阅读说明：本技术 一种高效遮光的玻璃幕墙新材料 (Novel efficient shading glass curtain wall material ) 是由 杜峥嵘 于 2021-08-02 设计创作，主要内容包括：本发明涉及玻璃幕墙技术领域,且公开了一种高效遮光的玻璃幕墙的切割装置,包括活动板,所述活动板的侧边设置有半圈板,活动板的内部贯穿连接有弹力圈,活动板的底侧壁处贯穿连接有转动机构,活动板的侧边处贯穿连接有支撑杆,支撑杆的底端贯穿连接有底座板,底座板的底部贯穿连接有弹压机构。通过连接柱向上翘起托起活动珠的底侧,活动珠的侧壁撞击通道管的侧壁处,将外侧气体向通道管的内部推送,通道管的内部气体往节段管的内部灌注,节段管的侧壁向周围鼓起,节段管侧壁处的裂缝炸开,内部的气体向外挤出,吹至活动板的圆周外侧壁处,此时活动板的侧壁在向下滑动时,能够避免周围的粉尘靠近而被吸入装置的内部缝隙中造成堵机。(The invention relates to the technical field of glass curtain walls and discloses a high-efficiency shading cutting device for glass curtain walls. The bottom side of the movable bead is supported by the connecting column in an upward tilting mode, the side wall of the movable bead impacts the side wall of the channel pipe, outside gas is pushed to the inside of the channel pipe, the inside gas of the channel pipe is filled into the section pipe, the side wall of the section pipe is bulged to the periphery, cracks in the side wall of the section pipe are exploded, the inside gas is extruded outwards, the gas is blown to the outer side wall of the circumference of the movable plate, the side wall of the movable plate slides downwards, and therefore the situation that the peripheral dust is close to the inner gap of the suction device and the blockage is caused can be avoided.)

1. The utility model provides a glass curtain wall's of high-efficient shading cutting device, includes fly leaf (1), its characterized in that: the side edge of the movable plate (1) is provided with a semicircular plate (101), the interior of the movable plate (1) is connected with an elastic ring (102) in a penetrating manner, the bottom side wall of the movable plate (1) is connected with a rotating mechanism (2) in a penetrating manner, the side edge of the movable plate (1) is connected with a supporting rod (3) in a penetrating manner, the bottom end of the supporting rod (3) is connected with a base plate (4) in a penetrating manner, the bottom of the base plate (4) is connected with an elastic pressing mechanism (5) in a penetrating manner, the top side wall of the movable plate (1) is connected with a drawing mechanism (6) in a penetrating manner, the interior of the drawing mechanism (6) comprises an elastic pipe (611), the interior axis of the elastic pipe (611) is connected with a central column (617) in a penetrating manner, the side wall of the central column (617) is connected with a needle rod (616) in a penetrating manner, the top end of the central column (617) is connected with a connecting column (615) in a penetrating manner, and the top side right end of the connecting column (615) is movably connected with a movable bead (612), the right side of the movable bead (612) is movably connected with a channel pipe (613), one end, far away from the movable bead (612), of the channel pipe (613) is connected with a segment pipe (614) in a penetrating mode, and the bottom end of the twitching mechanism (6) is connected with a dislocation mechanism (7) in a penetrating mode.

2. The cutting device for glass curtain walls with high-efficiency shading according to claim 1, characterized in that: the inside of suppress mechanism (5) includes supporting shoe (511), and the lateral wall department through connection of supporting shoe (511) has gasbag (512), and the lateral wall department through connection of supporting shoe (511) has movable circle (513), and the bottom through connection of supporting shoe (511) has connecting rod (514).

3. The cutting device for glass curtain walls with high-efficiency shading according to claim 1, characterized in that: the inside of dislocation mechanism (7) includes rack (711), and the inside wall department through connection of rack (711) has filter bed (713), and the lateral wall department through connection of rack (711) has net (712) of passing through, and the inside wall department through connection of rack (711) has slide caliper rule (714), and the end lateral wall department through connection of slide caliper rule (714) has staple bolt (715).

4. The cutting device for glass curtain walls with high-efficiency shading according to claim 1, characterized in that: the rotating mechanism (2) comprises a connecting pipe (211), the inner end of the connecting pipe (211) is connected with a sliding ring (215) in a penetrating mode, the side wall of the sliding ring (215) is connected with a support frame (214) in a penetrating mode, the side wall of the sliding ring (215) is connected with a support pipe (212) in a penetrating mode, and one end, far away from the support frame (214), of the support pipe (212) is connected with a ball (213) in a penetrating mode.

