CN219585977U

CN219585977U - Glass tempering forming die

Info

Publication number: CN219585977U
Application number: CN202320709759.1U
Authority: CN
Inventors: 李涛; 许海洋; 张小强; 魏喜伟; 熊娣娣; 陈雪; 赵精波; 徐义
Original assignee: Fuyang Zhengda Glass Technology Co ltd
Current assignee: Fuyang Zhengda Glass Technology Co ltd
Priority date: 2023-04-04
Filing date: 2023-04-04
Publication date: 2023-08-25
Anticipated expiration: 2033-04-04

Abstract

The utility model discloses a glass tempering forming die, which relates to the technical field of glass manufacturing and comprises a forming die base, a front-back adjusting unit, a top-bottom adjusting unit, an angle adjusting unit and a die end plate angle adjusting unit; the left side and the right side of the top of the forming die base are respectively fixedly connected with cambered surface side plates, and the front side and the rear side of the top of the forming die base are respectively movably connected with two die end plates through die end plate movable columns; the front-back adjusting unit is arranged at the left bottom of the molding die base; the upper and lower adjusting units are arranged at the top of the front and rear adjusting units; the angle adjusting unit comprises a pressure plate up-down adjusting screw rod, a pressure plate, a knob, a movable shaft I, an angle adjusting rod, a movable shaft II, an angle adjusting screw rod, a torsion block, an angle adjusting nut, a movable shaft III, a movable seat and a movable block; the glass tempering forming die can limit the glass with the raised edges, and the die end plates on two sides are opened after tempering is finished to be taken out conveniently.

Description

Glass tempering forming die

Technical Field

The utility model relates to the technical field of glass manufacturing, in particular to a glass tempering forming die.

Background

The toughened glass is a safety glass, which is a pre-stress glass, and in order to improve the strength of the glass, a chemical or physical method is generally used to form compressive stress on the surface of the glass, and the surface layer stress is counteracted when the glass bears external force, so that the bearing capacity is improved, and the wind pressure resistance, the cold and summer heat resistance, the impact resistance and the like of the glass are enhanced. With the development of the automobile industry, the requirements on glass (such as appearance, optics and the like) are higher and higher, so that the requirements on various factors during glass forming are also higher and higher.

Wherein authorizing the forming die of glass tempering that bulletin number CN211871801U put forward among the prior art includes arc inside casing, connecting piece and arc frame, and the arc inside casing is located the arc frame, and the connecting piece is connected between arc inside casing and arc frame and is connected arc inside casing and arc frame as a whole, is equipped with the intrados that is used for supporting toughened glass on the arc inside casing, is equipped with the extrados with intrados looks adaptation on the arc frame, and the intrados is higher than the extrados.

The glass of the glass can cause edge warping to reduce the production qualification rate due to uneven heating in the tempering process of the forming die, is not easy to take out from the die after tempering is finished, and cannot meet the production requirement.

Disclosure of Invention

The utility model aims to overcome the existing defects, and provides the glass tempering forming die which can limit the glass with the edge warping, and the end plates of the die on two sides are opened after tempering is finished to be conveniently taken out, so that the problems in the background technology can be effectively solved.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a glass tempering forming die comprises a forming die base, a front-back adjusting unit, an up-down adjusting unit, an angle adjusting unit and a die end plate angle adjusting unit;

and (3) forming a die base: the left side and the right side of the top are respectively fixedly connected with cambered surface side plates, and the front side and the rear side of the top of the forming die base are respectively movably connected with two die end plates through die end plate movable columns;

front-rear adjustment unit: the left side bottom of the molding die base is provided with a bottom;

an up-down adjusting unit: is arranged at the top of the front-rear adjusting unit;

an angle adjusting unit: the device comprises a pressure plate up-down adjusting screw, a pressure plate, a knob, a movable shaft I, an angle adjusting rod, a movable shaft II, an angle adjusting screw, a torsion block, an angle adjusting nut, a movable shaft III, a movable seat and a movable block, wherein the middle part of the angle adjusting rod is movably connected in a notch at the right end of an L-shaped support of an up-down adjusting unit through the movable shaft I, the angle adjusting nut is movably connected in a through groove at the top of the angle adjusting rod through the movable shaft II, the angle adjusting screw is connected with the angle adjusting screw through an internal thread, the right end of the angle adjusting screw is fixedly connected with the torsion block, the left end of the angle adjusting screw is rotationally connected with the movable block, the movable seat is fixedly connected with the movable block through the movable shaft III, the pressure plate up-down adjusting screw is connected with the internal thread of a screw hole at the right end of the angle adjusting rod, the bottom of the pressure plate is connected with the pressure plate, and the top knob of the pressure plate;

die end plate angle adjusting unit: the angle adjusting unit is arranged on the right side of the molding die base, and the right ends of the two die end plates are respectively connected with the die end plate angle adjusting unit.

