CN218620603U - Deep-bending toughened glass forming device - Google Patents

Abstract

The application relates to the technical field of toughened glass forming, in particular to a deep-bending toughened glass forming device, which comprises a conveyer belt, a male die assembly and a female die assembly, wherein the female die assembly is arranged opposite to the male die assembly; the conveying direction of the conveying belt is the horizontal direction, the male die assembly is positioned above the conveying belt, a female die of the female die assembly is arranged on the horizontal plane around the conveying belt, the female die can move towards the male die assembly, the female die comprises a fixed forming frame and side forming frames, the side forming frames are tightly close to the fixed forming frame and are respectively arranged on two sides of the fixed forming frame, the side forming frames can rotate relative to the fixed forming frame, so that the female die has a glass lifting state and a glass forming state which can be mutually switched, and when the female die is in the glass forming state, the binding surfaces of the fixed forming frame and the side forming frames are matched to form an inwards concave forming surface; when the female die is switched from a glass lifting state to a glass forming state, the side forming frame rotates; when the female die is in a glass lifting state, the female die is used for jacking the glass to be formed. The application is suitable for forming deep-bending glass.

Description

Deep-bending toughened glass forming device

Technical Field

The utility model relates to a toughened glass shaping technical field especially relates to a deep-bending toughened glass forming device.

Background

At present, in the forming process of the rear side window glass of an automobile, the glass is hung on a mould trolley by using a hook, then the glass is vertically placed into a heating furnace body, the glass is heated to be softened, and finally the glass is lifted to a male mould and a female mould for compression forming. However, in this vertical production method, there are hook holes at the edge of the glass, which not only affects the aesthetic property of the glass appearance, but also damages the stress of the tempered glass, and increases the risk of spontaneous explosion of the glass.

In order to solve the problem, the automobile toughened glass can be produced by adopting a horizontal toughening method, a female die moves upwards and supports a glass plate, and the female die and a male die positioned above a horizontal conveying roller way are mutually extruded to finish the pressing of the final shape of the glass plate. In actual production, for deep-bending glass, because the glass arch height is large, for a female die of an integrated structure, when the female die descends to the lowest position, the highest point of the concave forming surface of the female die may be higher than the horizontal surface of the conveying roller, so that the glass to be formed cannot be conveyed and press-formed.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: the deep-bending toughened glass forming device can transmit and press-form deep-bending glass with a large arch height, and ensures the integrity and the aesthetic property of the glass.

In order to solve the technical problem, the utility model discloses a technical scheme be: a deep-bending toughened glass forming device comprises a conveying belt, a male die assembly and a female die assembly arranged opposite to the male die assembly;

the conveying direction of the conveying belt is the horizontal direction, the male die assembly is positioned above the conveying belt, female dies of the female die assembly are arranged on the horizontal plane and surround the conveying belt, the female dies can move towards the male die assembly, each female die comprises a fixed forming frame and side forming frames, the side forming frames are tightly close to the fixed forming frames and are respectively installed on two sides of the fixed forming frames, the side forming frames can rotate relative to the fixed forming frames, so that the female dies have a glass lifting state and a glass forming state which can be mutually switched, and when the female dies are in the glass forming state, binding surfaces of the fixed forming frames and the side forming frames are matched to form an inwards concave forming surface; when the female die is switched from the glass lifting state to the glass forming state, the side forming frame rotates; when the female die is in the glass lifting state, the female die is used for jacking the glass to be formed.

Further, the deep-bending toughened glass forming device further comprises a flat die mechanism located below the conveying belt, wherein the flat die mechanism comprises a flat die frame capable of moving in the vertical direction, the flat die frame is located in a space surrounded by the female die, and a gap is formed between the flat die frame and the female die.

Further, the female die assembly further comprises a first reciprocating device and a first mounting frame; the movable end of the first reciprocating device can move in the vertical direction, the movable end of the first reciprocating device is connected with the first mounting frame, the female die is arranged on the first mounting frame, and the fixed forming frame of the female die is connected with the first mounting frame.

