Disclosure of Invention
The parallel and level degree adjustment degree of difficulty to building curtain is great after accomplishing for solving the installation, needs a pair of every curtain board to adjust in proper order, and the technical problem who wastes time and energy provides one kind and can carry out the building curtain that the parallel and level was adjusted.
In order to achieve the above purposes, the technical scheme adopted by the invention is as follows:
the utility model provides a can carry out building curtain that parallel and level was adjusted which characterized in that includes:
the curtain wall assembly comprises a plurality of curtain wall frames and curtain wall plates, the curtain wall assemblies are positioned on a building wall body, the curtain wall frames are used for fixing the curtain wall plates, and the curtain wall frames have a telescopic function;
the lifting mechanism is positioned on the building wall body and used for driving the curtain wall frame, so that the curtain wall frame can fix curtain wall plates with different sizes in a telescopic mode;
an adjustment mechanism, the adjustment mechanism comprising:
the shearing fork assembly is positioned on the lifting mechanism and used for adjusting the positions of all the curtain wall assemblies at the same time so that all the curtain wall assemblies are kept equidistant;
the driving assembly is positioned on the lifting mechanism and used for driving the scissor assemblies, so that the scissor assemblies can drive the curtain wall assemblies simultaneously;
the rotating assembly is positioned on the lifting mechanism and used for adjusting the rotating directions of all the curtain wall assemblies at the same time, so that all the curtain wall assemblies are kept flush.
Preferably, the lifting mechanism comprises a first lifting assembly, a second lifting assembly, two second guide pillars and two third guide pillars, the first lifting assembly and the second lifting assembly are respectively positioned on the upright columns at two sides of the building wall, the first lifting assembly and the second lifting assembly are completely consistent in structure, the first lifting assembly comprises a first fixing frame, a second fixing frame, a first sliding block, a first rotary driver, a first screw rod and a first guide pillar, the first fixing frame is horizontally positioned at the top end of the upright column at one side of the building wall, the second fixing frame is horizontally positioned at the bottom end of the upright column at one side of the building wall, the first sliding block is horizontally positioned between the first fixing frame and the second fixing frame, the first screw rod and the first guide pillar vertically penetrate through the first sliding block to be connected with the first fixing frame and the second fixing frame, the first screw rod and the first guide pillar are parallel to each other, the first sliding block is in threaded fit with the first screw rod, the first rotary driver is positioned at the top end of the first fixing frame, and an output shaft of the first rotary driver penetrates through the first fixing frame and is fixedly connected with the first screw rod; two second guide pillars which are parallel to each other are arranged between the first sliding blocks of the first lifting assembly and the second lifting assembly, two third guide pillars which are parallel to each other are arranged between the second fixing frames of the first lifting assembly and the second lifting assembly, and the curtain wall frame is sleeved on the two second guide pillars and the two third guide pillars.
Preferably, the top center of the first sliding block is provided with a mounting shaft, the side wall of the first sliding block is provided with a second through hole, the driving components are matched with each other, and a third through hole is formed below the second through hole and matched with the rotating component.
Preferably, the number of the curtain wall frames corresponds to the number of the curtain wall boards one by one, each curtain wall frame comprises an upper frame, a lower frame, a first rotating shaft and a third sliding block, the second sliding block is sleeved on the two second guide pillars of the lifting mechanism, the first rotating shaft is arranged at the bottom of the second sliding block, the third sliding block is sleeved on the two third guide pillars of the lifting mechanism, a second rotating shaft is arranged at the top of the third sliding block, the upper frame is sleeved on the first rotating shaft of the second sliding block, the lower frame is sleeved on the second rotating shaft of the third sliding block, an insertion groove is arranged at the bottom of the upper frame, an insertion plate is arranged at the top of the lower frame, the upper frame and the lower frame are in insertion fit with the insertion plate through the insertion groove, and the inner walls of the upper frame and the lower frame are both provided with installation grooves and matched with the curtain wall boards.
