CN113955928B - Glass tempering frame and tempering device thereof - Google Patents

Abstract

The invention provides a glass tempering frame and a tempering device thereof, comprising an equipment box, wherein slots are arranged in the equipment box at intervals, stabilizing plates for stabilizing glass plates are arranged on the side walls of the equipment box at intervals, a placing groove for placing the glass plates is formed in a base, a magnetic block and a clamping plate are arranged in the base, an electromagnet is fixedly arranged in a clamping cavity, and a squeezing plate is arranged in the base. In the using process of the glass plate, the bottom edge and the side edge of the glass plate are respectively fixed through the base and the stabilizing plate, and after the fixing is completed, the clamping plates and the glass plate are separated, so that an expansion space is reserved for the glass plate in the toughening process, the stability of the glass plate is ensured, and meanwhile, the expansion of a single glass plate does not affect other glass plates.

Description

Glass tempering frame and tempering device thereof

Technical Field

The invention relates to the technical field of glass tempering, in particular to a glass tempering frame and a tempering device thereof.

Background

Toughened glass plays an important role in life nowadays, and window and showcase glass of high-rise houses nowadays can use toughened glass with higher strength for safety, so that toughened glass is formed by toughening treatment in the glass processing process of a common structure, and the glass is required to be placed in a toughening frame and then subjected to toughening treatment in the glass toughening process.

The laser glass tempering frame provided by the publication No. CN213835045U comprises a tempering frame main body, a floating rack and a fixed rack; the tempering frame main part includes first riser, second riser and a plurality of connecting rods that are used for connecting first riser and second riser, the both ends of fixed rack are fixed connection first riser and second riser respectively, the both ends of floating rack are sliding connection first riser and second riser respectively, glass can be blocked from glass's both sides to floating rack and fixed rack, fixed rack fixed connection can inject glass's position in the tempering frame main part, when glass is heated and takes place the inflation, the tip of the glass that expands can promote floating rack slides on first riser and second riser for glass has certain inflation space, avoid glass crooked burst and fall the piece.

The above device still has the following problems in the implementation:

all come to fix glass through floating rack and fixed rack among the prior art, through screwed connection between fixed rack and the riser, sliding connection between floating rack and the riser, and such design makes the fixed glass's in the mounting bracket process become very troublesome, and the setting of the fixed polylith glass board of a floating rack simultaneously for at the in-process of tempering, a glass board takes place to expand, can drive floating rack and cause the influence to other glass boards.

Disclosure of Invention

The invention aims to provide a glass tempering frame and a tempering device thereof, which are used for solving the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the glass tempering frame comprises an equipment box and glass plates, wherein slots are formed in the equipment box at intervals, stabilizing plates for stabilizing the glass plates are arranged on the side walls of the equipment box at intervals, and a base is movably arranged in the equipment box;

the base is connected with a fixed rod which is movably inserted into the slot, and a bayonet is formed in a rod body of the fixed rod;

the glass plate clamping device comprises a base, and is characterized in that a placing groove for placing a glass plate is formed in the base, clamping cavities are formed in two sides of the placing groove in the base, magnetic blocks are movably arranged in the clamping cavities, clamping plates which movably extend into the placing groove are fixedly connected with the magnetic blocks, the clamping plates are in movable contact with the glass plate, an electromagnet is fixedly arranged in the clamping cavities, and springs are fixedly connected between the magnetic blocks and the clamping cavities;

the base is internally provided with a driving cavity, the inside of the placing groove is provided with an extrusion plate which movably stretches into the driving cavity, the extrusion plate is fixedly connected with a first elastic block with the inner wall of the placing groove, and the extrusion plate is in movable contact with the glass plate;

the control cavity is formed in the base, and a control device for controlling the electromagnet is arranged in the control cavity.

Preferably, the control device comprises a control rod movably arranged in the control cavity, one end of the control rod stretches into the driving cavity and is in movable contact with the extrusion plate, the control rod is fixedly connected with a second elastic block with the inner wall of the control cavity, the inner wall of the control cavity is fixedly connected with a telescopic rod, the telescopic rod is fixedly connected with a switch electrically connected with an electromagnet, the switch is in movable contact with the control rod, and the control rod is matched with the switch to control the electromagnet.

