阅读说明：本技术 一种多曲安全性钢化玻璃成型设备 (Multi-curve safety toughened glass forming equipment ) 是由 张序峰 高虎 刘军明 武孟孟 于 2020-08-13 设计创作，主要内容包括：本发明公开了一种多曲安全性钢化玻璃成型设备,包括机架：所述机架的内壁底端设置有若干个沿玻璃输送方向分布的下成型流水线,且下成型流水线由若干个垂直于玻璃输送方向分布的下成型机构组成,所述下成型机构包括下调节组件和进风组件；所述机架的内壁顶端设置有若干个沿玻璃输送方向分布的上成型流水线,且上成型流水线由若干个垂直于玻璃输送方向分布的上成型机构组成,所述上成型机构包括上调节组件和上进风组件。本发明中,该钢化玻璃成型设备采用若干个相对独立分布的调节单元,配合上成型机构和下成型结构的同步调节方式,可以在机架内形成不同弯曲程度和形状的玻璃成型空间,可以实现钢化玻璃双曲面、多曲面的成型加工。(The invention discloses a multi-curve safety toughened glass forming device, which comprises a rack: the bottom end of the inner wall of the rack is provided with a plurality of lower forming assembly lines distributed along the glass conveying direction, each lower forming assembly line consists of a plurality of lower forming mechanisms distributed perpendicular to the glass conveying direction, and each lower forming mechanism comprises a lower adjusting assembly and an air inlet assembly; the inner wall top of frame is provided with the last shaping assembly line that a plurality of distributes along glass direction of delivery, and goes up the shaping assembly line and constitute by the last forming mechanism that a plurality of perpendicular to glass direction of delivery distributes, it includes adjusting part and last air inlet assembly to go up forming mechanism. According to the toughened glass forming equipment, a plurality of adjusting units which are relatively independently distributed are adopted, and the glass forming spaces with different bending degrees and shapes can be formed in the frame by matching with a synchronous adjusting mode of the upper forming mechanism and the lower forming mechanism, so that the toughened glass forming equipment can realize the forming processing of double curved surfaces and multiple curved surfaces.)

1. The utility model provides a crooked safety toughened glass former more, includes frame (2), its characterized in that:

the bottom end of the inner wall of the rack (2) is provided with a plurality of lower forming assembly lines distributed along the glass conveying direction, and each lower forming assembly line consists of a plurality of lower forming mechanisms (8) distributed perpendicular to the glass conveying direction;

the lower forming mechanism (8) comprises a lower adjusting component (82) which is arranged at the bottom end of the inner wall of the rack (2) and is lifted and descended in a direction vertical to the glass conveying direction, and a lower air inlet component (81) which blows air to the lower part of the glass is arranged on the lower adjusting component (82);

the top end of the inner wall of the rack (2) is provided with a plurality of upper forming assembly lines distributed along the glass conveying direction, and each upper forming assembly line consists of a plurality of upper forming mechanisms (7) distributed perpendicular to the glass conveying direction;

the upper forming mechanism (7) comprises an upper adjusting component (72) which is arranged at the top end of the inner wall of the rack (2) and is lifted in a direction vertical to the glass conveying direction, and an upper air inlet component (71) blowing air to the upper side of the glass is arranged on the upper adjusting component (72).

2. The apparatus for forming a multi-curved safety tempered glass as claimed in claim 1, wherein: the lower forming mechanism (8) and the upper forming mechanism (7) which are positioned on the same vertical line form a group of adjusting units, and the distance between the same group of adjusting units is kept consistent.

3. The apparatus for forming a multi-curved safety tempered glass as claimed in claim 1, wherein: lower adjusting part (82) include one set up lower lead screw (825) on frame (2), and lower lead screw (825) are connected with lower yoke plate (821) through lower nut seat (824), and the top of lower lead screw (825) is provided with down adjusting head (823), runs through on lower yoke plate (821) to be provided with flexible axle (826) of being connected with yoke plate (5) on frame (2), overlaps on flexible axle (826) to be equipped with gyro wheel (822).