5. The cutting device for glass curtain walls with high-efficiency shading according to claim 1, characterized in that: the outer end of the needle rod (616) is fixedly connected to the inner side wall of the elastic tube (611), and the bottom end of the segment tube (614) is connected to the top side wall of the movable plate (1) in a penetrating manner.

6. The cutting device for glass curtain walls with high-efficiency shading according to claim 3, characterized in that: the outer side wall of the filter layer (713) is connected with the inner side wall of the permeable net (712) in a penetrating way.

7. The cutting device for glass curtain walls with high-efficiency shading according to claim 4, characterized in that: the outer end of the connecting pipe (211) is connected to the side wall of the dislocation mechanism (7) in a sliding mode.

8. The cutting device for glass curtain walls with high-efficiency shading according to claim 4, characterized in that: the side wall of the half-ring plate (101) is connected with the side wall of the connecting pipe (211) in a sliding mode.

9. A new material for high-efficiency shading glass curtain wall as claimed in claim 1, wherein it comprises: 70% of silicone oil; 8% of polyimide; 3% of pigment; 5% of carbon black; 2% of a dispersant; 10% of carbon dioxide powder; 2% of bonding resin; one part of protective film; one part of water aqua.

10. A production process of a new material for high-efficiency shading glass curtain walls as claimed in claim 9, characterized by comprising the following steps:

s1, dividing the silicone oil into one part, two parts and three parts, adding polyimide into the first part of the silicone oil, stirring, standing for 30 minutes, volatilizing to be planar, and poking small holes to eliminate bubbles generated during stirring;

s2, adding a second part of silicone oil into the carbon black for mixing, adding a water aqua into the carbon black for uniformly mixing, adding the mixture into a mixture of the first part of silicone oil and the second part of silicone oil for stirring, putting the mixture into a high-pressure machine for pressurizing, and removing redundant water;

s3, stirring and filtering the dispersing agent, adding the filtered dispersing agent into the silicon oil mixture, stirring for 20 minutes by high-speed dispersion, adding a third part of silicon oil and 10% of carbon dioxide powder, mixing, and continuously stirring by a high-speed dispersion machine until the color is uniform;

s4, pouring the stirred silicone oil mixture into a plane grinding tool, leveling the silicone oil mixture into a film shape by using a roller, enabling the topmost side of the silicone oil mixture to be flush with the edge of the plane grinding tool, and scraping the part beyond the plane grinding tool;

s5, placing the plane grinding tool filled with the silicon oil mixture into a high-temperature baking oven for 20 minutes, standing for 30 minutes to form a crystal plate, manufacturing the silicon oil mixture crystal plate of the 5-layer plane grinding tool as above, and cleaning with an aqueous solution to remove redundant black smoke;

s6, after stacking and mixing the five crystal plates, brushing bonding resin between the side walls of the crystal plates and spreading the bonding resin evenly, after high-temperature pressurization and standing for 24 hours, erecting the finished product and carrying out gravity test until the bonding of the crystal plates is not dispersed.

Technical Field

The invention relates to the technical field of glass curtain walls, in particular to a novel efficient shading glass curtain wall material.

Background

The side wall of the glass curtain wall can be polluted by light, coated glass or coated glass can be adopted on the curtain wall of a high-rise building, when direct sunlight and skylight irradiate the surface of the glass, reflection glare is generated due to the specular reflection of the glass, when the light directly irradiates the side wall of the glass, the light can be reflected through the planar optical fiber of the glass, in the installation process, the glass for manufacturing the curtain wall can be cut according to the actual required size on site, the side wall of the glass is too hard, the sharp edge of a cutter for cutting the glass is sharp and quick at the moment, excessive friction can exist between the glass and the cross section of the glass, fine particles between the cuts are also quickly driven to fly to the outside, and the fine glass particles jump to the side wall of the glass curtain wall along with the centrifugal force to cause pit in smashing, so that the use in the later period is influenced.