Further, the female die assembly further comprises a first rail and a slide block arranged on the first rail in a sliding mode; the sliding direction of the sliding block is vertical, and the sliding block is connected with the movable end of the first reciprocating device and the first mounting frame respectively.

Further, the bed die still includes elevating system, the both sides of deciding the shaping frame are articulated have the side becomes the shaping frame, elevating system sets up on first mounting bracket, elevating system's expansion end is connected the side becomes the shaping frame.

Furthermore, the male die assembly comprises a male die, a second reciprocating device and a second mounting frame, the movable end of the second reciprocating device can move in the vertical direction, the second mounting frame is connected with the movable end of the second reciprocating device, and the male die is arranged on the second mounting frame.

Further, flat die mechanism still includes third reciprocating device and third mounting bracket, the translation rate of the expansion end of third reciprocating device is greater than the translation rate of the expansion end of first reciprocating device, the expansion end of third reciprocating device can remove along vertical direction, the expansion end of third reciprocating device is connected to the third mounting bracket, flat die frame sets up on the third mounting bracket.

Further, the flat die mechanism further comprises a second rail, the third installation frame is connected with the second rail in a sliding mode, and the sliding direction of the third installation frame is the vertical direction.

Further, the output end of the conveying belt is provided with a stop block.

Further, the conveyer belt is a roller conveyer.

The beneficial effects of the utility model reside in that: the utility model discloses a deep-bending toughened glass forming device, including conveyer belt, formpiston subassembly and with the bed die subassembly that the formpiston subassembly set up relatively, the direction of delivery of conveyer belt is the horizontal direction, the formpiston subassembly is located the top of conveyer belt, the bed die of bed die subassembly surrounds the conveyer belt setting on the horizontal plane, the bed die can move towards the formpiston subassembly, the bed die includes fixed shaping frame and side shaping frame, the side shaping frame tightly leans on fixed shaping frame and installs respectively in the both sides of fixed shaping frame, the side shaping frame can rotate relatively fixed shaping frame makes the bed die have lifting glass state and the glass forming state that can switch over each other, when the bed die is in when the glass forming state, fixed shaping frame with the binding face cooperation of side shaping frame forms the indent surface; when the female die is switched from the glass lifting state to the glass forming state, the side forming frame rotates; when the female die is in the glass lifting state, the female die is used for jacking the glass to be formed. The utility model discloses a bed die is split type structure, the bed die is in before the lifting glass state, the peak of bed die is less than the top of conveyer belt or flushes with the top of conveyer belt, consequently can transmit the deep-bending glass of big arch height, and works as the bed die is in during the glass shaping state, decide the shaping frame with the binding face cooperation of side shaping frame forms indent shaping face, the bed die cooperatees with the formpiston in order to press the shaping with glass, and then realizes under the condition that does not destroy glass integrality, accomplishes the deep-bending shaping to glass. In addition, the glass can be kept complete after being formed, so that the surface stress of the glass is not damaged, and the glass bursting risk is reduced.

Drawings

Fig. 1 is a schematic structural view of a deep-bending tempered glass forming device according to an embodiment of the present invention;

fig. 2 is a schematic partial structural view of a deep-bending tempered glass forming device according to an embodiment of the present invention;

description of reference numerals:

1. a conveyor belt; 11. a stopper;

2. a male die assembly; 21. a male mold; 22. a second reciprocating device; 23. a second mounting bracket;

3. a female die assembly; 31. a female die; 311. shaping a forming frame; 312. side forming frames; 313. a lifting mechanism; 32. a first reciprocating device; 33. a first mounting bracket; 34. a first track; 35. a slider;

4. a flat die mechanism; 41. a third reciprocating device; 42. a third mounting bracket; 43. flattening the mold frame; 44. a second track.