4. The apparatus for forming a multi-curved safety tempered glass as claimed in claim 1, wherein: the lower air inlet assembly (81) comprises a lower air guide plate (812) arranged on the lower connecting plate (821), a plurality of lower air outlets (811) facing the lower surface of the glass are formed in the wedge-shaped surface of the lower air guide plate (812), and the inlet end of the lower air guide plate (812) is communicated with a lower fan (6) on the rack (2) through a lower air inlet pipe (813).

5. The apparatus for forming a multi-curved safety tempered glass as claimed in claim 1, wherein: the upper adjusting assembly (72) comprises an upper screw rod (724) arranged on the rack (2), the upper screw rod (724) is connected with the upper connecting plate (721) through an upper nut seat (723), and an upper adjusting head (722) is arranged at the bottom of the upper screw rod (724).

6. The apparatus for forming a multi-curved safety tempered glass as claimed in claim 1, wherein: the upper air inlet component (71) comprises an upper air guide plate (712) arranged on the upper connecting plate (721), the wedge-shaped surface of the upper air guide plate (712) is provided with a plurality of upper air outlets (713) facing the upper surface of the glass, and the inlet end of the upper air guide plate (712) is communicated with an upper fan (3) on the rack (2) through the upper air inlet pipe (711).

7. The apparatus for forming a multi-curved safety tempered glass as claimed in claim 1, wherein: the device also comprises a feeding mechanism (4);

the feeding mechanism (4) comprises a feeding slide way (44) arranged on the outer wall of a feeding opening of the frame (2), a feeding motor (41) is arranged on the feeding slide way (44), the feeding motor (41) is connected with a driving roller (42) in the feeding slide way (44), and a driven roller (43) is arranged in the feeding slide way (44) and above the driving roller (42).

8. The apparatus for forming a multi-curved safety tempered glass as claimed in claim 1, wherein: the automatic blanking machine also comprises a blanking mechanism (1);

the blanking mechanism (1) comprises a blanking slide way (11) arranged on the outer wall of the blanking opening of the frame (2), and a blanking roller (12) is arranged on the inner wall of the blanking slide way (11).

Technical Field

The invention relates to the technical field of glass deep processing, in particular to multi-curve safety toughened glass forming equipment.

Background

Along with the development of the building industry and the improvement of the building technology level, more and more glass curtain wall projects with high technical content, complex shape and beautiful appearance are provided, in order to meet the installation requirements of building walls with different curved surfaces, toughened glass with different curved surfaces needs to be produced, and therefore, the toughened glass needs to be subjected to curved surface processing treatment when being formed.

The existing toughened glass curved surface processing equipment can only realize the J-shaped and ball-shaped structure of glass, when hyperbolic and multi-curved steel is formed and changed, the curved surface processing of the glass can not be realized, large-size glass can only be split into a plurality of small pieces of glass for splicing, the split glass has poor integrity and limited attractiveness, and the structure has poor fitting performance and can not meet the technical requirements of safety and attractiveness.

Disclosure of Invention

The invention aims to solve the defects in the prior art, and provides a multi-curve safety toughened glass forming device which can independently and comprehensively adjust a curved surface processing structure and realize multi-curved surface toughened glass processing.

In order to achieve the purpose, the invention adopts the following technical scheme: the utility model provides a crooked safety toughened glass former more, includes the frame:

the bottom end of the inner wall of the rack is provided with a plurality of lower forming assembly lines distributed along the glass conveying direction, and each lower forming assembly line consists of a plurality of lower forming mechanisms distributed perpendicular to the glass conveying direction;

the lower forming mechanism comprises a lower adjusting component which is arranged at the bottom end of the inner wall of the frame and ascends and descends in a direction vertical to the glass conveying direction, and a lower air inlet component which blows air to the lower part of the glass is arranged on the lower adjusting component;

the top end of the inner wall of the rack is provided with a plurality of upper forming assembly lines distributed along the glass conveying direction, and each upper forming assembly line consists of a plurality of upper forming mechanisms distributed perpendicular to the glass conveying direction;

the upper forming mechanism comprises an upper adjusting assembly which is arranged at the top end of the inner wall of the frame and is lifted in a direction vertical to the glass conveying direction, and an upper air inlet assembly which blows air to the upper side of the glass is arranged on the upper adjusting assembly.