Preferably, the driving assembly includes a second lead screw and a second rotary driver, the second lead screw is parallel to the two second guide posts, the second lead screw is located between the two second guide posts, the second rotary driver is located on the outer side wall of the first slider of the first lifting assembly, an output shaft of the second rotary driver penetrates through the first slider and is fixedly connected with the second lead screw, and the second slider located beside the second lifting assembly is in threaded fit with the second lead screw.
Preferably, the top of second slider all is equipped with the fixed axle and matches each other with scissors fork subassembly, the side of the rotation axis one of second slider bottom all is equipped with the fixing base and matches each other with rotating assembly, is equipped with the hole one that runs through on the lateral wall of second slider, and wherein the hole one that is located the second slider of second lifting unit side and drive assembly's second lead screw thread fit, the diameter of the hole one on the remaining second slider all is greater than the diameter of second lead screw.
Preferably, the scissor assembly comprises a limiting rod, a first connecting rod and a second connecting rod, a fixed shaft at the top of the second slider is in shaft connection with the middle parts of the first connecting rods, two ends of the first connecting rod are in shaft connection with the first connecting rods on the adjacent second slider respectively, the fixed shaft of the second slider close to the side of the first lifting assembly is in shaft connection with the second connecting rods, the second connecting rods are also in shaft connection with a limiting rod, the limiting rod is connected to the second slider and an installation shaft of the first slider of the first lifting assembly in a horizontal state, and one ends of the second connecting rods, far away from the first lifting assembly, are in shaft connection with one ends of the first connecting rods, close to the first lifting assembly, respectively; the fixed shaft of the second sliding block close to the side of the second lifting component is also in shaft connection with two connecting rods, and one ends of the two connecting rods, far away from the second lifting component, are in shaft connection with one ends of the two adjacent connecting rods, close to the second lifting component.
Preferably, rotating assembly includes worm, gear, telescopic link and third rotary actuator, all the cover is equipped with a worm on the fixing base of the bottom of second slider, the gear cover is located on the rotation axis of second slider is first, the gear is connected with the worm meshing, the both ends of worm are equipped with the telescopic link respectively, third rotary actuator fixed connection is on the lateral wall with first slider, third rotary actuator's output shaft is through hole two and telescopic link fixed connection of first slider.
Preferably, the telescopic rod is a hexagonal hollow pipe and two hexagonal connecting rods, the hollow pipe is located between the two adjacent second sliding blocks, the two connecting rods are respectively inserted into two ends of the hollow pipe, and the two connecting rods are respectively fixedly connected to two ends of the worm.
Preferably, the quantity and the curtain wall frame one-to-one of curtain wall board, the curtain wall board is located the curtain wall frame and cooperates rather than the joint through the mounting groove, the curtain wall board is the clear glass material and makes.
Compared with the prior art, the invention has the beneficial effects that:
1. according to the invention, the driving component drives the second sliding block close to the second lifting component to move, so that the curtain wall component can move at equal distance through the scissor component, and the technical problem of driving the curtain wall component 1 at equal distance is solved.
2. According to the curtain wall component adjusting device, the third rotary driver is started, the rotation of the third rotary driver brings the rotation of the telescopic rod fixedly connected with the third rotary driver, meanwhile, the rotation of the telescopic rod drives the rotation of the worm fixedly connected with the third rotary driver, the worm drives the rotation of the gear meshed with the worm, the rotary components can synchronously adjust all the curtain wall components in the rotating direction, and the technical problem of adjusting the rotating direction of the curtain wall components to achieve parallel adjustment is solved.
3. The curtain wall assembly is driven by the lifting mechanism, so that the technical problem that the curtain wall frame is matched with curtain wall plates with different sizes in a telescopic mode is solved.
Detailed Description
The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art.
