod 13 is hinged with the adjacent second rod 13;

the rod adjusting device comprises an adjusting cylinder positioned on the telescopic rod 7, liquid 16 positioned in the adjusting cylinder, and a pipe 14 for connecting adjacent adjusting cylinders;

the pipe 14 is used for liquid 16 to flow between adjacent adjusting cylinders so as to enable the adjusting cylinders to be synchronously lengthened or shortened;

the adjusting cylinder comprises a cylinder body 15 fixedly connected with the first rod 12, a piston 17 connected in the cylinder body 15 in a sliding manner, a piston rod 18 connected with the piston 17, and a first return spring 19 for returning the adjusting cylinder;

one end of the piston rod 18, which is far away from the piston 17, is fixedly connected with the second rod 13, and the piston 17 of the adjusting cylinder, which is positioned at one end of the telescopic connecting frame, is also connected with a pull rod 20;

the lever arrangement further comprises a pulling mechanism for pulling the pull rod 20.

The lengthening device comprises a fixing mechanism positioned at one end of the telescopic connecting frame and a driving mechanism positioned at the other end of the telescopic connecting frame;

the fixing mechanism is used for fixing the corresponding end of the telescopic connecting frame on the guide rail;

the driving mechanism is used for driving the corresponding end of the telescopic connecting frame to move towards one side far away from the fixing mechanism, so that the telescopic connecting frame is lengthened.

A driving rack 21 is fixedly connected on the guide rail;

the driving mechanism comprises a transmission gear 22 rotationally connected with the corresponding support sliding seat 5, a driving gear 23 rotationally connected in the support sliding seat 5, a transmission shaft 24 fixedly connected with the transmission gear 22, a sliding rack 25 slidably connected with the support sliding seat 5, a damping gear 28 sleeved on the transmission shaft 24, damping oil positioned between the damping gear 28 and the transmission shaft 24, a second return spring 26 for returning the sliding rack 25, an approach switch 27 positioned at one end of the sliding rack 25, a driving shaft 29 penetrating through the driving gear 23, damping oil positioned between the driving shaft 29 and the driving gear 23, and a driving machine 30 for rotating the driving shaft 29;

the driving rack 21 is matched with a transmission gear 22, the transmission gear 22 is matched with a driving gear 23, and the damping gear 28 is matched with a sliding rack 25;

a slot 31 is arranged on an output shaft of the driving machine 30, one end of the driving shaft 29, which is far away from the first rod 12, is inserted into the slot 31, a buffer spring 32 is arranged between the bottom of the slot 31 and the driving shaft 29, the cross section of the slot 31 is square, the end part of the driving shaft 29 is matched with the slot 31, a cavity is arranged in the corresponding supporting slide seat 5, one end of the driving shaft 29, which is far away from the driving machine 30, is positioned in the cavity and fixedly connected with a driving plate 33, and one side of the pull rod 20 is fixedly connected with a pulling rack;

the pulling mechanism comprises a pulling gear 34 engaged with the pulling rack, a pulling rotating shaft 35 penetrating through the pulling gear 34, damping oil positioned between the pulling gear 34 and the pulling rotating shaft 35, a pulling turntable 36 fixedly connected to one end of the pulling rotating shaft 35, a clamping block 37 positioned on one side of the driving plate 33, a clamping groove positioned on the pulling turntable 36 and used for being matched with the clamping block 37, and a driving cylinder 38 used for moving the driving machine 30 to move towards the pulling rotating shaft 35;

the upper end of the first rod 12 corresponding to the driving mechanism is hinged with the supporting slide 5 through the pulling rotating shaft 35, the pulling rotating shaft 35 is coaxial with the driving shaft 29, and the pulling rotary disc 36 is positioned in the cavity.

A support rod 39 is arranged at the lower end of the telescopic part, the second rod 13 is hinged with the adjacent second rod 13 through the support rod 39, the guide sleeve 10 is fixedly connected to one side of the support rod 39, and a first limiting plate 45 is fixedly connected to one end, far away from the second rod 13, of the support rod 39;

the first connecting mechanism comprises a driven wheel 40 which is rotatably connected with the corresponding supporting rod 39, a bulge 41 fixedly connected with the driven wheel 40 and a driven hook 42 fixedly connected with one side of the driven wheel 40;

the driven wheel 40 is positioned at one end of the supporting rod 39 far away from the second rod 13, and the upper end of the first limiting plate 45 is fixedly connected with the supporting rod 39;

the driven hook 42 comprises a driven rotating rod 43 with one end fixedly connected with the driven hook 42 and a driven felting needle 44 which is positioned at one end of the driven rotating rod 43 far away from the driven wheel 40 and is used for hooking the curtain 2;

a groove 46 is formed in the lower side of the hanging sliding seat 6, and the supporting rod 39 corresponds to the groove 46 in position;