As a further description of the above technical solution:

the lower forming mechanism and the upper forming mechanism which are positioned on the same vertical line form a group of adjusting units, and the size of the distance between the same group of adjusting units is kept consistent.

As a further description of the above technical solution:

the lower adjusting component comprises a lower lead screw arranged on the rack, the lower lead screw is connected with a lower connecting plate through a lower nut seat, a lower adjusting head is arranged at the top of the lower lead screw, a flexible shaft connected with a connecting shaft plate on the rack is arranged on the lower connecting plate in a penetrating mode, and a roller is sleeved on the flexible shaft.

As a further description of the above technical solution:

the lower air inlet assembly comprises a lower air guide plate arranged on the lower connecting plate, a plurality of lower air outlets facing the lower surface of the glass are formed in the wedge-shaped surface of the lower air guide plate, and the inlet end of the lower air guide plate is communicated with a lower fan on the rack through a lower air inlet pipe.

As a further description of the above technical solution:

the upper adjusting assembly comprises an upper screw rod arranged on the rack, the upper screw rod is connected with the upper connecting plate through an upper nut seat, and an upper adjusting head is arranged at the bottom of the upper screw rod.

As a further description of the above technical solution:

the upper air inlet assembly comprises an upper air deflector arranged on the upper yoke plate, a plurality of upper air outlets facing the upper surface of the glass are formed in the wedge-shaped surface of the upper air deflector, and the inlet end of the upper air deflector is communicated with an upper air blower on the rack through an upper air inlet pipe.

As a further description of the above technical solution:

the device also comprises a feeding mechanism;

the feeding mechanism comprises a feeding slide arranged on the outer wall of a feeding hole of the frame, a feeding motor is arranged on the feeding slide, the feeding motor is connected with a driving roller in the feeding slide, and a driven roller is arranged in the feeding slide and above the driving roller.

As a further description of the above technical solution:

the automatic feeding device also comprises a feeding mechanism;

the blanking mechanism comprises a blanking slide arranged on the outer wall of the frame blanking port, and a blanking roller is arranged on the inner wall of the blanking slide.

The invention provides a multi-curve safety toughened glass forming device. The method has the following beneficial effects:

(1) the toughened glass forming equipment adopts a plurality of adjusting units which are relatively independently distributed, and can form glass forming spaces with different bending degrees and shapes in the frame by matching with a synchronous adjusting mode of the upper forming mechanism and the lower forming structure, so that the double curved surfaces and the multi-curved surfaces of the toughened glass can be formed, and the processing range and the efficiency of the toughened glass are enlarged.

(2) This toughened glass former adopts synchronous movement's last air inlet subassembly and lower air inlet subassembly, can be after the regulating unit is adjusted for the air outlet of the upper and lower air inlet subassembly in the same group regulating unit is unanimous with glass's distance size, thereby ensures that toughened glass receives the wind pressure of equidimension from top to bottom, has further improved toughened glass's machining efficiency.

Drawings

FIG. 1 is a schematic view of the overall structure of a multiple-curve safety tempered glass forming apparatus according to the present invention;

FIG. 2 is a schematic view of the internal structure of the blanking mechanism of the present invention;

FIG. 3 is a schematic view of the internal structure of the feeding mechanism of the present invention;

FIG. 4 is a schematic view of a partial positional relationship between an upper molding mechanism and a lower molding mechanism according to the present invention;

FIG. 5 is a schematic structural view of an upper molding mechanism according to the present invention;

FIG. 6 is a schematic structural view of the lower molding mechanism of the present invention.