In order to solve the technical problem of the building curtain wall with automatic leveling adjustment, as shown in fig. 1-3, the following technical solutions are provided:
a building curtain wall with flush adjustment comprising:
the curtain wall component 1 comprises a plurality of curtain wall components 1, each curtain wall component 1 comprises a curtain wall frame 1a and a curtain wall board 1g, the curtain wall components 1 are located on a building wall body, the curtain wall frames 1a are used for fixing the curtain wall boards 1g, and the curtain wall frames 1a have a telescopic function;
the lifting mechanism 2 is positioned on the building wall body, and the lifting mechanism 2 is used for driving the curtain wall frame 1a, so that curtain wall plates 1g with different sizes can be fixed on the curtain wall frame 1a in a telescopic mode;
an adjustment mechanism 3, the adjustment mechanism 3 comprising:
the shearing fork assembly 3b is positioned on the lifting mechanism 2, and the shearing fork assembly 3b is used for adjusting the positions of all the curtain wall assemblies 1 at the same time so that the curtain wall assemblies 1 are kept equidistant;
the driving assembly 3a is positioned on the lifting mechanism 2, and the driving assembly 3a is used for driving the scissor assemblies 3b, so that the scissor assemblies 3b can drive the curtain wall assembly 1 at the same time;
a rotating assembly 3c, the rotating assembly 3c is located on the lifting mechanism 2, the rotating assembly 3c is used for adjusting the rotating direction of all the curtain wall assemblies 1 at the same time, so that all the curtain wall assemblies 1 are kept flush.
Install curtain wall board 1g in curtain wall frame 1a at first, curtain wall board 1g can be fixed to curtain wall frame 1a, drive curtain wall frame 1a through elevating system 2 and stretch out and draw back, make curtain wall frame 1a can match not unidimensional curtain wall board 1g, drive assembly 3a through starting adjustment mechanism 3 after that, drive assembly 3 a's start-up has driven scissors subassembly 3b and has adjusted all curtain wall assembly 1's position, make and keep the equidistance between all curtain wall assembly 1, rotating assembly 3c through adjustment mechanism 3 adjusts all curtain wall assembly 1's direction of rotation simultaneously at last, make all curtain wall assembly 1 keep the parallel and level.
In order to solve the technical problem of driving the curtain wall frame 1a to stretch, as shown in fig. 3-6, the following technical solutions are provided:
the lifting mechanism 2 comprises a first lifting assembly 2a, a second lifting assembly 2b, two second guide posts 2c and two third guide posts 2d, the first lifting assembly 2a and the second lifting assembly 2b are respectively positioned on the uprights at two sides of the building wall, the first lifting assembly 2a and the second lifting assembly 2b are completely consistent in structure, the first lifting assembly 2a comprises a first fixing frame 2a1, a second fixing frame 2a2, a first sliding block 2a3, a first rotary driver 2a7, a first screw rod 2a8 and a first guide post 2a9, the first fixing frame 2a1 is positioned at the top end of the upright at one side of the building wall in a horizontal state, the second fixing frame 2a2 is positioned at the bottom end of the upright at one side of the building wall in a horizontal state, the first sliding block 2a3 is positioned between the first fixing frame 2a1 and the second fixing frame 2a 2a, the first sliding block 2a8 and the first guide post 2a3 are positioned between the first fixing frame 382 a 73742 a 2a3 in a vertical state The first screw rod 2a8 and the first guide post 2a9 are parallel to each other, the first slider 2a3 is in threaded fit with the first screw rod 2a8, the first rotary driver 2a7 is positioned at the top end of the first fixing frame 2a1, and the output shaft of the first rotary driver 2a7 penetrates through the first fixing frame 2a1 and is fixedly connected with the first screw rod 2a 8; two second guide posts 2c parallel to each other are arranged between the first sliders 2a3 of the first lifting assembly 2a and the second lifting assembly 2b, two third guide posts 2d parallel to each other are arranged between the second fixing frames 2a2 of the first lifting assembly 2a and the second lifting assembly 2b, and the two second guide posts 2c and the two third guide posts 2d are sleeved with the curtain wall frame 1 a.