Detailed Description

In order to explain the technical contents, the objects and the effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.

Referring to fig. 1 and 2, the toughened glass forming apparatus of the present invention includes a conveyor 1, a male mold assembly 2, and a female mold assembly 3 disposed opposite to the male mold assembly 2;

the conveying direction of the conveying belt 1 is a horizontal direction, the male die assembly 2 is positioned above the conveying belt 1, female dies 31 of the female die assembly 3 are arranged around the conveying belt 1 on a horizontal plane, the female dies 31 can move towards the male die assembly 2, each female die 31 comprises a fixed forming frame 311 and side forming frames 312, the side forming frames 312 are abutted against the fixed forming frames 311 and are respectively installed on two sides of the fixed forming frames 311, the side forming frames 312 can rotate relative to the fixed forming frames 311, so that the female dies 31 have a glass lifting state and a glass forming state which can be switched mutually, and when the female dies 31 are in the glass forming state, the adhering surfaces of the fixed forming frames 311 and the side forming frames 312 are matched to form concave forming surfaces; when the female mold 31 is switched from the glass-lifting state to the glass-molding state, the side molding frame 312 rotates; when the female mold 31 is in the glass-lifting state, the female mold 31 is used to jack up the glass to be molded.

From the above description, the beneficial effects of the present invention are: the utility model discloses a bed die 31 is split type structure, before bed die 31 was in the lifting glass state, bed die 31's peak was less than conveyer belt 1's top or flushes with conveyer belt 1's top, consequently can transmit the deep bending glass of big arch height, and when bed die 31 was in the glass shaping state, the binding face cooperation of deciding into frame 311 and side shaping frame 312 formed the indent shaping face, bed die 31 cooperatees with formpiston subassembly 2 in order to press the shaping with glass, and then the realization is under the condition that does not destroy glass integrality, accomplish the deep bending shaping to glass. In addition, the glass can be kept complete after being formed, so that the surface stress of the glass is prevented from being damaged, and the glass bursting risk is reduced.

Referring to fig. 1 and 2, further, the forming apparatus for deep-bending tempered glass further includes a flat mold mechanism 4 located below the conveyor 1, the flat mold mechanism 4 includes a flat mold frame 43 capable of moving in a vertical direction, the flat mold frame 43 is located in a space surrounded by the female mold 31, and a gap is formed between the flat mold frame 43 and the female mold 31.

As can be seen from the above description, the glass can be assisted to be ejected off the conveyor 1 by the movement of the flat mold frame 43.

Referring to fig. 1, further, the female mold assembly 3 further includes a first reciprocating device 32 and a first mounting frame 33; the movable end of the first reciprocating device 32 can move along the vertical direction, the first mounting frame 33 is connected with the movable end of the first reciprocating device 32, the female die 31 is arranged on the first mounting frame 33, and the fixed forming frame 311 of the female die 31 is connected with the first mounting frame 33.

As can be seen from the above description, the female die assembly 3 drives the first mounting bracket 33 by the first reciprocating device 32 during operation, thereby moving the female die 31 in the vertical direction.

Referring to fig. 1, further, the female mold assembly 3 further includes a first rail 34 and a slide 35 slidably disposed on the first rail 34; the sliding direction of the sliding block 35 is vertical, and the sliding block 35 is connected to the movable end of the first reciprocating device 32 and the first mounting frame 33 respectively.

As can be seen from the above description, the moving direction of the female mold 31 can be further ensured by the movement of the slide block 35 on the first rail 34, so as to ensure the glass molding quality.

Referring to fig. 2, the female mold 31 further includes a lifting mechanism 313, two sides of the fixed forming frame 311 are hinged to the side forming frames 312, the lifting mechanism 313 is disposed on the first mounting frame 33, and a movable end of the lifting mechanism 313 is connected to the side forming frames 312.