Illustration of the drawings:

1. a blanking mechanism; 11. a blanking slideway; 12. a blanking roller; 2. a frame; 3. a fan is arranged; 4. a feeding mechanism; 41. a feeding motor; 42. a drive roll; 43. a driven roller; 44. a feeding slideway; 5. a coupling plate; 6. a lower fan; 7. an upper forming mechanism; 71. an upper air intake assembly; 711. an upper air inlet pipe; 712. an upper air deflector; 713. an upper air outlet; 72. an upper adjustment assembly; 721. an upper yoke plate; 722. an upper adjusting head; 723. an upper nut seat; 724. a screw rod is arranged; 8. a lower forming mechanism; 81. a lower air intake assembly; 811. a lower air outlet; 812. a lower air deflector; 813. a lower air inlet pipe; 82. a lower adjustment assembly; 821. a lower yoke plate; 822. a roller; 823. a lower adjustment head; 824. a lower nut seat; 825. a lower lead screw; 826. a flexible shaft.

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.

As shown in fig. 1, 4-6, a multi-curve safety tempered glass forming apparatus includes a frame 2:

the bottom end of the inner wall of the frame 2 is provided with a plurality of lower forming assembly lines distributed along the glass conveying direction, and each lower forming assembly line consists of a plurality of lower forming mechanisms 8 distributed perpendicular to the glass conveying direction;

the top end of the inner wall of the frame 2 is provided with a plurality of upper forming assembly lines distributed along the glass conveying direction, and each upper forming assembly line consists of a plurality of upper forming mechanisms 7 distributed perpendicular to the glass conveying direction;

the lower forming mechanism 8 comprises a lower adjusting component 82 which is arranged at the bottom end of the inner wall of the frame 2 and is lifted and descended vertical to the glass conveying direction, and a lower air inlet component 81 which blows air to the lower part of the glass is arranged on the lower adjusting component 82;

the upper forming mechanism 7 comprises an upper adjusting component 72 which is arranged at the top end of the inner wall of the frame 2 and is lifted and descended perpendicular to the glass conveying direction, and an upper air inlet component 71 which blows air to the upper side of the glass is arranged on the upper adjusting component 72.

Through the synchronous and independent regulation operation of adjusting part 82 and last adjusting part 72 down, can change down the curved surface shaping and the shape between shaping assembly line and the last shaping assembly line, thereby carry out the curved surface extrusion to the glass that enters into frame 2 interior heat softening back, the glass machine shaping demand of many curved surfaces has been satisfied, go up air inlet subassembly 71 and air inlet subassembly 81 down simultaneously and can follow adjusting part 72 respectively and adjust part 82 removal down, thereby keep both sides can receive the equal size wind pressure about the glass, ensure that glass can be by rapid cooling shaping.

As shown in fig. 1 and 4, the lower forming mechanism 8 and the upper forming mechanism 7 on the same vertical line form a group of adjusting units, and the size of the distance between the same group of adjusting units is kept consistent, so that the lower forming mechanism 8 and the upper forming mechanism 7 can perform uniform and comprehensive curved surface processing effect on the toughened glass, and the forming requirements of the toughened glass on different curved surface degrees and shapes are met.

As shown in fig. 6, the lower adjustment assembly 82 includes a lower screw 825 disposed on the frame 2 and rotatably connected to a bearing (not shown) on the frame 2, the lower screw 825 is connected to a lower yoke plate 821 through a lower nut seat 824, a lower adjustment head 823 is disposed on the top of the lower screw 825, a flexible shaft 826 connected to a shaft plate 5 on the frame 2 penetrates through the lower yoke plate 821, and a roller 822 is sleeved on the flexible shaft 826;