Disclosure of Invention

Technical scheme (I)

In order to solve the above problems, the present invention provides the following technical solutions: a cutting device for a new material of a glass curtain wall with high shading efficiency comprises a movable plate, wherein a half-ring plate is arranged on the side edge of the movable plate, an elastic ring is connected inside the movable plate in a penetrating way, a rotating mechanism is connected at the bottom side wall of the movable plate in a penetrating way, a supporting rod is connected at the side edge of the movable plate in a penetrating way, a base plate is connected at the bottom end of the supporting rod in a penetrating way, an elastic pressing mechanism is connected at the bottom of the base plate in a penetrating way, the top side wall department through connection of fly leaf has the twitch mechanism, and the inside of twitch mechanism includes the elastic tube, and the inside axle center department through connection of elastic tube has the center post, and the lateral wall department through connection of center post has the needle bar, and the top through connection of center post has the spliced pole, and the top side right-hand member swing joint of spliced pole has movable pearl, and the right side swing joint of movable pearl has the passageway pipe, and the one end through connection that the movable pearl was kept away from to the passageway pipe has the festival section pipe, the bottom through connection of twitch mechanism has dislocation mechanism.

Preferably, the inside of suppressing mechanism includes the supporting shoe, and the lateral wall department through connection of supporting shoe has the gasbag, and the lateral wall department through connection of supporting shoe has the movable ring, and the bottom through connection of supporting shoe has the connecting rod.

Preferably, the inside of dislocation mechanism includes the rack, and the inside wall department through connection of rack has the filtering layer, and the lateral wall department through connection of rack has the net of passing through, and the inside wall department through connection of rack has slide caliper rule, and the end lateral wall department through connection of slide caliper rule has the bail.

Preferably, slewing mechanism's inside includes the connecting pipe, and the inner through connection of connecting pipe has the slip ring, and the lateral wall department through connection of slip ring has the support, and the lateral wall department through connection of slip ring has the stay tube, and the one end through connection that the support was kept away from to the stay tube has the ball.

Preferably, the outer end of the needle rod is fixedly connected to the inner side wall of the elastic tube, and the side wall of the needle rod can be pulled upwards when elastically jumping upwards.

Preferably, the bottom end of the segment pipe is connected to the top side wall of the movable plate in a penetrating manner, and a gap is formed in the side wall of the segment pipe, so that when the segment pipe is pressed, the airflow inside the segment pipe can be extruded outwards from the gap and blown to the periphery of the movable plate.

Preferably, the outer side wall of the filter layer is connected with the inner side wall of the permeable net in a penetrating mode, and the side wall of the filter layer can elastically slide back and forth with the side wall of the permeable net when being compressed.

Preferably, the outer end of the connecting pipe is slidably connected to the side wall of the dislocation mechanism, and the side wall of the connecting pipe can be knocked on the side wall of the dislocation mechanism when the connecting pipe is shaken to trigger the movement of the internal structure of the dislocation mechanism.

Preferably, the side wall of the half-circle plate is slidably connected to the side wall of the connecting pipe, and the side wall of the half-circle plate can be overturned after being influenced by the side wall of the movable plate, and then can be knocked at the side wall of the connecting pipe, so that the side wall of the connecting pipe is elastically knocked.

A new material of glass curtain wall with high shading efficiency comprises: 70% of silicone oil; 8% of polyimide; 3% of pigment; 5% of carbon black; 2% of a dispersant; 10% of carbon dioxide powder; 2% of bonding resin; one part of protective film; one part of water aqua.

A production process of a novel efficient shading glass curtain wall material comprises the following steps:

s1, dividing the silicone oil into one part, two parts and three parts, adding polyimide into the first part of the silicone oil, stirring, standing for 30 minutes, volatilizing to be planar, and poking small holes to eliminate bubbles generated during stirring;

s2, adding a second part of silicone oil into the carbon black for mixing, adding a water aqua into the carbon black for uniformly mixing, adding the mixture into a mixture of the first part of silicone oil and the second part of silicone oil for stirring, putting the mixture into a high-pressure machine for pressurizing, and removing redundant water;

s3, stirring and filtering the dispersing agent, adding the filtered dispersing agent into the silicon oil mixture, stirring for 20 minutes by high-speed dispersion, adding a third part of silicon oil and 10% of carbon dioxide powder, mixing, and continuously stirring by a high-speed dispersion machine until the color is uniform;

s4, pouring the stirred silicone oil mixture into a plane grinding tool, leveling the silicone oil mixture into a film shape by using a roller, enabling the topmost side of the silicone oil mixture to be flush with the edge of the plane grinding tool, and scraping the part beyond the plane grinding tool;

s5, placing the plane grinding tool filled with the silicon oil mixture into a high-temperature baking oven for 20 minutes, standing for 30 minutes to form a crystal plate, manufacturing the silicon oil mixture crystal plate of the 5-layer plane grinding tool as above, and cleaning with an aqueous solution to remove redundant black smoke;

s6, after stacking and mixing the five crystal plates, brushing bonding resin between the side walls of the crystal plates and spreading the bonding resin evenly, after high-temperature pressurization and standing for 24 hours, erecting the finished product and carrying out gravity test until the bonding of the crystal plates is not dispersed.