The forming die base is used for supporting and placing glass to be tempered, the side face of the glass to be tempered is limited through the cambered surface side plate, the die end plate is used for limiting the two ends of the glass to be tempered, the die end plate angle adjusting unit can control the die end plate to move through the die end plate movable column, so that the glass to be tempered is conveniently taken down from the forming die base, the front-back adjusting unit is used for changing the front-back positions of the upper adjusting unit and the angle adjusting unit, the upper adjusting unit and the lower adjusting unit are used for adjusting the height of the angle adjusting unit, the angle adjusting screw and the threaded action of the angle adjusting nut can enable the angle adjusting nut to move along the angle adjusting screw, at the moment, the angle adjusting screw is changed relative to the top of the L-shaped support of the upper adjusting unit and the lower adjusting unit through the movable shaft, at the moment, the angle adjusting rod is changed along with the angle adjusting screw through the movable shaft, at the moment, the angle adjusting screw is changed along with the angle adjusting screw, so that the orientation of the upper adjusting screw and the lower adjusting screw is changed, the pressure plate at the bottom of the angle adjusting screw is changed, the pressure plate can be lowered when the pressure plate is twisted, the pressure plate at the bottom of the angle adjusting screw is enabled to be prevented from tilting the pressure plate of the glass, and the edge of the glass to be tempered in the tempering process.

Further, the front and back adjusting unit comprises a front and back adjusting frame vertical rod, a front and back adjusting limit column, a front and back adjusting frame, a front and back adjusting screw, a front and back adjusting crank and a connecting bolt, the front and back ends of the bottom of the front and back adjusting frame are respectively fixedly connected with the front and back adjusting frame vertical rod, the front and back adjusting limit column is transversely connected in a sliding hole on the side face of the front and back adjusting frame vertical rod in a sliding mode, the right ends of the two front and back adjusting limit columns are fixedly connected with the left side of the bottom of the forming die base, the center of the bottom of the front and back adjusting frame is fixedly connected with a nut block, the inner screw threads of the side face of the nut block are connected with the front and back adjusting screw in a threaded mode, the right end of the front and back adjusting screw is rotationally connected with the left side of the forming die base through a connecting bolt. The front and back adjusting crank is rotated, the front and back adjusting crank drives the front and back adjusting screw to rotate through the connecting bolt, the front and back adjusting screw and the screw thread of the front and back adjusting frame drive the front and back adjusting frame to move back and forth along the adjusting limiting column through the front and back adjusting frame vertical rod, and therefore the front and back positions of the upper and lower adjusting units and the angle adjusting units are changed.

Further, the upper and lower adjusting unit contains upper and lower adjusting screw, handle connecting rod, handle, reference column, L shape support and longeron, around the top of adjusting frame around fixedly connected with reference column respectively, two reference columns respectively with the vertical sliding connection of the front and back end slide hole of longeron, the middle part screw internal thread connection of longeron has upper and lower adjusting screw, the handle is connected through the handle connecting rod in upper and lower adjusting screw's top, the bottom of upper and lower adjusting screw passes through the bearing rotation with the middle part of front and back adjusting frame and is connected. The vertical adjusting screw is rotated by the handle connecting rod and the handle, and the vertical adjusting screw and the screw thread of the longitudinal beam drive the longitudinal beam to move up and down along the positioning column, so that the height of the L-shaped bracket is changed, and the L-shaped bracket can drive the angle adjusting unit to move up and down.