Firstly, the first rotary drivers 2a7 of the first lifting assembly 2a and the second lifting assembly 2b are started simultaneously, the output shaft of the first rotary driver 2a7 starts to rotate, the rotation of the output shaft of the first rotary driver 2a7 drives the first screw rod 2a8 fixedly connected with the first rotary drivers, the simultaneous rotation of the first screw rods 2a8 of the first lifting assembly 2a and the second lifting assembly 2b drives the first slide block 2a3 in threaded fit with the first screw rods, so that the first sliders 2a3 of the first and second lifting assemblies 2a and 2b move in the direction of the first guide post 2a9, therefore, the two second guide posts 2c between the first sliding blocks 2a3 can be driven to move, and the curtain wall frame 1a is sleeved on the two second guide posts 2c and the two third guide posts 2d, so that the driven curtain wall frame 1a can stretch and retract to match with curtain walls 1g of different sizes.
In order to solve the technical problem of fixing the adjusting mechanism 3, as shown in fig. 3-6, the following technical solutions are provided:
the top center of the first slide block 2a3 is provided with a mounting shaft 2a4, the side wall of the first slide block 2a3 is provided with a second through hole 2a5, the driving components 3a are matched with each other, and a third through hole 2a6 is arranged below the second through hole 2a5 and is matched with the rotating component 3 c.
The mounting shaft 2a4 is used to define the position of the rotating group 3c, the aperture two 2a5 is used to secure the driving group 3a, and the aperture three 2a6 is used to secure the rotating group 3 c.
In order to solve the technical problem that the curtain wall frame 1a is telescopically matched with curtain wall boards 1g with different sizes, as shown in fig. 10 and fig. 11, the following technical scheme is provided:
the number of the curtain wall frames 1a corresponds to that of the curtain wall boards 1g one by one, the curtain wall frames 1a comprise an upper frame 1d, a lower frame 1e, a second sliding block 1b and a third sliding block 1c, the second sliding block 1b is sleeved on two second guide posts 2c of the lifting mechanism 2, a rotating shaft 1b1 is arranged at the bottom of the second sliding block 1b, the third sliding block 1c is sleeved on two third guide posts 2d of the lifting mechanism 2, a rotating shaft two 1c1 is arranged at the top of the third sliding block 1c, the upper frame 1d is sleeved on a rotating shaft one 1b1 of the second sliding block 1b, the lower frame 1e is sleeved on a rotating shaft two 1c1 of the third sliding block 1c, an insertion groove 1d1 is arranged at the bottom of the upper frame 1d, an insertion plate is arranged at the top of the lower frame 1e, the upper frame 1d and the lower frame 1e are inserted and matched with the insertion plate 1e1 through the insertion groove 1d1, the inner walls of the upper frame 1d and the lower frame 1e are respectively provided with a mounting groove 1f and are matched with the curtain wall board 1 g.
Firstly, two second guide posts 2c are lifted by the lifting mechanism 2, the lower frame 1e is fixed on two third guide posts 2d of the lifting mechanism 2, so that the upper frame 1d of the curtain wall frame 1a is separated along the direction of the insertion plate 1e1 of the lower frame 1e, after the upper frame 1d is separated to the extreme position, the curtain wall plate 1g is fixed on the mounting grooves 1f of the upper frame 1d and the lower frame 1e, the lifting mechanism 2 is driven to move so that the upper frame 1d moves towards the lower frame 1e until the size of the curtain wall plate 1g is matched, and the lifting mechanism 2 stops moving, so that the curtain wall plates 1g with different sizes are matched.
In order to solve the technical problem of driving the scissors assembly 3b to move, as shown in fig. 3-9, the following technical solutions are provided:
the driving assembly 3a includes a second lead screw 3a1 and a second rotary driver 3a2, the second lead screw 3a1 is parallel to two second guide posts 2c, the second lead screw 3a1 is located between the two second guide posts 2c, the second rotary driver 3a2 is located on the outer side wall of the first slide block 2a3 of the first lifting assembly 2a, the output shaft of the second rotary driver 3a2 penetrates through the first slide block 2a3 to be fixedly connected with the second lead screw 3a1, and the second slide block 1b located beside the second lifting assembly 2b is in threaded fit with the second lead screw 3a 1.