(II) advantageous effects

Compared with the prior art, the invention provides the cutting device of the glass curtain wall with high-efficiency shading, which has the following beneficial effects:

1. this glass curtain wall's of high-efficient shading cutting device, when the lateral wall through half a circle board upwards rotates and colludes, can beat the lateral wall of connecting pipe, the lateral wall of connecting pipe is beaten to the lateral wall, and the outer end of connecting pipe is beaten to the lateral wall department of dislocation mechanism, and the opening increase that increases dislocation mechanism department is beaten to the in-process accessible of cutting to can inhale the tiny particle fast and tighten up when the operation, avoid the tiny particle to jump out along with vibrations once more.

2. This cutting device of glass curtain wall of high-efficient shading, right-hand member through the spliced pole upwards sticks up, hold up the end lateral wall department of activity pearl, the lateral wall department of the lateral wall striking channel pipe of activity pearl, with the inside propelling movement of outside gas to the channel pipe, the inside gas of channel pipe fills toward the inside of festival section pipe, the lateral wall of festival section pipe is to having swelled around, the crack of festival section pipe lateral wall department is exploded this moment, inside gas is outwards extruded, blow to the circumference lateral wall department of fly leaf, the lateral wall of fly leaf is when the lapse, can avoid dust on every side to be close to and cause stifled machine in the inside gap by suction device.

3. This high-efficient shaded glass curtain wall's cutting device, the lateral wall through passing through the net upwards swells, it also reduces owing to its self hole of passing through the net to reduce back to a department to pass through the top lateral wall department of net, the lateral wall that passes through the net can upwards jack-up the lateral wall of bail, the lateral wall of bail changes vertical state into from the slope form, upwards promote the lateral wall of slide caliper rule, it is penetrating that the lateral wall department of passing through the net passes through poking of bail lateral wall department and becomes penetrating this moment, can avoid collecting the in-process of granule to suffer to block up and unable smooth operation, avoid the jam to block up the lateral wall that passes through the net and form the situation that the hard block is difficult to automatic removal.

4. This glass curtain wall new material of high-efficient shading, through the repeated pressurization back of silicon oil material, added the material of carbon black, the fashioned glass of back-pressing after will pressurizeing is pressed into the slice laminating in a back, and the light that the outside was shone and is come can be through chopping into the glass piece and refract the back repeatedly, and light weakens gradually, after seeing through the protecting film, just can form the effect of high-efficient shading, is favorable to the effect of not excessive shade again after the optic fibre dispersion.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the connection of the internal structure of the pumping mechanism according to the present invention;

FIG. 3 is a schematic view of the left side of the connection of the internal relevant structures of the dislocation mechanism of the present invention;

fig. 4 is a schematic cross-sectional view of the connection of the internal relevant structures of the rotating mechanism of the invention.

In the figure: 1. a movable plate; 101. a half-turn plate; 102. an elastic ring; 2. a rotating mechanism; 211. a connecting pipe; 212. supporting a tube; 213. a ball bearing; 214. a support; 215. a sliding ring; 3. a support bar; 4. a base plate; 5. a spring pressing mechanism; 511. a support block; 512. an air bag; 513. a movable ring; 514. a connecting rod; 6. a twitch mechanism; 611. an elastic tube; 612. a movable bead; 613. a passage tube; 614. a segment pipe; 615. connecting columns; 616. a needle bar; 617. a central column; 7. a dislocation mechanism; 711. a net frame; 712. net penetration; 713. a filtering layer; 714. a caliper; 715. and (4) a staple.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The first embodiment is as follows:

referring to fig. 1 and 4, a cutting device for a glass curtain wall with high light shielding efficiency comprises a movable plate 1, a half-ring plate 101 is disposed at a side edge of the movable plate 1, an elastic ring 102 is penetratingly connected to the inside of the movable plate 1, a rotating mechanism 2 is penetratingly connected to a bottom side wall of the movable plate 1, a connecting pipe 211 is disposed inside the rotating mechanism 2, a sliding ring 215 is penetratingly connected to an inner end of the connecting pipe 211, a support frame 214 is penetratingly connected to a side wall of the sliding ring 215, a support pipe 212 is penetratingly connected to a side wall of the sliding ring 215, a ball 213 is penetratingly connected to an end of the support pipe 212 far from the support frame 214, a support rod 3 is penetratingly connected to a side edge of the movable plate 1, a base plate 4 is penetratingly connected to a bottom of the base plate 4, an elastic pressing mechanism 5 is penetratingly connected to a top side wall of the movable plate 1, a drawing mechanism 6 is penetratingly connected to an elastic pipe 611, a central column 617 is connected to the inner axis of the elastic tube 611 in a penetrating manner, a needle bar 616 is connected to the side wall of the central column 617 in a penetrating manner, a connecting column 615 is connected to the top end of the central column 617 in a penetrating manner, a movable bead 612 is movably connected to the right end of the top side of the connecting column 615, a channel tube 613 is movably connected to the right side of the movable bead 612, a segment tube 614 is connected to one end, far away from the movable bead 612, of the channel tube 613 in a penetrating manner, and a dislocation mechanism 7 is connected to the bottom end of the twitching mechanism 6 in a penetrating manner.

The outer end of the connecting pipe 211 is slidably connected to the side wall of the dislocation mechanism 7, and the side wall of the connecting pipe 211 can be knocked on the side wall of the dislocation mechanism 7 when the connecting pipe is shaken, so as to trigger the movement of the internal structure of the dislocation mechanism 7.

Wherein, the side wall of the half-turn plate 101 is slidably connected to the side wall of the connection pipe 211, and the side wall of the half-turn plate 101 can be turned over after being influenced by the side wall of the movable plate 1, and then can be knocked at the side wall of the connection pipe 211, and the side wall of the connection pipe 211 is elastically knocked.

The inside of the rotating mechanism 2 includes a connecting pipe 211 and a sliding ring 215, the inner side wall of the sliding ring 215 is pulled outwards, the inner side wall of the sliding ring 215 is connected with a supporting pipe 212 in a penetrating manner, the side wall of the supporting pipe 212 is connected to the inner side wall of the sliding ring 215 in a sliding manner, the side wall of the sliding ring 215 can slide outwards along the side wall of the supporting pipe 212 when extending outwards, the side wall of the supporting pipe 212 is shortened to the inside of the sliding ring 215, when the outer end of the connecting pipe 211 is beaten towards the side wall of the dislocation mechanism 7, the opening at the dislocation mechanism 7 can be increased and enlarged by beating in the cutting process, and therefore small particles can be sucked and tightened quickly during operation.

Example two:

referring to fig. 1-2, a cutting device for a glass curtain wall with high light shielding efficiency comprises a movable plate 1, a semicircular plate 101 is disposed on a side edge of the movable plate 1, an elastic ring 102 is penetratingly connected inside the movable plate 1, a rotating mechanism 2 is penetratingly connected to a bottom side wall of the movable plate 1, a support rod 3 is penetratingly connected to a side edge of the movable plate 1, a base plate 4 is penetratingly connected to a bottom end of the support rod 3, a biasing mechanism 5 is penetratingly connected to a bottom of the base plate 4, a drawing mechanism 6 is penetratingly connected to a top side wall of the movable plate 1, the drawing mechanism 6 includes an elastic tube 611 therein, a central column 617 is penetratingly connected to an inner axis of the elastic tube 611, a needle bar 616 is penetratingly connected to a side wall of the central column 617, a connecting column 615 is penetratingly connected to a top side wall of the connecting column 615, a movable bead 612 is movably connected to a top side end of the connecting column 615, a channel tube 613 is movably connected to a right side of the movable bead 612, the end of the channel tube 613 far away from the movable bead 612 is connected with a segment tube 614 through a penetrating way, and the bottom end of the drawing mechanism 6 is connected with a dislocation mechanism 7 through a penetrating way.

Wherein, the outer end of the needle bar 616 is fixedly connected to the inner side wall of the elastic tube 611, and the side wall of the needle bar 616 can pull the side wall of the elastic tube 611 upwards when elastically jumping upwards.