Further, the die end plate angle adjusting unit comprises a gear connecting column, a gear crank connecting rod and a gear, a middle short shaft of the gear is rotationally connected to the right side of the forming die base, one ends of the two gear connecting rods are movably connected to the two sides of the right end surface of the gear through the gear connecting column respectively, the other ends of the two gear connecting rods are movably connected to the right ends of the two die end plates through the die end plate connecting column, and the right end of the middle short shaft of the gear is connected with the gear crank through the gear crank connecting rod. Further, the die end plate angle adjusting unit further comprises a limiter outer frame, a limiter base, a spring and a limiter adjusting slide block, the right side of the forming die base is fixedly connected with the limiter outer frame below the gear, the top of the limiter outer frame is vertically and slidably connected with the limiter adjusting slide block, the bottom of the limiter adjusting slide block is connected with the top of the limiter base through the spring, the limiter base is fixedly connected with the bottom of the limiter outer frame, the top of the limiter adjusting slide block is provided with a limiting clamping block, and the right side of the limiter adjusting slide block is provided with a control rod. The limiting device adjusting slide block can be driven to move downwards along the outer limit frame by pulling the control rod downwards, the spring is compressed at the moment, the limiting clamping block is separated from the gear, the gear can rotate at will at the moment, the control rod is loosened, the spring rebounds, the limiting device adjusting slide block moves upwards along the outer limit frame, the limiting clamping block is clamped with the corresponding position of the gear, the gear is fixed at the moment, and the two die end plates are stable relative to the base position of the forming die.

Further, the glass tempering device also comprises vent holes, wherein the vent holes are respectively formed in the periphery of the bottom of the molding die base at equal intervals, and the vent holes can enable the temperature at the bottom of the molding die base to be uniform, so that the glass on the molding die base can be tempered uniformly.

Compared with the prior art, the utility model has the beneficial effects that:

1. this glass tempering forming die has set up the pressure disk at angle adjustment unit, adjusts the position of pressure disk through adjusting around adjustment unit, upper and lower adjustment unit and angle adjustment unit, can carry out spacingly in the perk limit problem in toughened glass production, improves the qualification rate of toughened glass production.

2. This glass tempering forming die has set up the mould end plate in grinding apparatus base front and back side, through setting up on the mould right side the angle adjustment unit of mould end plate can adjust the angle that opens and shuts of mould end plate, opens the mould end plate and conveniently takes out toughened glass after accomplishing toughened glass production.

3. The glass tempering forming die is provided with the edge-warping limiting device and the die end plate angle adjusting device, so that the production qualification rate of tempered glass is improved, and the problem that glass is taken out after the production of the steel glass is finished is solved.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of a partial enlarged structure of the portion A in FIG. 1 according to the present utility model;

FIG. 3 is a schematic side view of the present utility model;

fig. 4 is a schematic view of a partial enlarged structure at B in fig. 3 according to the present utility model.

In the figure: the device comprises a forming die base, a 2 cambered side plate, a 3 die end plate, a 4 vent, a 5 cambered side plate II, a 6 front-back adjusting unit, a 61 front-back adjusting frame vertical rod, a 62 front-back adjusting limit column, a 63 front-back adjusting frame, a 64 front-back adjusting screw rod, a 65 front-back adjusting crank, a 66 connecting bolt, a 7 upper-lower adjusting unit, a 71 upper-lower adjusting screw rod, a 72 handle connecting rod, a 73 handle, a 74 positioning column, a 75L-shaped bracket, a 76 longitudinal beam, an 8 angle adjusting unit, a 81 pressure plate upper-lower adjusting screw rod, a 82 pressure plate, a 83 knob, a 84 movable shaft I, a 85 angle adjusting rod, a 86 movable shaft II, a 87 angle adjusting screw rod, a 88 torsion block, a 89 angle adjusting nut, a 810 movable shaft III, a 811 movable seat 812 movable block, a 9 die end plate angle adjusting unit, a 91 limiter outer frame, a 92 limiter base, a 93 spring, a 94 limiter adjusting slide block, a 95 gear connecting column, a 96 gear crank, a 97 gear crank connecting rod, a 98 gear, a 10 gear connecting rod, a 11 die end plate connecting column and a 12 die movable column.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, the present utility model provides a technical solution: a glass tempering forming die comprises a forming die base 1, a front-back adjusting unit 6, an upper-lower adjusting unit 7, an angle adjusting unit 8 and a die end plate angle adjusting unit 9;

forming die base 1: the left side and the right side of the top are respectively fixedly connected with cambered surface side plates 2, and the front side and the rear side of the top of the forming die base 1 are respectively movably connected with two die end plates 3 through die end plate movable columns 12;

