CN114986720A - Method and device for producing intelligent dimming hollow mosaic glass - Google Patents

Abstract

The invention discloses a method and a device for producing intelligent dimming hollow mosaic glass, which comprises a stand, a trapezoidal plate and a cutting assembly arranged on the stand, wherein a first slide rail is horizontally arranged on the stand, the trapezoidal plate is arranged on the stand far away from the first slide rail, one end of the trapezoidal plate close to the stand is provided with a triangular plate, one end of the triangular plate is inserted on the inner wall of an arc groove through a second movable rod, one end of the triangular plate far away from the second movable rod is provided with a connecting plate, a driving turntable rotates, the first movable rod is in sliding fit with a crank groove, a supporting rod is convenient to drive to move, a cutting tool is favorable for cutting a glass main body to be cut, when a chamfer of the arc groove is in sliding extrusion with the second movable rod, the connecting plate connected with one end of the triangular plate is favorable for realizing vertical movement, the driving connecting plate is convenient for driving a pressing plate to press the cut glass main body on a guide roller, thereby achieving separation between the two cut glass bodies.

Description

Method and device for producing intelligent dimming hollow mosaic glass

Technical Field

The invention relates to the technical field of glass production, in particular to a method and a device for producing intelligent dimming hollow mosaic glass.

Background

The dimming glass is a functional laminated glass product which is formed by laminating a high-tech liquid crystal film between two layers of glass and processing the two layers of glass at high temperature and high pressure. The hollow glass is a good heat-insulating, sound-insulating, beautiful and practical novel building material, and is high-efficiency sound-insulating and heat-insulating glass supported by two toughened glass single sheets and an aluminum alloy frame containing a drying agent which are bonded and sealed by adopting a high-strength and high-airtightness composite binder.

The intelligent dimming hollow glass is difficult to perform good sealing treatment on the toughened glass in the production process, so that the strength of the intelligent dimming hollow glass is weakened, and the service life of the intelligent dimming hollow glass is also shortened.

When intelligent dimming hollow glass in the related art is processed and produced, the intelligent dimming hollow glass needs to be cut, so that the requirements of people on different specifications are met, at present, most of dimming hollow glass adopts mechanical automatic cutting, but the dimming hollow glass is difficult to be synchronously separated in the automatic cutting process, the dimming hollow glass after cutting is still adhered together, the glass cutting efficiency is reduced to a certain extent, and therefore, an intelligent dimming hollow mosaic glass production method and device are provided for solving the problems.

Disclosure of Invention

The invention aims to provide a method and a device for producing intelligent dimming hollow mosaic glass, which aim to solve the technical problem that the dimming hollow glass during cutting is inconvenient to synchronously separate in the background.

In order to achieve the purpose, the invention provides the following technical scheme: a production method of intelligent dimming hollow mosaic glass comprises the following steps:

s1, taking out and cutting two pieces of tempered glass prepared in advance, polishing the two pieces of tempered glass into the same size, and cleaning and drying the tempered glass for later use;

s2, placing the color-changing layer between two pieces of toughened glass;

s3, carrying out primary sealing treatment on the two pieces of placed toughened glass to form a first sealing layer between the two pieces of toughened glass;

s4, opening a hole in the first sealing layer, forming an air inlet hole and an air outlet hole, introducing argon into the air inlet hole until air in the hollow layer between the two pieces of glass is completely discharged, blocking the air outlet hole, continuously introducing argon into the air inlet hole until the pressure in the hollow layer rises to a preset threshold value, and blocking the air inlet hole;

and S5, carrying out secondary sealing treatment on the two pieces of glass after exhaust and pressurization to form a second sealing layer between the two pieces of glass, thereby obtaining the intelligent dimming hollow mosaic glass.

The invention also provides an intelligent dimming hollow mosaic glass production device, which is applied to the intelligent dimming hollow mosaic glass production method, the production device is used for cutting glass in the step S1, and the intelligent dimming hollow mosaic glass production device comprises: the cutting device comprises a vertical frame, a trapezoidal plate and a cutting assembly arranged on the vertical frame, wherein a first sliding rail is horizontally arranged on the vertical frame, the trapezoidal plate is arranged on the vertical frame far away from the first sliding rail, one end, close to the vertical frame, of the trapezoidal plate is provided with a triangular plate, one end of the triangular plate is inserted on the inner wall of an arc groove through a second movable rod, one end, far away from the second movable rod, of the triangular plate is provided with a connecting plate, the bottom end of the connecting plate is fixedly connected with a pressing plate parallel to the first sliding rail, when the second movable rod is in sliding contact with the arc inner wall of the arc groove, the connecting plate connected with one end of the triangular plate moves downwards, the front surface of the vertical frame is inlaid with a turntable, the two ends of the first turntable are respectively provided with a crank groove and the arc groove, the crank groove is in sliding extrusion with the first movable rod, the cutting assembly comprises a supporting rod, and the bottom end of the supporting rod is fixedly connected with a second sliding plate, the second sliding plate is movably clamped on the first sliding rail, and a cutting tool is arranged on the surface of the second sliding plate.