As can be seen from the above description, the lifting mechanism 313 can be used to control the rotation angle of the side forming frame 312 relative to the fixed forming frame 311, and when the glass heated to be softened is delivered to the conveying belt 1, the side forming frame 312 can be lowered to the lower or level of the top of the conveying belt 1 by using the lifting mechanism 313, so as to ensure the normal conveying of the glass on the conveying belt 1.

The first reciprocating device 32 is used for jacking the glass to be formed when the female die 31 is in the glass lifting state in the process of driving the first mounting frame 33 to clamp the male die assembly 2 and the female die assembly 3, and preferably, a height difference of 6mm to 8mm is formed between the lowest point position of the side forming frame 312 and the highest point position of the fixed forming frame 311; when the female mold 31 is switched from the glass-lifting state to the glass-molding state, the side-molding frame 312 rotates, and due to the difference in height, the side-molding frame 312 of the female mold 31 first comes into contact with the male mold 21 to press the edge of the glass; and then the female die 31 continues to move upwards along the vertical direction until the lowest point position of the side forming frame 312 is flush with the highest point position of the fixed forming frame 311, when the female die 31 is in a glass forming state, the jointing surfaces of the fixed forming frame 311 and the side forming frame 312 are matched to form a concave forming surface, and the female die 31 and the male die 21 are mutually extruded to finish the pressing of the final shape of the glass.

Referring to fig. 1, further, the male mold assembly 2 includes a male mold 21, a second reciprocating device 22 and a second mounting frame 23, wherein a movable end of the second reciprocating device 22 can move in a vertical direction, the second mounting frame 23 is connected to the movable end of the second reciprocating device 22, and the male mold 21 is disposed on the second mounting frame 23.

As is apparent from the above description, the second mounting frame 23 is driven by the second reciprocating device 22 to move the male mold 21 in the vertical direction, thereby shortening the time required for closing the male mold assembly 2 and the female mold assembly 3.

Referring to fig. 2, further, the flat mold mechanism 4 further includes a third reciprocating device 41 and a third mounting frame 42; the moving speed of the moving end of the third reciprocating device 41 is greater than that of the first reciprocating device 32, the moving end of the third reciprocating device 41 can move in the vertical direction, the third mounting bracket 42 is connected with the moving end of the third reciprocating device 41, and the flat mold frame 43 is disposed on the third mounting bracket 42.

As can be seen from the above description, after the glass comes out of the heating furnace, the glass to be formed is conveyed to the pressing position by the conveying belt 1, and the female die 31 of the female die assembly 3 is not suitable to move too fast, so as to avoid the phenomenon that the glass stays on the conveying belt 1 for too long time, and the bright spot defect occurs on the surface of the glass. Therefore, the third reciprocating device 41 is used for driving the third mounting frame 42, so that the flat mold frame 43 is driven to lift the glass, the glass is separated from the conveying belt 1 in advance, and the phenomenon that the glass stays on the conveying belt 1 for too long time to cause the bright spot defect on the glass is avoided.

Referring to fig. 2, further, the flat mold mechanism 4 further includes a second rail 44, the third mounting rack 42 is slidably connected to the second rail 44, and the sliding direction of the third mounting rack 42 is a vertical direction.

As can be seen from the above description, the second rail 44 is used to ensure the movement stability of the third mounting bracket 42.

Referring to fig. 1 and 2, a stop 11 is further disposed at the output end of the conveyor belt 1.

From the above description, the stopper 11 can prevent the glass from moving forward due to inertia when the glass stops on the conveyor belt 1, so that the glass cannot be accurately positioned between the male mold assembly 2 and the female mold assembly 3, and the glass forming abnormality is caused.

Further, the conveyor belt 1 is a roller conveyor.

As can be seen from the above description, the conveyor belt 1 is a roller conveyor, and the rollers are used for conveying glass, so that the contact area of the rollers to the glass can be reduced, and the occurrence of bright spot defects on the glass can be prevented.