front-rear adjustment unit 6: is arranged at the left bottom of the molding die base 1;

the front and rear adjusting unit 6 comprises a front and rear adjusting frame vertical rod 61, a front and rear adjusting limit column 62, a front and rear adjusting frame 63, a front and rear adjusting screw 64, a front and rear adjusting crank 65 and a connecting bolt 66, wherein the front and rear ends of the bottom of the front and rear adjusting frame 63 are respectively fixedly connected with the front and rear adjusting frame vertical rod 61, the front and rear adjusting limit column 62 is transversely and slidingly connected in a sliding hole on the side surface of the front and rear adjusting frame vertical rod 61, the right ends of the two front and rear adjusting limit columns 62 are fixedly connected with the left side of the bottom of the forming die base 1, the center of the bottom of the front and rear adjusting frame 63 is fixedly connected with a nut block, the screw hole on the side surface of the nut block is internally and spirally connected with the front and rear adjusting screw 64, the right end of the front and rear adjusting screw 64 is rotatably connected with the left side of the forming die base 1 through a bearing, and the left end of the front and rear adjusting screw 64 is fixedly connected with the front and rear adjusting crank 65 through the connecting bolt 66. The front and rear adjusting crank 65 is rotated, the front and rear adjusting crank 65 drives the front and rear adjusting screw 64 to rotate through the connecting bolt 66, the front and rear adjusting screw 64 and the screw thread of the front and rear adjusting frame 63 drive the front and rear adjusting frame 63 to move back and forth along the adjusting limit post 62 through the front and rear adjusting frame vertical rod 61, and accordingly the front and rear positions of the upper and lower adjusting unit 7 and the angle adjusting unit 8 are changed.

Up-down adjusting unit 7: mounted on top of the front-rear adjusting unit 6;

the up-down adjusting unit 7 comprises an up-down adjusting screw 71, a handle connecting rod 72, a handle 73, positioning columns 74, an L-shaped bracket 75 and a longitudinal beam 76, wherein the positioning columns 74 are fixedly connected to the front side and the rear side of the top of the front-back adjusting frame 63 respectively, the two positioning columns 74 are vertically and slidingly connected with front and rear end sliding holes of the longitudinal beam 76 respectively, the middle screw hole of the longitudinal beam 76 is internally and spirally connected with the up-down adjusting screw 71, the top end of the up-down adjusting screw 71 is connected with the handle 73 through the handle connecting rod 72, and the bottom end of the up-down adjusting screw 71 is rotatably connected with the middle of the front-back adjusting frame 63 through a bearing. The vertical adjusting screw 71 is rotated by the handle connecting rod 72 and the handle 73, the vertical adjusting screw 71 and the screw thread of the longitudinal beam 76 drive the longitudinal beam 76 to move up and down along the positioning column 74, so that the height of the L-shaped bracket 75 is changed, and the L-shaped bracket 75 can drive the angle adjusting unit 8 to move up and down.

Angle adjusting unit 8: the device comprises a pressing plate up-down adjusting screw 81, a pressing plate 82, a knob 83, a movable shaft I84, an angle adjusting rod 85, a movable shaft II 86, an angle adjusting screw 87, a torsion block 88, an angle adjusting nut 89, a movable shaft III 810, a movable seat 811 and a movable block 812, wherein the middle part of the angle adjusting rod 85 is movably connected in a notch at the right end of an L-shaped bracket 75 of an up-down adjusting unit 7 through the movable shaft I84, the angle adjusting screw 89 is movably connected in a through groove at the top of the angle adjusting rod 85 through the movable shaft II 86, the angle adjusting screw 87 is internally and threadedly connected with the angle adjusting screw 87, the right end of the angle adjusting screw 87 is fixedly connected with the torsion block 88, the left end of the angle adjusting screw 87 is rotatably connected with the movable block 812, the movable seat 811 is fixedly connected with the left side of the top of an L-shaped bracket 75 of the up-down adjusting unit 7, the movable seat 811 is movably connected with the pressing plate 81 through the movable shaft III 810, the bottom end of the upper-down adjusting screw 81 is internally and threadedly connected with the pressing plate 81, and the bottom end of the upper-down adjusting screw 81 is connected with the pressing plate 82 and the top knob 83 of the pressing plate 82;

die end plate angle adjustment unit 9: is arranged on the right side of the molding die base 1, and the die end plate angle adjusting units 9 are respectively connected with the right ends of the two die end plates 3.