When the position of the curtain wall assembly 1 needs to be adjusted, the output shaft of the second rotary driver 3a2 starts to rotate through the second rotary driver 3a2, the rotation of the second rotary driver 3a2 drives the second lead screw 3a1 fixedly connected with the second rotary driver, the rotation of the second lead screw 3a1 drives the second slider 1b in threaded fit with the second lead screw, so that the second slider 1b moves along the direction of the two second guide posts 2c, and the second slider 1b drives the rest of the second sliders 1b to move together along the direction of the two second guide posts 2c through the scissor assembly 3b, so that the curtain wall assembly 1 connected with the second slider 1b can move equidistantly.
In order to solve the technical problem of fixing the rotating assembly and the scissors assembly, as shown in fig. 3-6, the following technical solutions are provided:
the top of the second slider 1b is provided with a fixed shaft 1b2 and is matched with the scissor assembly 3b, the sides of a first rotating shaft 1b1 at the bottom of the second slider 1b are provided with fixed seats 1b3 and are matched with the rotating assembly 3c, the side wall of the second slider 1b is provided with a first through hole 1b4, wherein the first through hole 1b4 of the second slider 1b positioned at the side of the second lifting assembly 2b is in threaded fit with the second screw rod 3a1 of the driving assembly 3a, and the diameter of the first through hole 1b4 on the rest second slider 1b is larger than that of the second screw rod 3a 1.
The fixed shaft 1b2 at the top of the second slider 1b is used for fixing the scissor assembly 3b, so that the scissor assembly 3b can drive each second slider 1b to move conveniently, the fixed seat 1b3 at the bottom of the second slider 1b is used for fixing the rotating assembly 3c, and the rotating assembly 3c can adjust the rotating direction of the curtain wall assembly 1 conveniently.
In order to solve the technical problem of driving the curtain wall assembly 1 equidistantly, as shown in fig. 8 and 9, the following technical solutions are provided:
the scissor component 3b comprises a limiting rod 3b1, a first connecting rod 3b2 and a second connecting rod 3b3, the fixed shaft 1b2 at the top of the second sliding block 1b is coupled with the middle parts of the two connecting rods one 3b2, the two ends of the two connecting rods one 3b2 are coupled with the two connecting rods one 3b2 on the adjacent second sliding block 1b, wherein the fixed shaft 1b2 of the second sliding block 1b close to the side of the first lifting component 2a is coupled with two connecting rods two 3b3, the two connecting rods two 3b3 are also coupled with a limiting rod 3b1, the limiting rod 3b1 is connected to the second slider 1b and the mounting shaft 2a4 of the first slider 2a3 of the first lifting assembly 2a in a horizontal state, and one ends of the two connecting rods 3b3 far away from the first lifting assembly 2a are respectively coupled to one ends of the two adjacent connecting rods 3b2 close to the first lifting assembly 2 a; wherein, the fixed shaft 1b2 of the second slider 1b near the side of the second lifting assembly 2b is also coupled to the two second connecting rods 3b3, and the ends of the two second connecting rods 3b3 far away from the second lifting assembly 2b are respectively coupled to the ends of the two adjacent first connecting rods 3b2 near the second lifting assembly 2 b.
After the driving assembly 3a drives the second sliding block 1b located near the second lifting assembly 2b to move, the movement of the second sliding block 1b drives the movement of the two connecting rods two 3b3 coupled at the top thereof, the movement of the two connecting rods two 3b3 drives the movement of the two adjacent connecting rods one 3b2 coupled therewith, the movement of the two connecting rods one 3b2 drives the movement of the two adjacent connecting rods one 3b2, so as to drive all the second sliding blocks 1b to move, the second sliding block 1b located beside the first lifting assembly 2a fixes the position thereof through the limiting rod 3b1, so that the second sliding block 1b near the first lifting assembly 2a does not move the whole scissor assembly 3b along with the driving of the driving assembly 3a, and thus the curtain wall assembly 1 can move equidistantly through the scissor assemblies 3 b.