the lower air intake assembly 81 comprises a lower air deflector 812 arranged on a lower connecting plate 821, a plurality of lower air outlets 811 facing the lower surface of the glass are arranged on the wedge-shaped surface of the lower air deflector 812, the inlet end of the lower air deflector 812 is communicated with a lower fan 6 on the rack 2 through a lower air inlet pipe 813, and two rollers 822 are arranged on the same lower air deflector 812 and independently correspond to two lower screw rods 825 and a lower adjusting head 823;

when two lower adjusting heads 823 on the same lower air deflector 812 are rotated, the lower screw 825 is driven to rotate in the lower nut seat 824, at this time, the lower nut seat 824 converts the rotational driving force of the lower screw 825 into a linear driving force, and drives the lower connecting plate 821 to ascend and descend, meanwhile, when the roller 822 is pulled, the flexible shaft 826 at the position of the lifting roller 822 is pulled to deform, the height of the roller 822 on each lower air deflector 812 can be adjusted, different curved surface degrees are formed, the lower air outlet 811 ascends and descends, and under the driving of the lower fan 6, outside air is pumped into the air inlet pipe 813, and is blown to the lower surface of the tempered glass in a high-pressure state, so that the lower surface of the tempered glass is cooled.

As shown in fig. 5, the upper adjusting assembly 72 includes an upper screw 724 disposed on the frame 2, the top of the upper screw 724 is rotatably connected to a bearing (not shown) in the frame 2, the upper screw 724 is connected to the upper link plate 721 through an upper nut seat 723, and the bottom of the upper screw 724 is provided with an upper adjusting head 722;

the upper air inlet component 71 comprises an upper air deflector 712 arranged on the upper connecting plate 721, a wedge-shaped surface of the upper air deflector 712 is provided with a plurality of upper air outlets 713 facing the upper surface of the glass, an inlet end of the upper air deflector 712 is communicated with the upper fan 3 on the rack 2 through the upper air inlet pipe 711, and the same upper air deflector 712 is provided with two corresponding and independent upper screw rods 724 and an upper adjusting head 722;

when two upper adjusting heads 722 on the same upper air guide plate 712 are rotated, the upper adjusting heads 722 can drive the upper screw 724 to rotate, and under the action of the upper nut seat 723, the rotation driving force of the upper screw 724 is converted into a linear driving force, so that the upper air guide plate 712 is driven to move up and down, the upper air guide plate 712 is close to or far away from the upper surface of the toughened glass, the distance between the upper air outlet 713 and the upper surface of the toughened glass is ensured to be consistent with the distance between the lower air outlet 811 and the lower surface of the toughened glass, at the moment, the upper fan 3 extracts outside air to enter the upper air inlet pipe 711, and the upper surface of the toughened glass is cooled.

As shown in fig. 1 and 3, the feeding device further includes a feeding mechanism 4, the feeding mechanism 4 includes a feeding slideway 44 disposed on an outer wall of a feeding port of the frame 2, the feeding slideway 44 is provided with a feeding motor 41, the feeding motor 41 is connected with a driving roller 42 in the feeding slideway 44, a plurality of driving rollers 42 are connected by chain transmission, a driven roller 43 is disposed in the feeding slideway 44 and above the driving roller 42, and is parallel to the driving roller 42;

the toughened glass original sheet is placed on the driving roller 42 in the feeding slideway 44, the feeding motor 41 is started to drive the driving roller 42 to rotate, and the toughened glass original sheet can be uniformly and stably conveyed into the rack 2 to be processed by matching with the clamping rolling action of the driven roller 43.

As shown in fig. 1 and 2, the glass plate blanking device further comprises a blanking mechanism 1, wherein the blanking mechanism 1 comprises a blanking slide 11 arranged on the outer wall of the blanking opening of the frame 2, the inner wall of the blanking slide 11 is provided with a plurality of blanking rollers 12, the number of the blanking rollers 12 is a plurality, and the blanking rollers are all positioned on the same horizontal plane, so that the toughened glass formed in the frame 2 can be blanked, and subsequent collection and packaging are facilitated.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.