The die end plate angle adjusting unit 9 comprises a gear connecting column 95, a gear crank 96, a gear crank connecting rod 97 and a gear 98, wherein the right side of the forming die base 1 is rotationally connected with a middle short shaft of the gear 98, two sides of the right end surface of the gear 98 are movably connected with one ends of the two gear connecting rods 10 through the gear connecting column 95 respectively, the other ends of the two gear connecting rods 10 are movably connected with the top parts of the right ends of the two die end plates 3 through the die end plate connecting column 11, and the right end of the middle short shaft of the gear 98 is connected with the gear crank 96 through the gear crank connecting rod 97. The gear crank 96 and the gear crank connecting rod 97 are used for driving the gear 98 to rotate relative to the forming die base 1, the gear 98 pushes and pulls the two gear connecting rods 10 to move through the gear connecting columns 95, the two gear connecting rods 10 push and pull the two die end plates 3 to move relative to the forming die base 1 respectively, and when the two die end plates 3 are opened relative to the forming die base 1, glass toughened on the forming die base 1 can be conveniently taken down at the moment.

The die end plate angle adjusting unit 9 further comprises a limiter outer frame 91, a limiter base 92, a spring 93 and a limiter adjusting slide block 94, wherein the limiter outer frame 91 is fixedly connected to the right side of the forming die base 1 and located below the gear 98, the limiter adjusting slide block 94 is vertically and slidably connected to the inner top of the limiter outer frame 91, the bottom of the limiter adjusting slide block 94 is connected with the top of the limiter base 92 through the spring 93, the limiter base 92 is fixedly connected to the bottom of the limiter outer frame 91, a limiting clamping block is arranged at the top of the limiter adjusting slide block 94, and a control rod is arranged on the right side of the limiter adjusting slide block 94. The limiting device adjusting slide block 94 can be driven to move downwards along the limiting device outer frame 91 by pulling the control rod downwards, the spring 93 is compressed at the moment, the limiting clamping block is separated from the gear 98, the gear 98 can rotate randomly at the moment, the control rod is loosened, the spring 93 rebounds, the limiting device adjusting slide block 94 moves upwards along the limiting device outer frame 91, the limiting clamping block is clamped with the corresponding position of the gear 98, at the moment, the gear 98 is fixed, and the two die end plates 3 can be firmly fixed relative to the position of the forming die base 1.

The forming die base 1 is used for supporting and placing glass to be tempered, the side face of the glass to be tempered is limited through the cambered surface side plate 2, the die end plate 3 is used for limiting the two ends of the glass to be tempered, the die end plate angle adjusting unit 9 can control the die end plate 3 to move through the die end plate movable column 12, thereby the glass to be tempered is conveniently taken down from the forming die base 1, the front-back adjusting unit 6 is used for changing the front-back positions of the upper adjusting unit 7 and the angle adjusting unit 8, the upper adjusting unit 7 is used for adjusting the height of the angle adjusting unit 8, the angle adjusting screw 87 is rotated through the torsion block 88, the angle adjusting screw 87 and the threaded action of the angle adjusting nut 89 can enable the angle adjusting nut 89 to move along the angle adjusting screw 87, at the moment, the angle adjusting screw 87 is changed relative to the top of the L-shaped bracket 75 of the upper adjusting unit 7, the movable block 812 is also changed in angle relative to the movable seat 811 along with the angle adjusting screw 87 through the three 810, at the moment, the angle adjusting rod 85 is changed along with the angle adjusting screw 87, the orientation of the upper adjusting screw 81 and the lower adjusting screw 85 is changed, the bottom of the angle adjusting screw 81 is rotated, the upper adjusting screw and the lower adjusting screw 83 is prevented from being tilted down, and the lower adjusting screw 81 is prevented from being rotated during the process of adjusting the angle adjusting the glass.

The novel glass tempering mold further comprises vent holes 4, wherein the vent holes 4 are respectively formed in the periphery of the bottom of the molding mold base 1 at equal intervals, and the vent holes 4 can enable the temperature at the inner bottom of the molding mold base 1 to be uniform, so that glass on the molding mold base 1 can be tempered uniformly.