the second connecting mechanism comprises a driving wheel 47 rotatably connected to one side inside the groove 46, a servo motor for rotating the driving wheel 47, a driving hook fixedly connected to one side of the driving wheel 47, a vertical sliding groove 50 located at one side of the driving wheel 47 and used for being matched with the protrusion 41, and a second limiting plate 51 fixedly connected to the lower side of the hanging sliding seat 6;

the driving hook comprises a driving rotating rod 48 and a driving felting needle 49, wherein one end of the driving rotating rod 48 is fixedly connected with the driving wheel 47, and one end of the driving rotating rod 48, which is far away from the driving wheel 47, is fixedly connected with the driving felting needle for hooking the curtain 2;

when driven bull stick 43 is located driven wheel 40 downside, driven bull stick 43 and driven hook 42 all are located one side that second pole 13 was kept away from to first limiting plate 45, driven bull stick 43 lower extreme is to keeping away from second pole 13 lopsidedness, driven felting needle 44 keeps away from the one end orientation that driven bull stick 43 extends in one side of keeping away from second pole 13, drive bull stick 48 is located the drive wheel 47 upside, drive bull stick 48 upper end is to second pole 13 lopsidedness, the one end that drive bull stick 48 was kept away from to drive felting needle 49 is to keeping away from second pole 13 one side extension, the one end that drive bull stick 49 kept away from drive bull stick 48 is located one side that second limiting plate 51 kept away from second pole 13.

The driven lancet 44 and the driving lancet 49 are both circular arcs, the center of circle of the driven lancet 44 coincides with the center of rotation of the driven wheel 40, the center of circle of the driving lancet 49 coincides with the center of rotation of the driving wheel 47, the central angle of the driven lancet 44 is 30-40 degrees, and the central angle of the driving lancet 49 is 160-170 degrees.

The fixing mechanism comprises a fixed gear 55 positioned on the corresponding supporting slide 5 and a self-locking motor for rotating the fixed gear 55;

the fixed gear 55 is engaged with the driving rack 21.

The fixed part 3 comprises a supporting slide rail 8 for the supporting slide carriage 5 to slide in a matching way and a hanging slide rail 9 for the hanging slide carriage 6 to slide in a matching way;

the lifting part 4 comprises a supporting slide rail 8 for the supporting slide carriage 5 to slide in a matching way and a hanging slide rail 9 for the hanging slide carriage 6 to slide in a matching way;

the driving rack 21 is fixedly connected to the supporting slide rail 8.

The guide sleeve 10 is vertically arranged, and the guide sleeve 10 is connected with the guide rod 11 in a sliding mode.

Principle of embodiment:

initially, referring to fig. 4, the driven rotating rod 43 is located at the lower side of the driven wheel 40, the driven rotating rod 43 and the driven hook 42 are both located at the side of the first limit plate 45 away from the second rod 13, the lower end of the driven rotating rod 43 is inclined towards the side away from the second rod 13, the end of the driven lancet 44 away from the driven rotating rod 43 extends towards the side away from the second rod 13, the driving rotating rod 48 is located at the upper side of the driving wheel 47, the upper end of the driving rotating rod 48 is inclined towards the side of the second rod 13, the end of the driving lancet 49 away from the driving rotating rod 48 extends towards the side away from the second rod 13, and the end of the driving lancet 49 away from the driving rotating rod 48 is located at the side of the second limit plate 51 away from the second rod 13; the driven wheel 40 is located below the driving wheel 47; referring to fig. 1, a piston 17 is located at the lower end of the cylinder 15.

The fixed part 3 is fixed on the ceiling, and one end of the pull rope 54 far away from the winch is connected on the ceiling.

When the curtain 2 needs to be installed, the self-locking motor operates, so that one end of the telescopic connecting frame is located at one end of the lifting part 4, the self-locking motor is locked in a self-locking mode, then the driving machine 30 operates, the driving shaft 29 rotates, the transmission gear 22 is driven to move under the action of damping oil, the driving mechanism and the fixing mechanism are close under the action of the driving rack 21, the telescopic connecting frame contracts, finally, the two ends of the telescopic connecting frame are located on the lifting part 4, then the lifting device operates, the lifting part 4 descends, the two ends of the upper edge of the curtain 2 are respectively hooked by the driven hooks 42, and at the moment, the curtain 2 is loose, and the curtain 2 is shown in fig. 6 and fig. 7;