The bottom end of the segment tube 614 is connected to the top sidewall of the movable plate 1, and the sidewall of the segment tube 614 is provided with a gap, so that when being pressed, the air flow inside the segment tube 614 will be extruded outwards from the gap and blown to the periphery of the movable plate 1.

The side wall of the elastic tube 611 is intermittently influenced by the dragging of the needle bar 616 to elastically impact the right end of the connecting column 615, the right end of the connecting column 615 tilts upwards to support the bottom side wall of the movable bead 612, the side wall of the movable bead 612 impacts the side wall of the channel tube 613 to push outside air to the inside of the channel tube 613, the inside air of the channel tube 613 is filled into the segment tube 614, the side wall of the segment tube 614 bulges to the periphery, at the moment, cracks at the side wall of the segment tube 614 are burst open, and when the side wall of the movable plate 1 slides downwards, surrounding dust can be prevented from approaching.

Example three:

referring to fig. 1 and 3, a cutting device for a glass curtain wall with high light shielding efficiency comprises a movable plate 1, a half-ring plate 101 is arranged on the side edge of the movable plate 1, an elastic ring 102 is penetratingly connected inside the movable plate 1, a rotating mechanism 2 is penetratingly connected to the bottom side wall of the movable plate 1, a support rod 3 is penetratingly connected to the side edge of the movable plate 1, a base plate 4 is penetratingly connected to the bottom end of the support rod 3, an elastic mechanism 5 is penetratingly connected to the bottom of the base plate 4, a support block 511 is included inside the elastic mechanism 5, an air bag 512 is penetratingly connected to the side wall of the support block 511, a movable ring 513 is penetratingly connected to the outer side wall of the support block 511, a connecting rod 514 is penetratingly connected to the bottom end of the support block 511, a pulling mechanism 6 is penetratingly connected to the top side wall of the movable plate 1, an elastic tube 611 is included inside the pulling mechanism 6, and a center post 617 is penetratingly connected to the inner axis of the elastic tube 611, lateral wall department through connection of center post 617 has needle bar 616, the top through connection of center post 617 has spliced pole 615, the top side right-hand member swing joint of spliced pole 615 has movable pearl 612, the right side swing joint of movable pearl 612 has passageway pipe 613, the one end through connection that movable pearl 612 was kept away from to passageway pipe 613 has segmental pipe 614, the bottom through connection of twitch mechanism 6 has dislocation mechanism 7, dislocation mechanism 7's inside includes rack 711, the inside wall department through connection of rack 711 has filtering layer 713, the lateral wall department through connection of rack 711 has net 712, the inside wall department through connection of rack 711 has slide caliper 714, the bottom lateral wall department through connection of slide caliper 714 has staple bolt.

Wherein, the outer side wall of the filter layer 713 is connected to the inner side wall of the permeable net 712 through, and the side wall of the filter layer 713 can elastically slide back and forth with the side wall of the permeable net 712 when being compressed.

The side wall of the transparent net 712 bulges upwards, the top side wall of the transparent net 712 shrinks due to the holes of the transparent net 712 shrinking to one place, the side wall of the transparent net 712 can jack up the side wall of the staple 715, the side wall of the staple 715 is changed from an inclined state to a vertical state, the side wall of the caliper 714 is pushed upwards, and at the moment, the side wall of the transparent net 712 becomes transparent through poking at the side wall of the staple 715.

Example four:

referring to fig. 1-4, a cutting device for a glass curtain wall with high light shielding efficiency comprises a movable plate 1, a half-ring plate 101 is disposed on a side edge of the movable plate 1, an elastic ring 102 is penetratingly connected to the inside of the movable plate 1, a rotating mechanism 2 is penetratingly connected to a bottom side wall of the movable plate 1, a connecting pipe 211 is disposed inside the rotating mechanism 2, a sliding ring 215 is penetratingly connected to an inner end of the connecting pipe 211, a support frame 214 is penetratingly connected to a side wall of the sliding ring 215, a support pipe 212 is penetratingly connected to a side wall of the sliding ring 215, a ball 213 is penetratingly connected to an end of the support pipe 212 far away from the support frame 214, a support rod 3 is penetratingly connected to a side edge of the movable plate 1, a base plate 4 is penetratingly connected to a bottom of the base plate 4, a biasing mechanism 5 is penetratingly connected to a bottom of the base plate 4, a support block 511 is penetratingly connected to a side wall of the biasing mechanism 5, the outer side wall of the supporting block 511 is connected with a movable ring 513 in a penetrating manner, the bottom end of the supporting block 511 is connected with a connecting rod 514 in a penetrating manner, the top side wall of the movable plate 1 is connected with a twitching mechanism 6 in a penetrating manner, the inside of the twitching mechanism 6 comprises an elastic tube 611, the inner axis of the elastic tube 611 is connected with a central column 617 in a penetrating manner, the side wall of the central column 617 is connected with a needle bar 616 in a penetrating manner, the top end of the central column 617 is connected with a connecting column 615 in a penetrating manner, the right end of the top side of the connecting column 615 is movably connected with a movable bead 612, the right side of the movable bead 612 is movably connected with a channel tube 613, one end of the channel tube 613, which is far away from the movable bead 612, is connected with a segment tube 614 in a penetrating manner, the bottom end of the twitching mechanism 6 is connected with a malposition mechanism 7 in a penetrating manner, the inside of the malposition 7 comprises a net frame 711, the inner side wall of the net frame 713 in a penetrating manner, the side wall of the net frame 711 is connected with a caliper 714 in a penetrating manner, a staple 715 is connected to the bottom side wall of the caliper 714,

wherein, the outer end of the needle bar 616 is fixedly connected to the inner side wall of the elastic tube 611, and the side wall of the needle bar 616 can pull the side wall of the elastic tube 611 upwards when elastically jumping upwards.

The bottom end of the segment tube 614 is connected to the top sidewall of the movable plate 1, and the sidewall of the segment tube 614 is provided with a gap, so that when being pressed, the air flow inside the segment tube 614 will be extruded outwards from the gap and blown to the periphery of the movable plate 1.

Wherein, the outer side wall of the filter layer 713 is connected to the inner side wall of the permeable net 712 through, and the side wall of the filter layer 713 can elastically slide back and forth with the side wall of the permeable net 712 when being compressed.

The outer end of the connecting pipe 211 is slidably connected to the side wall of the dislocation mechanism 7, and the side wall of the connecting pipe 211 can be knocked on the side wall of the dislocation mechanism 7 when the connecting pipe is shaken, so as to trigger the movement of the internal structure of the dislocation mechanism 7.

Wherein, the side wall of the half-turn plate 101 is slidably connected to the side wall of the connection pipe 211, and the side wall of the half-turn plate 101 can be turned over after being influenced by the side wall of the movable plate 1, and then can be knocked at the side wall of the connection pipe 211, and the side wall of the connection pipe 211 is elastically knocked.

A new material of glass curtain wall with high shading efficiency comprises: 70% of silicone oil; 8% of polyimide; 3% of pigment; 5% of carbon black; 2% of a dispersant; 10% of carbon dioxide powder; 2% of bonding resin; one part of protective film; one part of water aqua.

A production process of a novel efficient shading glass curtain wall material comprises the following steps:

s1, dividing the silicone oil into one part, two parts and three parts, adding polyimide into the first part of the silicone oil, stirring, standing for 30 minutes, volatilizing to be planar, and poking small holes to eliminate bubbles generated during stirring;

s2, adding a second part of silicone oil into the carbon black for mixing, adding a water aqua into the carbon black for uniformly mixing, adding the mixture into a mixture of the first part of silicone oil and the second part of silicone oil for stirring, putting the mixture into a high-pressure machine for pressurizing, and removing redundant water;

s3, stirring and filtering the dispersing agent, adding the filtered dispersing agent into the silicon oil mixture, stirring for 20 minutes by high-speed dispersion, adding a third part of silicon oil and 10% of carbon dioxide powder, mixing, and continuously stirring by a high-speed dispersion machine until the color is uniform;

s4, pouring the stirred silicone oil mixture into a plane grinding tool, leveling the silicone oil mixture into a film shape by using a roller, enabling the topmost side of the silicone oil mixture to be flush with the edge of the plane grinding tool, and scraping the part beyond the plane grinding tool;

s5, placing the plane grinding tool filled with the silicon oil mixture into a high-temperature baking oven for 20 minutes, standing for 30 minutes to form a crystal plate, manufacturing the silicon oil mixture crystal plate of the 5-layer plane grinding tool as above, and cleaning with an aqueous solution to remove redundant black smoke;

s6, after stacking and mixing the five crystal plates, brushing bonding resin between the side walls of the crystal plates and spreading the bonding resin evenly, after high-temperature pressurization and standing for 24 hours, erecting the finished product and carrying out gravity test until the bonding of the crystal plates is not dispersed.