The utility model relates to a toughened glass forming device's application scene: when glass needs to be subjected to deep bending forming, the glass heated to be softened is horizontally conveyed between the male die assembly 2 and the female die assembly 3 through the conveying belt 1, the female die 31 comprises a fixed forming frame 311 and side forming frames 312, the side forming frames 312 are abutted against the fixed forming frame 311 and are respectively installed on two sides of the fixed forming frame 311, the side forming frames 312 can rotate relative to the fixed forming frame 311, so that the female die 31 has a glass lifting state and a glass forming state which can be switched mutually, and when the female die 31 is in the glass forming state, the adhering surfaces of the fixed forming frame 311 and the side forming frames 312 are matched to form a concave forming surface; when the female mold 31 is switched from the glass-lifting state to the glass-molding state, the side molding frame 312 rotates; when the female mold 31 is in the glass-lifting state, the female mold 31 is used to jack up the glass to be molded. The utility model discloses a bed die 31 is split type structure, before bed die 31 was in the lifting glass state, bed die 31's peak was less than conveyer belt 1's top or flushes with conveyer belt 1's top, consequently can transmit the deep bending glass of big arch height, and when bed die 31 was in the glass shaping state, the binding face cooperation of deciding into frame 311 and side shaping frame 312 formed the indent shaping face, bed die 31 cooperatees with formpiston 21 in order to press the shaping with glass, and then the realization is under the condition that does not destroy glass integrality, accomplish the deep bending shaping to glass. In addition, the glass can be kept complete after being formed, so that the surface stress of the glass is not damaged, and the glass bursting risk is reduced.

Example one

A toughened glass forming apparatus, please refer to fig. 1 to 2, comprising a conveyer belt 1, a male mold assembly 2 and a female mold assembly 3 arranged opposite to the male mold assembly 2; the conveying direction of the conveying belt 1 is a horizontal direction, the male die assembly 2 is positioned above the conveying belt 1, female dies 31 of the female die assembly 3 are arranged around the conveying belt 1 on a horizontal plane, the female dies 31 can move towards the male die assembly 2, each female die 31 comprises a fixed forming frame 311 and side forming frames 312, the side forming frames 312 are abutted against the fixed forming frames 311 and are respectively installed on two sides of the fixed forming frames 311, the side forming frames 312 can rotate relative to the fixed forming frames 311, so that the female dies 31 have a glass lifting state and a glass forming state which can be switched mutually, and when the female dies 31 are in the glass forming state, the adhering surfaces of the fixed forming frames 311 and the side forming frames 312 are matched to form concave forming surfaces; when the female mold 31 is switched from the glass-lifting state to the glass-molding state, the side molding frame 312 rotates; when the female mold 31 is in the glass-lifting state, the female mold 31 is used to jack up the glass to be molded.

Referring to fig. 1 and 2, the forming apparatus for deep-bending tempered glass further includes a flat mold mechanism 4 located below the conveyor 1, wherein the flat mold mechanism 4 includes a flat mold frame 43 capable of moving in a vertical direction, the flat mold frame 43 is located in a space surrounded by the female mold 31, and a gap is formed between the flat mold frame 43 and the female mold 31. The female mould assembly 3 further comprises a first shuttle 32 and a first mounting bracket 33; the movable end of the first reciprocating device 32 can move along the vertical direction, the first mounting frame 33 is connected with the movable end of the first reciprocating device 32, the female die 31 is arranged on the first mounting frame 33, and the fixed forming frame 311 of the female die 31 is connected with the first mounting frame 33. The female mould assembly 3 further comprises a first track 34 and a slide 35 slidingly arranged on the first track 34; the sliding direction of the sliding block 35 is vertical, and the sliding block 35 is connected with the movable end of the first reciprocating device 32 and the first mounting frame 33 respectively. The female die 31 further comprises a lifting mechanism 313, two sides of the fixed forming frame 311 are hinged with side forming frames 312, the lifting mechanism 313 is arranged on the first mounting frame 33, and the movable end of the lifting mechanism 313 is connected with the side forming frames 312.