According to the technical scheme, the vertical frame is movably provided with a V-shaped plate, a first movable rod is arranged at one protruding end of the V-shaped plate, the first movable rod is inserted into the crank groove formed in the rotary table, and the other protruding end of the V-shaped plate is connected with the supporting rod.

According to the technical scheme, the motor is installed on the top end of the trapezoidal plate, and the output end of the motor is fixedly connected with the disk center of the rotary disk.

According to the technical scheme, the surface of the second sliding plate is provided with two opposite fixing plates, the bottom ends of the two fixing plates are provided with the elastic springs, and one ends, far away from the corresponding fixing plates, of the two elastic springs are connected with the cleaning wheels.

According to the technical scheme, a sliding block is arranged at one end, away from the vertical frame, of the connecting plate, the sliding block penetrates through the trapezoidal plate and is fixedly connected with a sucking disc, and the sucking disc is parallel to the pressing plate.

According to the technical scheme, one side of the trapezoidal plate close to the stand is provided with two second slide rails perpendicular to the first slide rails, two first slide plates are arranged at two ends of one side of the pressing plate opposite to the trapezoidal plate and connected with the second slide rails in a sliding mode, and sliding grooves matched with the slide blocks are formed in the plate body of the trapezoidal plate.

According to the technical scheme, the through hole matched with the rotary table is formed in the vertical frame, the base plate is arranged at the bottom end of the vertical frame, a plurality of guide rollers are arranged on the base plate, clamping plates are connected to the base plates at two ends of the guide rollers through springs, and the clamping plates are in contact with the guide rollers.

Compared with the prior art, the invention has the beneficial effects that:

1. the intelligent dimming hollow mosaic glass is subjected to twice sealing treatment, the whole sealing effect is improved, meanwhile, appropriate argon is flushed into the hollow layer, the strength of the glass is increased, the daily use stability of the intelligent dimming hollow mosaic glass is improved, and the service life is prolonged.

2. Rotate through the drive carousel, at the sliding fit in first movable rod and crank groove, be convenient for drive branch and remove, finally drive the cutting tool synchronous motion of second slide and setting, cutting tool's horizontal migration is convenient for cut the glass main part of required cutting, when the chamfer department in circular arc groove slides the extrusion with the second movable rod, be favorable to realizing carrying out vertical movement to the linkage plate that set square one end is connected, driven linkage plate is convenient for drive the clamp plate and presses down the glass main part after cutting on the deflector roll, thereby reach the separation between two glass main parts after the cutting.

3. The cooperation of spring and cleaning wheel is used, avoids causing the damage to the glass surface, also is convenient for clear up the glass body surface of cutting simultaneously, and the sucking disc that sets up is convenient for adsorb with the glass main part after the cutting, has ensured that the perk can not take place for the glass main part after the cutting, is favorable to the stability of cutting back glass main part.

Drawings

Fig. 1 is a schematic flow chart of a method for producing an intelligent dimming hollow mosaic glass according to embodiment 1 of the present invention.

FIG. 2 is a schematic diagram showing the detailed structure of the apparatus for producing intelligent dimming hollow mosaic glass of the present invention.

Fig. 3 is a schematic structural diagram of fig. 2 at another view angle.

Fig. 4 is a schematic structural diagram of the cutting assembly in fig. 2.

Fig. 5 is a detailed structural diagram of the inner wall of the trapezoidal plate in fig. 3.

In the figure: 1. erecting a frame; 11. a V-shaped plate; 111. a first movable bar; 12. a turntable; 121. a crank groove; 13. a first slide rail; 14. a splint; 15. a guide roller; 16. a motor; 17. an arc groove; 2. a trapezoidal plate; 21. a chute; 22. a slider; 23. a suction cup; 24. a set square; 25. a second movable bar; 26. a connector tile; 27. pressing a plate; 28. a second slide rail; 29. a first slide plate; 3. a cutting assembly; 31. a strut; 32. a second slide plate; 33. a fixing plate; 34. a spring; 35. cutting a cutter; 36. and cleaning the wheels.

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.