In order to solve the technical problem of adjusting the rotation direction of the curtain wall assembly 1, as shown in fig. 8, 9, 12 and 13, the following technical solutions are provided:
the rotating assembly 3c comprises a worm 3c1, a gear 3c2, an expansion link 3c3 and a third rotating driver 3c6, a fixed seat 1b3 at the bottom of the second sliding block 1b is sleeved with a worm 3c1, the gear 3c2 is sleeved on a first rotating shaft 1b1 of the second sliding block 1b, the gear 3c2 is meshed with the worm 3c1, two ends of the worm 3c1 are respectively sleeved with an expansion link 3c3, the third rotating driver 3c6 is fixedly connected with the outer side wall of the first sliding block 2a3, and an output shaft of the third rotating driver 3c6 is fixedly connected with the expansion link 3c3 through a second hole 2a5 of the first sliding block 2a 3.
By activating the third rotary driver 3c6, the output shaft of the third rotary driver 3c6 starts to rotate, the rotation of the third rotary driver 3c6 brings about the rotation of the telescopic rod 3c3 fixedly connected therewith, at the same time, the rotation of the telescopic rod 3c3 drives the rotation of the worm 3c1 fixedly connected therewith, the rotation of the worm 3c1 drives the rotation of the gear 3c2 in meshed connection therewith, the telescopic rod 3c3 is used for synchronously adjusting the rotary direction of all the curtain wall assemblies 1 while the scissor assemblies 3b and the driving assembly 3a move the curtain wall assemblies 1, so that all the curtain wall assemblies 1 can be adjusted in parallel and level.
In order to solve the technical problem of driving the worm 3c1 while the driving assembly 3a moves the curtain wall assembly 1, as shown in fig. 12 and 13, the following technical solutions are provided:
the telescopic rod 3c3 is a hexagonal hollow tube 3c4 and two hexagonal connecting rods 3c5, the hollow tube 3c4 is located between two adjacent second sliding blocks 1b, the two connecting rods 3c5 are respectively inserted into two ends of the hollow tube 3c4, and the two connecting rods 3c5 are respectively fixedly connected with two ends of the worm 3c 1.
The driving assembly 3a drives the curtain wall assembly 1 to move and simultaneously drives all the second sliding blocks 1b to move equidistantly, and along with the movement of all the second sliding blocks 1b, the worm 3c1 sleeved at the bottom of the second sliding block 1b is driven to move, the worm 3c1 drives the hexagonal connecting rod 3c5 fixedly connected with the two ends of the worm to move, so that the hexagonal connecting rod 3c5 slides in the hexagonal hollow tube 3c4, and simultaneously along with the rotation of the third rotary driver 3c6, the hexagonal hollow tube 3c4 is driven to rotate, and the hexagonal hollow tube 3c4 rotates and drives the hexagonal connecting rod 3c5 to rotate.
In order to solve the technical problem of fixing the curtain wall plate, as shown in fig. 1-3, the following technical solutions are provided:
the quantity of curtain wall board 1g and curtain wall frame 1a one-to-one, curtain wall board 1g is located curtain wall frame 1a and just cooperates rather than the joint through mounting groove 1f, curtain wall board 1g is the transparent glass material and makes.
In being fixed in curtain frame 1a with curtain board 1g through mounting groove 1f, curtain board 1 g's transparent glass material is used for beautifying building curtain.