Referring to fig. 1, the male mold assembly 2 includes a male mold 21, a second reciprocating device 22 and a second mounting frame 23, wherein the movable end of the second reciprocating device 22 can move along a vertical direction, the second mounting frame 23 is connected to the movable end of the second reciprocating device 22, and the male mold 21 is disposed on the second mounting frame 23.

Wherein, first reciprocating device 32 and second reciprocating device 22 structure are the same, all include motor, steering gear, lead screw and connecting cylinder, and the motor setting is at the top of frame, and the output of motor passes through belt transmission and connects the steering gear, and the lead screw is connected to the output of steering gear, and threaded connection has the sliding sleeve on the lead screw, and the sliding sleeve is connected to the one end of connecting cylinder, and the connecting cylinder of first reciprocating device 32 is connected with slider 35, and the connecting cylinder of second reciprocating device 22 is connected with second mounting bracket 23.

Referring to fig. 2, the mold flattening mechanism 4 further includes a third reciprocating device 41 and a third mounting frame 42; the moving speed of the movable end of the third reciprocating device 41 is greater than that of the first reciprocating device 32, the movable end of the third reciprocating device 41 can move in the vertical direction, the third mounting frame 42 is connected with the movable end of the third reciprocating device 41, and the flat mold frame 43 is arranged on the third mounting frame 42. The flat die mechanism 4 further comprises a second rail 44, the third mounting rack 42 is slidably connected with the second rail 44, and the sliding direction of the third mounting rack 42 is a vertical direction.

The third reciprocating device 41 comprises a motor, a steering gear and a screw rod, the motor is arranged at the bottom of the rack, the output end of the motor is connected with the steering gear through belt transmission, the output end of the steering gear is connected with the screw rod, and the screw rod is in threaded connection with the third mounting frame 42.

Referring to fig. 1 and 2, a stop 11 is disposed at an output end of the conveyor belt 1. The conveyor belt 1 is a roller conveyor.

The working principle is as follows: in the deep bending process of glass, the glass heated to be softened is horizontally conveyed between a male die assembly 2 and a female die assembly 3 by a conveyer belt 1; the male mould assembly 2 drives the second mounting frame 23 by means of the second shuttle 22 to move the male mould 21 towards the female mould assembly 3, and simultaneously the female mould assembly 3 drives the first mounting frame 33 by means of the first shuttle 32 to move the female mould 31 towards the male mould assembly 2.

In the process of closing the mold, when the female mold 31 is in the glass lifting state, the male mold 21 and the female mold 31 are used for jacking up the glass to be molded, and preferably, a height difference of 6mm to 8mm is formed between the lowest point position of the side molding frame 312 and the highest point position of the fixed molding frame 311; when the female mold 31 is switched from the glass-lifting state to the glass-molding state, the side-molding frame 312 rotates, and due to the difference in height, the side-molding frame 312 of the female mold 31 first comes into contact with the male mold 21 to press the edge of the glass; and then the female die 31 continues to move upwards along the vertical direction until the lowest point position of the side forming frame 312 is flush with the highest point position of the fixed forming frame 311, when the female die 31 is in a glass forming state, the jointing surfaces of the fixed forming frame 311 and the side forming frame 312 are matched to form a concave forming surface, and the female die 31 and the male die 21 are mutually extruded to finish the pressing of the final shape of the glass. During the process that the female die 31 moves towards the male die assembly 2, the third reciprocating device 41 of the flat die mechanism 4 is synchronously started, so that the flat die frame 43 is firstly contacted with the glass in one step, the glass is separated from the conveying belt 1 as fast as possible, and the phenomenon that the glass stays on the conveying belt 1 for too long time to cause the bright spot defect on the surface of the glass is avoided. The female mould 31 will then, during the continued movement, lift the glass off the flat mould frame 43 and the glass will finally be shaped under the pressing action of the male mould 21 and the female mould 31.