Example 1

The embodiment provides a technical scheme, and the method for producing the intelligent dimming hollow mosaic glass comprises the following steps:

s1, taking out and cutting two pieces of tempered glass prepared in advance, polishing the two pieces of tempered glass into the same size, and cleaning and drying the tempered glass for later use;

s2, placing the color-changing layer between two pieces of toughened glass, wherein the color-changing layer is composed of a plastic film bag, the plastic film bag is selected from one of polyester, copolyester, polypropylene, polyethylene, nylon and polycarbonate, the thickness of the plastic film bag is 0.06-0.23 mm, a transistor is arranged at the bottom end of the color-changing layer, and the transistor is connected with an external power supply through a lead;

s3, carrying out primary sealing treatment on the two pieces of placed toughened glass to form a first sealing layer between the two pieces of toughened glass;

s4, opening a hole in the first sealing layer, forming an air inlet hole and an air outlet hole, introducing argon into the air inlet hole until air in a hollow layer between the two pieces of glass is completely discharged, then plugging the air outlet hole, wherein the air inlet hole is arranged at the bottom, the air outlet hole is arranged at the top end, plugging is carried out through super glue, and the argon is continuously introduced into the air inlet hole until the pressure in the hollow layer rises to a preset threshold value (the threshold value is in the range of 175-185 MPa), and at the moment, the air inlet hole is plugged;

and S5, carrying out secondary sealing treatment on the two pieces of glass after exhaust and pressurization to form a second sealing layer between the two pieces of glass, thereby obtaining the intelligent dimming hollow mosaic glass.

Example 2

Referring to fig. 2 to 5, the present embodiment further provides an intelligent dimming hollow embedded glass production apparatus applied to the intelligent dimming hollow embedded glass production method of embodiment 1, the production apparatus includes a stand 1, a trapezoidal plate 2 and a cutting assembly 3 installed on the stand 1, a first slide rail 13 is horizontally arranged on the stand 1, the trapezoidal plate 2 is installed on the stand 1 far away from the first slide rail 13, one end of the trapezoidal plate 2 close to the stand 1 is provided with a triangular plate 24, one corner of the triangular plate 24 is inserted on the trapezoidal plate 2 through a rotating shaft, one end of the triangular plate 24 is inserted on the inner wall of the circular arc groove 17 through a second movable rod 25, the chamfered corner of the circular arc groove 17 is slidingly extruded with the second movable rod 25, so as to conveniently drive the triangular plate 24 to rotate, one end of the triangular plate 24 far away from the second movable rod 25 is provided with a connecting plate 26, the connecting plate 26 is vertically arranged on the inner wall of the trapezoidal plate 2, the bottom fixedly connected with of linking board 26 has clamp plate 27 parallel with first slide rail 13, the clamp plate 27 of setting is convenient for press the glass main part after the cutting, thereby make glass main part separate, when second movable bar 25 and 17 arc inner walls sliding contact in circular arc groove, the linking board 26 that 24 one ends of set-square are connected moves down, the removal and then synchronous pressing board 27 of linking board 26, carousel 12 has been inlayed in the front of grudging post 1, carousel 12 activity is inlayed on the support body of grudging post 1, crank groove 121 and circular arc groove 17 have been seted up respectively at the both ends of first carousel 12, crank groove 121 and first movable bar 111 slide extrusion, driven carousel 12 is convenient for drive crank groove 121 and circular arc groove 17 synchronous rotation in step.

Cutting assembly 3 includes branch 31, branch 31 bottom fixedly connected with second slide 32, second slide 32 activity joint is on first slide rail 13, and the surface of second slide 32 is equipped with cutting tool 35, drive branch 31, make its second slide 32 through the bottom connection move on first slide rail 13, be convenient for drive the cutting tool 35 synchronous motion that sets up on the second slide 32, cutting tool 35's horizontal migration is convenient for cut the glass main part of required cutting.

The activity is equipped with V-arrangement board 11 on grudging post 1, the outstanding one end of V-arrangement board 11 is equipped with first movable rod 111, first movable rod 111 is inserted and is established in crank groove 121 on carousel 12, the outstanding other end of V-arrangement board 11 is connected with branch 31, drive carousel 12 rotates, because the first movable rod 111 that V-arrangement board 11 was served inserts and is established in crank groove 121, pivoted carousel 12 is convenient for drive V-arrangement board 11, be favorable to realizing the branch 31 that the synchronous drive V-arrangement board 11 other end is connected.

The motor 16 is installed on the top of trapezoidal plate 2, the output end of motor 16 and the center of a plate of carousel 12 fixed connection, and motor 16 is connected with trapezoidal plate 2 through two connecting rods, and driving motor 16 work is convenient for drive carousel 12 and rotates.