The utility model provides a glass tempering forming die, which has the following working principle:

the forming die base 1 is used for supporting and placing glass to be tempered, the side face of the glass to be tempered is limited through the cambered surface side plate 2, the die end plates 3 are used for limiting the two ends of the glass to be tempered, the gear crank 96 and the gear crank connecting rod 97 can drive the gear 98 to rotate relative to the forming die base 1, the gear 98 pushes and pulls the two gear connecting rods 10 through the gear connecting columns 95 to move, the two gear connecting rods 10 push and pull the two die end plates 3 respectively to move relative to the forming die base 1, when the two die end plates 3 are opened relative to the forming die base 1, the tempered glass on the forming die base 1 can be conveniently taken down, the limiting adjusting slide blocks 94 can be driven to move downwards along the limiting outer frame 91 through downwards pulling the control rod, the spring 93 is compressed, the limiting clamping blocks are separated from the gear 98, the gear 98 can be rotated at will, the control rod is loosened, the spring 93 rebounds, the limiting clamping blocks 94 move upwards along the limiting outer frame 91, the corresponding positions of the limiting clamping blocks and the gear 98 are clamped and the positions of the two die end plates 3 can be firmly fixed relative to the forming die base 1;

the front and rear adjusting crank 65 is rotated, the front and rear adjusting crank 65 drives the front and rear adjusting screw 64 to rotate through the connecting bolt 66, the front and rear adjusting screw 64 and the screw thread of the front and rear adjusting frame 63 drive the front and rear adjusting frame 63 to move back and forth along the adjusting limit post 62 through the front and rear adjusting frame vertical rod 61, and the front and rear positions of the upper and lower adjusting unit 7 and the angle adjusting unit 8 are changed; the vertical adjusting screw 71 is rotated by the handle connecting rod 72 and the handle 73, the vertical adjusting screw 71 and the screw thread of the longitudinal beam 76 drive the longitudinal beam 76 to move up and down along the positioning column 74, so that the height of the L-shaped bracket 75 is changed, and the L-shaped bracket 75 can drive the angle adjusting unit 8 to move up and down; through turning round piece 88 rotation angle adjusting screw 87, angle adjusting screw 87 and angle adjusting nut 89's screw thread effect can make angle adjusting nut 89 follow angle adjusting screw 87 activity, angle adjusting screw 87 is the angle change for the L shape support 75 top of upper and lower adjusting unit 7 this moment, movable block 812 also along with angle adjusting screw 87 through the loose axle three 810 for movable seat 811 changes, angle adjusting lever 85 takes place the angle change along with angle adjusting screw 87 this moment through loose axle one 84, thereby change the orientation of angle adjusting lever 85 bottom pressure disk upper and lower adjusting screw 81, twist knob 83 can make pressure disk upper and lower adjusting screw 81 rotatory while descend, make pressure disk 82 of pressure disk upper and lower adjusting screw 81 bottom push down the corner of waiting toughened glass, avoid glass to take place to stick up the limit in the tempering process.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present utility model.

Claims

1. The utility model provides a glass tempering forming die which characterized in that: the device comprises a forming die base (1), a front-back adjusting unit (6), an upper-lower adjusting unit (7), an angle adjusting unit (8) and a die end plate angle adjusting unit (9);

forming die base (1): the left side and the right side of the top are respectively fixedly connected with cambered surface side plates (2), and the front side and the rear side of the top of the forming die base (1) are respectively movably connected with two die end plates (3) through die end plate movable columns (12);

front-rear adjustment unit (6): the device is arranged at the left bottom of the molding die base (1);

an up-down adjusting unit (7): is arranged at the top of the front-back adjusting unit (6);

an angle adjustment unit (8): the device comprises a pressing plate up-down adjusting screw (81), a pressing plate (82), a knob (83), a movable shaft I (84), an angle adjusting rod (85), a movable shaft II (86), an angle adjusting screw (87), a torsion block (88), an angle adjusting nut (89), a movable shaft III (810), a movable seat (811) and a movable block (812), wherein the middle part of the angle adjusting rod (85) is movably connected in a right end notch of an L-shaped bracket (75) of an up-down adjusting unit (7) through the movable shaft I (84), the angle adjusting screw (89) is movably connected in a top through groove of the angle adjusting rod (85) through the movable shaft II (86), the angle adjusting screw (87) is connected in an internal thread manner through the angle adjusting nut (89), the right end of the angle adjusting screw (87) is fixedly connected with the torsion block (88), the left end of the angle adjusting screw (87) is rotationally connected with the movable block (812), the left side of the top of the L-shaped bracket (75) of the up-down adjusting unit (7) is fixedly connected with the movable seat (811), the movable seat (810) is movably connected with the pressing plate III (810) through the movable shaft III (86), the bottom end of the upper end of the screw (81) is connected with the lower screw (81), a top knob (83) of the platen (82);