The above mentioned is only the embodiment of the present invention, and the patent scope of the present invention is not limited thereby, and all the equivalent transformations made by the contents of the specification and the drawings, or the direct or indirect application in the related technical field, are included in the patent protection scope of the present invention.

Claims (10)

1. The utility model provides a deep-bending toughened glass forming device which characterized in that: the device comprises a conveying belt, a male die assembly and a female die assembly arranged opposite to the male die assembly;

the conveying direction of the conveying belt is the horizontal direction, the male die assembly is positioned above the conveying belt, a female die of the female die assembly is arranged on the horizontal plane in a surrounding mode, the female die can move towards the male die assembly, the female die comprises a fixed forming frame and side forming frames, the side forming frames are tightly attached to the fixed forming frame and are respectively installed on two sides of the fixed forming frame, the side forming frames can rotate relative to the fixed forming frame, the female die is enabled to have a glass lifting state and a glass forming state which can be mutually switched, and when the female die is in the glass forming state, binding surfaces of the fixed forming frame and the side forming frames are matched to form an inwards concave forming surface; when the female die is switched from the glass lifting state to the glass forming state, the side forming frame rotates; and when the female die is in the glass lifting state, the female die is used for jacking the glass to be formed.

2. The forming device of deep-bending toughened glass according to claim 1, characterized in that: the flat die mechanism comprises a flat die frame capable of moving in the vertical direction, the flat die frame is located in a space surrounded by the female die, and a gap is formed between the flat die frame and the female die.

3. The forming device of deep-bending toughened glass according to claim 1, characterized in that: the female die assembly further comprises a first reciprocating device and a first mounting bracket; the movable end of the first reciprocating device can move in the vertical direction, the movable end of the first reciprocating device is connected with the first mounting frame, the female die is arranged on the first mounting frame, and the fixed forming frame of the female die is connected with the first mounting frame.

4. The forming device of deep-bending toughened glass according to claim 3, characterized in that: the female die assembly further comprises a first rail and a sliding block arranged on the first rail in a sliding mode; the sliding direction of the sliding block is vertical, and the sliding block is connected with the movable end of the first reciprocating device and the first mounting frame respectively.

5. The forming device of the deep-bending toughened glass according to claim 3, characterized in that: the bed die still includes elevating system, the both sides of deciding into the frame are articulated to become the frame of side, elevating system sets up on first mounting bracket, elevating system's expansion end is connected become the frame of side.

6. The forming device of the deep-bending toughened glass according to claim 1, characterized in that: the male die assembly comprises a male die, a second reciprocating device and a second mounting frame, the movable end of the second reciprocating device can move in the vertical direction, the second mounting frame is connected with the movable end of the second reciprocating device, and the male die is arranged on the second mounting frame.

7. The forming device of the deep-bending toughened glass according to claim 2, characterized in that: the flat die mechanism further comprises a third reciprocating device and a third mounting frame, the moving speed of the movable end of the third reciprocating device is greater than that of the movable end of the first reciprocating device, the movable end of the third reciprocating device can move in the vertical direction, the movable end of the third reciprocating device is connected with the third mounting frame, and the flat die frame is arranged on the third mounting frame.

8. The forming device of deep-bending tempered glass according to claim 7, wherein: the flat die mechanism further comprises a second rail, the third installation frame is connected with the second rail in a sliding mode, and the sliding direction of the third installation frame is the vertical direction.

9. The forming device of the deep-bending toughened glass according to claim 1, characterized in that: the output end of the conveying belt is provided with a stop block.

10. The forming device of deep-bending toughened glass according to claim 1, characterized in that: the conveyer belt is a roller conveyer.

Images