The working principle is as follows: in use, as shown in fig. 1 and 4, the side wall of the movable plate 1 is pressed downward, the bottom side wall of the movable plate 1 can press the rotating mechanism 2 downward, after the top of the rotating mechanism 2 is pressed, the top side wall of the rotating mechanism 2 is pressed, so that the side wall of the rotating mechanism 2 is compressed downward, the inside of the rotating mechanism 2 comprises a connecting pipe 211 and a sliding ring 215, the inside wall of the sliding ring 215 is pulled outward, the inside wall of the sliding ring 215 is connected with a supporting pipe 212 in a penetrating manner, the side wall of the supporting pipe 212 is connected to the inside wall of the sliding ring 215 in a sliding manner, the side wall of the sliding ring 215 can slide outward along the side wall of the supporting pipe 212 when extending outward, the side wall of the supporting pipe 212 is shortened to the inside of the sliding ring 215, the outer end of the supporting pipe 212 is provided with balls 213, the side wall of the balls 213 is limited at the outside wall of the movable plate 1, the inside wall of the movable plate 1 is pressed outward, the inner ring of the movable plate 1 can only extend outwards, the outer ring of the movable plate 1 and the side wall of the inner ring are squeezed, the outer ring of the movable plate 1 can be compressed to form wrinkles, so that the side wall of the half-ring plate 101 can be squeezed outwards to rotate, the side wall of the half-ring plate 101 rotates upwards to be hooked, the side wall of the connecting pipe 211 can be knocked, the side wall of the connecting pipe 211 is knocked towards the side wall, the outer end of the connecting pipe 211 is knocked towards the side wall of the dislocation mechanism 7, the opening of the dislocation mechanism 7 can be increased by knocking in the cutting process, and small particles can be sucked and tightened quickly during operation;

as shown in fig. 1-2, when the sidewall of the displacing mechanism 7 is collided, the top end of the displacing mechanism 7 will drive the sidewall of the elastic tube 611 to swing, the sidewall of the elastic tube 611 tears to the left, after the top end of the elastic tube 611 and the sidewall of the connecting column 615 are separated, the sidewall of the connecting column 615 tears the sidewall of the central column 617, the sidewall of the central column 617 pulls the sidewall of the needle bar 616 outwards, the sidewall of the needle bar 616 tilts upwards and stands up, the bottom end of the needle bar 616 pulls the sidewall of the elastic tube 611 upwards, the sidewall of the elastic tube 611 will be intermittently influenced by the pulling of the needle bar 616 to elastically impact the right end of the connecting column 615 upwards, the right end of the connecting column 615 tilts upwards to lift the bottom sidewall of the movable ball 612, the sidewall of the movable ball 612 impacts the sidewall of the channel tube 613, outside air is pushed into the channel tube 613, and the inside air of the channel tube 613 is filled into the segment tube 614, the side wall of the segment pipe 614 bulges to the periphery, at the moment, a crack at the side wall of the segment pipe 614 is burst open, the internal gas is extruded outwards and blown to the circumferential outer side wall of the movable plate 1, and at the moment, when the side wall of the movable plate 1 slides downwards, the surrounding dust can be prevented from approaching;

as shown in fig. 1 and 3, the side wall of the misalignment mechanism 7 is collided, when the rack 711 included in the misalignment mechanism 7 is collided and is limited by the movable ring 513, the side wall of the rack 711 is only closed to the axis of the inner side wall, when the rack 711 compresses the side wall of the transparent mesh 712, the side wall of the support block 511 swings back and forth along with the side wall of the rack 711, at this time, the side wall of the transparent mesh 712 bulges upward, the top side wall of the transparent mesh 712 shrinks due to the shrinkage toward one position, the side wall of the transparent mesh 712 can jack up the side wall of the staple 715, the side wall of the staple 715 is changed from an inclined state to a vertical state, the side wall of the staple 714 is pushed upward, at this time, the side wall of the transparent mesh 712 becomes transparent due to the poking at the side wall of the staple 715, and the operation of the caliper is prevented from being blocked and being unable to operate smoothly in the process of collecting particles.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.