die end plate angle adjusting unit (9): the angle adjusting unit (9) of the die end plate is respectively connected with the right ends of the two die end plates (3).

2. A glass tempering mold according to claim 1, wherein: the front-back adjusting unit (6) comprises a front-back adjusting frame vertical rod (61), front-back adjusting limiting columns (62), front-back adjusting frames (63), front-back adjusting screws (64), front-back adjusting crank rods (65) and connecting bolts (66), the front-back adjusting frame vertical rod (61) is fixedly connected with the front-back adjusting frame bottom front-back ends respectively, front-back adjusting limiting columns (62) are transversely connected in sliding holes in the side faces of the front-back adjusting frame vertical rod (61), the right ends of the two front-back adjusting limiting columns (62) are fixedly connected with the left side of the bottom of the forming die base (1), nut blocks are fixedly connected to the centers of the bottoms of the front-back adjusting frames (63), the screw holes in the side faces of the nut blocks are internally connected with the front-back adjusting screws (64), the right ends of the front-back adjusting screws (64) are fixedly connected with the left side of the forming die base (1) through bearings, and the left ends of the front-back adjusting screws (64) are fixedly connected with the front-back adjusting crank rods (65) through the connecting bolts (66).

3. A glass tempering forming die according to claim 2, wherein: the vertical adjusting unit (7) comprises an upper adjusting screw (71), a handle connecting rod (72), a handle (73), positioning columns (74), an L-shaped bracket (75) and a longitudinal beam (76), wherein the positioning columns (74) are fixedly connected to the front side and the rear side of the top of the front and rear adjusting frame (63) respectively, the two positioning columns (74) are vertically and slidably connected with front and rear end sliding holes of the longitudinal beam (76) respectively, the middle screw holes of the longitudinal beam (76) are internally and internally connected with the upper adjusting screw (71), the top end of the upper adjusting screw (71) is connected with the handle (73) through the handle connecting rod (72), and the bottom end of the upper adjusting screw (71) is rotatably connected with the middle of the front and rear adjusting frame (63) through a bearing.

4. A glass tempering mold according to claim 1, wherein: the die end plate angle adjusting unit (9) comprises a gear connecting column (95), a gear crank (96), a gear crank connecting rod (97) and a gear (98), wherein the right side of the forming die base (1) is rotationally connected with a middle short shaft of the gear (98), two sides of the right end face of the gear (98) are respectively connected with one ends of two gear connecting rods (10) through the gear connecting column (95) in a movable mode, the other ends of the two gear connecting rods (10) are connected with the tops of the right ends of the two die end plates (3) through the die end plate connecting column (11) in a movable mode, and the right end of the middle short shaft of the gear (98) is connected with the gear crank (96) through the gear crank connecting rod (97).

5. The glass tempering mold according to claim 4, wherein: the die end plate angle adjusting unit (9) further comprises a limiter outer frame (91), a limiter base (92), a spring (93) and a limiter adjusting slide block (94), the right side of the forming die base (1) is fixedly connected with the limiter outer frame (91) below a gear (98), the top of the limiter outer frame (91) is vertically and slidably connected with the limiter adjusting slide block (94), the bottom of the limiter adjusting slide block (94) is connected with the top of the limiter base (92) through the spring (93), the limiter base (92) is fixedly connected with the bottom of the limiter outer frame (91), the top of the limiter adjusting slide block (94) is provided with a limiting clamping block, and the right side of the limiter adjusting slide block (94) is provided with a control rod.

6. A glass tempering mold according to claim 1, wherein: the molding die comprises a molding die base (1), and is characterized by further comprising vent holes (4), wherein the vent holes (4) are respectively formed in the periphery of the bottom of the molding die base (1) at equal intervals.