The surface of second slide 32 is equipped with two relative fixed plates 33, and the bottom of two fixed plates 33 all is equipped with spring 34, and the one end that corresponding fixed plate 33 was kept away from to two spring springs 34 all is connected with clean wheel 36, and clean wheel 36 can think the contact with the glass main part, and spring 34 uses with clean wheel 36's cooperation, avoids causing the damage to the glass surface, also is convenient for clear up the glass body surface of cutting simultaneously.

One end that founding frame 1 was kept away from to joint fishplate bar 26 is equipped with slider 22, slider 22 runs through trapezoidal plate 2 and fixedly connected with sucking disc 23, sucking disc 23 parallels with clamp plate 27, driven joint fishplate bar 26 becomes to be convenient for drive slider 22, thereby drive sucking disc 23 synchronous motion of connection, when clamp plate 27 and glass main part extrusion contact, the sucking disc 23 of setting is convenient for adsorb with the glass main part after the cutting, the perk can not take place for the glass main part after having ensured the cutting, be favorable to the stability of glass main part after the cutting.

One side that trapezoidal plate 2 is close to grudging post 1 is equipped with two and first slide rail 13 looks vertically second slide rail 28, one side both ends of the relative trapezoidal plate 2 of clamp plate 27 all are equipped with first slide 29, two first slides 29 all with two second slide rail 28 looks slip joint, and seted up on the plate body of trapezoidal plate 2 with slider 22 matched with spout 21, first slide 29 that driven clamp plate 27 drove both ends moves on corresponding second slide rail 28, be favorable to guaranteeing clamp plate 27 vertical migration's stability, the spout 21 that sets up is convenient for slider 22 that clamp plate 27 one end is connected and carries out synchronous motion, also be favorable to guiding slider 22's direction of drive simultaneously.

Set up on grudging post 1 with carousel 12 matched with through-hole (not shown in the figure), the bottom of grudging post 1 is equipped with base plate (not shown in the figure), be equipped with a plurality of deflector rolls 15 on base plate (not shown in the figure), all be connected with splint 14 through the spring on the base plate (not shown in the figure) at deflector roll 15 both ends, splint 14 contacts with a plurality of deflector rolls 15, carousel 12 rotates along through-hole (not shown in the figure) inner wall, be favorable to driving the movable rod in the cell body of both ends, glass main part moves on a plurality of deflector rolls 15, and splint 14's cooperation is used, be convenient for carry out stable transport to the glass main part on deflector roll 15.

The working principle is as follows: when the invention is used for processing the hollow glass to be polished, firstly, the glass main body is placed on a plurality of guide rollers 15 on the inner wall of a base plate (not shown), the spring is matched with a clamping plate 14 for use, so that the glass main body on the guide rollers 15 can be stably conveyed, when the glass main body on the guide rollers 15 is conveyed to a proper position, a driving motor 16 drives a rotary table 12 to rotate, the V-shaped plate 11 can be conveniently driven to move due to the sliding fit of a first movable rod 111 and a crank groove 121, the driven V-shaped plate 11 drives a support rod 31 with one end connected to move, and then a second sliding plate 32 connected with the bottom end of the support rod 31 is driven to move along a first sliding rail 13, so that a cutting tool 35 arranged on the second sliding plate 32 can be conveniently driven to synchronously move, the horizontal movement of the cutting tool 35 is convenient for cutting the glass main body to be cut, and the elastic spring 34 is matched with a cleaning wheel 36 for use, avoiding the buffer contact with the glass surface, simultaneously being convenient for cleaning the surface of the cut glass body, meanwhile, the driven turntable 12 can also drive the arc groove 17 to rotate, when the chamfer of the arc groove 17 is extruded with the second movable rod 25 in a sliding manner, the triangular plate 24 is driven to rotate, the vertical movement of the connecting plate 26 connected with one end of the triangular plate 24 is facilitated, the driven connecting plate 26 is convenient for synchronously driving the pressing plate 27 and the sliding block 22 to move, the moving pressing plate 27 can be extruded with the glass body cut on the guide roller 15, thereby make and separate between two glass main parts after the cutting, driven slider 22 is convenient for drive the sucking disc 23 that one end is connected, and the sucking disc 23 that sets up is convenient for adsorb with the glass main part after the cutting, has ensured that the perk can not take place for the glass main part after the cutting, is favorable to the stability of glass main part after the cutting.

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.