The working principle of the invention is as follows:
firstly, fixing a curtain wall plate 1g in a curtain wall frame 1a through a mounting groove 1f, wherein the transparent glass material of the curtain wall plate 1g is used for beautifying a building curtain wall; the two second guide posts 2c are lifted by the lifting mechanism 2, by simultaneously starting the first rotary drivers 2a7 of the first lifting assembly 2a and the second lifting assembly 2b, the output shaft of the first rotary driver 2a7 starts to rotate, the rotation of the output shaft of the first rotary driver 2a7 drives the first screw rod 2a8 fixedly connected with the first rotary drivers, and the simultaneous rotation of the first screw rod 2a8 of the first lifting assembly 2a and the second lifting assembly 2b drives the first slider 2a3 in threaded fit with the first screw rod, so that the first sliders 2a3 of the first lifting assembly 2a and the second lifting assembly 2b move along the direction of the first guide post 2a9, and the two second guide posts 2c between the first sliders 2a3 can be driven to move; the lower frame 1e is fixed on the two third guide posts 2d of the lifting mechanism 2, so that the upper frame 1d of the curtain wall frame 1a is separated along the direction of the insertion plate 1e1 of the lower frame 1e, after the curtain wall plate 1g is separated to the extreme position, the curtain wall plate 1g is fixed on the mounting grooves 1f of the upper frame 1d and the lower frame 1e, the lifting mechanism 2 is driven to move so that the upper frame 1d moves towards the lower frame 1e until the size of the curtain wall plate 1g is matched, and the lifting mechanism 2 stops moving, so that the curtain wall plates 1g with different sizes are matched; the fixed shaft 1b2 at the top of the second slider 1b is used for fixing the scissor assembly 3b, so that the scissor assembly 3b can drive each second slider 1b to move conveniently, and the fixed seat 1b3 at the bottom of the second slider 1b is used for fixing the rotating assembly 3c, so that the rotating assembly 3c can adjust the rotating direction of the curtain wall assembly 1 conveniently; the mounting shaft 2a4 is used to define the position of the rotating group 3c, the hole two 2a5 is used to fix the driving group 3a, and the hole three 2a6 is used to fix the rotating group 3 c;
when the position of the curtain wall assembly 1 needs to be adjusted, the output shaft of the second rotary driver 3a2 starts to rotate through the second rotary driver 3a2, the rotation of the second rotary driver 3a2 drives the second lead screw 3a1 fixedly connected with the second rotary driver, the rotation of the second lead screw 3a1 drives the second slider 1b in threaded fit with the second lead screw, so that the second slider 1b moves along the direction of two second guide posts 2c, the second slider 1b drives the rest of the second sliders 1b to move along the direction of the two second guide posts 2c through the scissor assembly 3b, and the curtain wall assembly 1 connected with the second slider 1b can move equidistantly; the second slider 1b moves to drive the two connecting rods 3b3, the tops of which are coupled by a shaft, to move, the two connecting rods 3b3 move to drive the two adjacent connecting rods 3b2, and the two connecting rods 3b2 move to drive the two adjacent connecting rods 3b2, so that all the second sliders 1b can be driven to move, the second slider 1b beside the first lifting component 2a is fixed in position by a limiting rod 3b1, so that the second slider 1b close to the first lifting component 2a cannot drive the driving component 3a to move the whole scissor component 3b, and the curtain wall component 1 can move equidistantly through the scissor components 3 b.
By activating the third rotary driver 3c6, the output shaft of the third rotary driver 3c6 starts to rotate, the rotation of the third rotary driver 3c6 brings about the rotation of the telescopic rod 3c3 fixedly connected with the third rotary driver, at the same time, the rotation of the telescopic rod 3c3 brings about the rotation of the worm 3c1 fixedly connected with the third rotary driver, the rotation of the worm 3c1 brings about the rotation of the gear 3c2 in meshing connection with the worm, the telescopic rod 3c3 is used for simultaneously adjusting the rotation direction of all curtain wall components 1 by the rotary component 3c while the driving component 3a moves the curtain wall components 1 by driving the scissors component 3b and the driving component 3a, the equidistant movement of all second sliders 1b is driven by the movement of all second sliders 1b, the movement of the worm 3c1 sleeved at the bottom of the second slider 1b is driven by the movement of the worm 3c1 brings about the movement of the hexagonal connecting rod 3c5 fixedly connected with the two ends of the worm, the hexagonal connecting rod 3c5 slides in the hexagonal hollow tube 3c4, and simultaneously the hexagonal hollow tube 3c4 is driven to rotate along with the rotation of the third rotary driver 3c6, and the hexagonal hollow tube 3c4 drives the hexagonal connecting rod 3c5 to rotate, so that all the curtain wall assemblies 1 can realize flush adjustment.
The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.