the lifting device operates, the lifting part 4 rises to the ceiling, then the self-locking motor operates, and the fixing mechanism moves to the fixing part 3 and then is locked in a self-locking mode, and the lifting device is shown in fig. 8; then the driving machine 30 is operated, the driving mechanism moves to the side far away from the fixing mechanism, the telescopic link is extended, and at this time, the curtain 2 is extended, (it should be noted that, in the process of extending the telescopic link, the length of the telescopic rod 7 is unchanged, the telescopic rod 7 rotates relatively, and under the action of the guide sleeve 10 and the guide rod 11, the hanging slide seat 6 always corresponds to the position of the middle part of the telescopic part, that is, the first limit plate 45 is positioned below the driving hook), (in addition, in the process of rotating the transmission gear 22, the transmission shaft 24 rotates, under the action of the damping oil, the damping gear 28 rotates, and drives the sliding rack 25 to move upwards to the proximity switch 27, see fig. 10; the second return spring 26 is extended), and after the curtain 2 is straightened, see fig. 9; the driving mechanism stops moving, the transmission gear 22 and the transmission shaft 24 stop rotating, the driving shaft 29 rotates in place, the sliding rack 25 moves downwards under the action of the second return spring 26, and the sliding rack 25 is disengaged from the proximity switch 27, see fig. 11; the proximity switch 27 sends a signal to the drive cylinder 38, which moves the drive machine, which moves in the direction of the second rod, under the action of the buffer spring 32, the driving plate 33 moves towards the pulling turntable 36, the clamping block 37 is matched with the clamping groove, the rotating shaft 35 is pulled to rotate, under the action of the damping oil, the pulling gear 34 rotates, under the action of the pulling rack, the pull rod 20 drives the piston 17 to move, since the liquid 16 is supplied to the cylinders 15, and the adjacent cylinders 15 are connected to each other by the pipe 14, so that when the pulling mechanism moves the piston 17 of one of the adjusting cylinders, pulling and moving the whole body, the liquid 16 will flow through the pipe to the adjacent cylinder 15, with the end effect that, when the pulling mechanism pulls one of the pistons, other pistons move for the same distance, so that the length of each telescopic rod 7 is always equal; here, each telescopic rod 7 is shortened by the pulling mechanism, see fig. 12; the supporting rod 39 approaches the groove 46, a limiting protrusion 57 for limiting the supporting rod 39 is arranged on the inner wall of the groove 46, when the supporting rod 39 abuts against the limiting protrusion 57 (at this time, the telescopic rod 7 cannot be continuously shortened, the rotating shaft 35 is pulled to rotate in place, and the pulling gear 34 cannot be continuously rotated), the driven wheel 40 corresponds to the driving wheel 47 in position, the protrusion 41 is located at the upper end of the vertical chute 50, and the upper edge of the curtain 2 is located between the first limiting plate 45 and the second limiting plate 51 (the limiting plate functions to keep the stability of the curtain 2 when the needle passes through the curtain 2), see fig. 13; the servo motor drives the driving wheel 47 to rotate 180 degrees, the driven wheel 40 also rotates 180 degrees under the action of the protrusion 41 and the vertical chute 50, in the process of the rotation, the driving needle 49 slowly moves towards the curtain 2, the driven needle 44 slowly comes out of the curtain 2, the driving needle 49 penetrates through the upper edge of the curtain 2, then the driven needle 44 is separated from the curtain 2, and after the 180-degree rotation is finished, the protrusion 41 is positioned at the lower end of the vertical chute 50, see fig. 14; in the process, the driver always keeps the running state, so that the curtain 2 keeps the tense state and the pricker can conveniently penetrate through the curtain;

then the driving machine stops running, under the action of the first return spring 19, the telescopic rod 7 slowly recovers the length, the supporting rod 39 slowly descends, and the driven puncture needle 44 and the driving puncture needle 49 are far away; see fig. 15 and 16; the curtain 2 can be freely dragged after the installation is finished, and the hanging sliding seats 6 are uniformly distributed because the telescopic rods 7 are the same in length, so that the curtain 2 has a good display effect.

When curtain 2 needs to be unloaded, the fixing mechanism is fixed at one end of the telescopic connecting frame, then the driving mechanism runs, the telescopic connecting frame extends, after curtain 2 is tightened, and in the same way as above, the telescopic rod 7 can be shortened, then when the driven wheel 40 rises to the position of the driving wheel 47, curtain 2 is located between the first limiting plate 45 and the second limiting plate 51, the protrusion 41 is located at the lower end of the vertical chute 50, the servo motor rotates 180 degrees, in the process, the driven puncture needle 44 firstly penetrates through curtain 2, then the driving puncture needle 49 leaves curtain 2, then the self-locking motor runs to one end of the lifting part 2 and then self-locks, the driving machine rotates reversely, the driving mechanism stops after moving to the other end of the lifting part 4, so far, the two ends of the telescopic connecting frame are located on the lifting part 4, the lifting device runs, the lifting part 4 descends, and the curtain 2 can be replaced.

The driven wheel 40 has a large rotation resistance, so that when the driven wheel 40 is separated from the driving wheel 47, the driven wheel 40 cannot rotate freely, and the protrusion 41 and the vertical sliding groove 50 can be smoothly matched.