Claims (8)

1. A production method of intelligent dimming hollow mosaic glass is characterized by comprising the following steps:

s1, taking out and cutting two pieces of tempered glass prepared in advance, polishing the two pieces of tempered glass into the same size, and cleaning and drying the tempered glass for later use;

s2, placing the color-changing layer between two pieces of toughened glass;

s3, carrying out primary sealing treatment on the two pieces of placed toughened glass to form a first sealing layer between the two pieces of toughened glass;

s4, opening a hole in the first sealing layer, forming an air inlet hole and an air outlet hole, introducing argon into the air inlet hole until air in the hollow layer between the two pieces of glass is completely discharged, blocking the air outlet hole, continuously introducing argon into the air inlet hole until the pressure in the hollow layer rises to a preset threshold value, and blocking the air inlet hole;

and S5, carrying out secondary sealing treatment on the two pieces of glass after exhaust and pressurization to form a second sealing layer between the two pieces of glass, thereby obtaining the intelligent dimming hollow mosaic glass.

2. An intelligent light-adjusting hollow mosaic glass production device applied to the intelligent light-adjusting hollow mosaic glass production method as claimed in claim 1, wherein the production device is used for cutting glass in step S1, and the intelligent light-adjusting hollow mosaic glass production device comprises: stand (1), trapezoidal plate (2) and install cutting assembly (3) on stand (1), the level is equipped with first slide rail (13) on stand (1), trapezoidal plate (2) are installed and are kept away from on stand (1) of first slide rail (13), the one end that trapezoidal plate (2) are close to stand (1) is equipped with set square (24), the one end of set square (24) is inserted through second movable rod (25) and is established on circular arc groove (17) inner wall, the one end that second movable rod (25) were kept away from in set square (24) is equipped with linking plate (26), the bottom fixedly connected with of linking plate (26) with clamp plate (27) that first slide rail (13) parallel works as second movable rod (25) with when circular arc groove (17) arc inner wall sliding contact, linking plate (26) that set square (24) one end is connected move down, the front of grudging post (1) is inlayed and is had carousel (12), crank groove (121) and circular arc groove (17) have been seted up respectively to the both ends of first carousel (12), crank groove (121) and first movable rod (111) slide the extrusion, cutting assembly (3) are including branch (31), branch (31) bottom fixedly connected with second slide (32), second slide (32) activity joint is in on first slide rail (13), just the surface of second slide (32) is equipped with cutting tool (35).

3. The intelligent dimming hollow mosaic glass production device of claim 2, wherein: the movable V-shaped plate (11) is movably arranged on the stand (1), a first movable rod (111) is arranged at one end, protruding out of the V-shaped plate (11), of the first movable rod (111) and is inserted into the crank groove (121) on the rotary table (12), and the other end, protruding out of the V-shaped plate (11), of the first movable rod is connected with the supporting rod (31).

4. The apparatus for producing intelligent dimming hollow mosaic glass according to claim 2, wherein: the top end of the trapezoidal plate (2) is provided with a motor (16), and the output end of the motor (16) is fixedly connected with the disc center of the rotary disc (12).

5. The apparatus for producing intelligent dimming hollow mosaic glass according to claim 2, wherein: the surface of the second sliding plate (32) is provided with two opposite fixing plates (33), the bottom ends of the two fixing plates (33) are provided with spring springs (34), and one ends, far away from the corresponding fixing plates (33), of the two spring springs (34) are connected with cleaning wheels (36).

6. The apparatus for producing intelligent dimming hollow mosaic glass according to claim 2, wherein: one end of the connecting plate (26) far away from the stand (1) is provided with a sliding block (22), the sliding block (22) penetrates through the trapezoidal plate (2) and is fixedly connected with a sucking disc (23), and the sucking disc (23) is parallel to the pressing plate (27).

7. The apparatus for producing intelligent dimming hollow mosaic glass according to claim 6, wherein: trapezoidal plate (2) be close to one side of grudging post (1) be equipped with two with first slide rail (13) looks vertically second slide rail (28), one side both ends of trapezoidal plate (2) relatively of clamp plate (27) all are equipped with first slide (29), two first slide (29) all with two second slide rail (28) looks slip joint, just seted up on the plate body of trapezoidal plate (2) with slider (22) matched with spout (21).

8. The apparatus for producing intelligent dimming hollow mosaic glass according to claim 2, wherein: seted up on grudging post (1) with carousel (12) matched with through-hole, the bottom of grudging post (1) is equipped with the base plate, be equipped with a plurality of deflector rolls (15) on the base plate, all be connected with splint (14) through the spring on the base plate at deflector roll (15) both ends, splint (14) and a plurality of deflector roll (15) contact.

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