Preferably, the telescopic link is including fixed the setting fixed block on the control chamber inner wall, the movable chamber has been seted up to the fixed block inside, the movable intracavity portion is provided with the activity and stretches out the movable board of movable intracavity portion, movable board and movable chamber inner wall fixedly connected with third elastic block, the one end and the switch fixed connection that the movable board stretched out the movable chamber, the movable board is controlled by draw gear.

Preferably, the pulling device comprises a pulling groove formed in the base, a T-shaped rod movably extending into the clamping cavity is arranged in the pulling groove, a fourth elastic block is fixedly connected to the inner wall of the T-shaped rod and the inner wall of the pulling groove, a pull rope is fixedly connected between the T-shaped rod and the moving plate, and the T-shaped rod is driven by the jacking device.

Preferably, the jacking device comprises a jacking cavity arranged in the equipment box, a push rod which is movably inserted into the pulling groove and is movably contacted with the T-shaped rod is arranged in the jacking cavity, a fifth elastic block is fixedly connected with the inner wall of the jacking cavity and the push rod, and the push rod is driven by a locking device.

Preferably, the fixed rod is internally provided with a magnetic plate cavity, a magnetic plate which movably stretches into the driving cavity and is movably contacted with the extrusion plate is arranged in the magnetic plate cavity, the inner wall of the magnetic plate cavity is fixedly connected with an elastic rope, and the magnetic plate is movably stretched into the bayonet when being extruded by the extrusion plate.

Preferably, the locking device comprises a locking cavity formed in the equipment box, a magnetic rod which movably stretches into the bayonet is arranged in the locking cavity, the magnetic rod is magnetically connected with the magnetic plate, one end of the magnetic rod, far away from the slot, is sequentially and fixedly connected with an inclined block and a sixth elastic block, and the inclined block is in movable contact with the ejector rod.

The tempering device comprises a tempering device main body and further comprises the glass tempering frame.

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

1. placing a glass plate in a placing groove of a base, extruding the glass plate to extrude the extruding plate, driving the extruding plate to press down and continuously extend into a driving cavity, driving a control rod extrusion switch by an extruding plate extrusion control rod, electrifying an electromagnet to have magnetism, driving a magnetic block to drive a clamping plate to clamp the glass plate, extruding the magnetic plate by the extruding plate in the process, enabling one end of the magnetic plate to penetrate into a bayonet, and enabling the base to wrap and fix the bottom edge of the glass plate under the action of the clamping plate;

2. after the base is used for wrapping and fixing the glass plate, an operator places the glass plate inside the equipment box at the moment, so that the fixing rods extend into the slots, the left side and the right side of the glass plate are ensured to be positioned inside the stabilizing plates in the placing process, when the fixing rods extend into the slots, the magnetic plates are positioned inside the buckles at the moment, and under the action of magnetism, the magnetic rods extend into the bayonets to clamp the fixing rods, thereby completing the fixation of the base and the equipment box, and at the moment, the fixation between the glass plate and the equipment box is completed, so that the fixing is very convenient;

3. in the process that the magnetic rod stretches into the bayonet, the magnetic rod pulls the inclined block to squeeze the ejector rod so that the ejector rod stretches into the pulling groove, the T-shaped rod is driven to move upwards to stretch into the clamping cavity, the driving rod pulls the moving plate through the pull rope, the moving plate is contracted towards the movable cavity, the switch and the control rod are driven to be separated, at the moment, the electromagnet loses magnetism, at the moment, the magnetic block is reset under the action of the spring, at the moment, the clamping plate does not clamp the glass plate any more, a certain gap is reserved between the clamping plate and the glass plate, and a certain expansion space is reserved between the glass plate and the glass plate in the tempering heating process;

4. through base and stabilizer plate spaced setting for the glass board can not cause the influence to other glass boards when tempering heating's in-process, every glass board is heated and expands.

In the using process of the invention, the glass plate is firstly placed in the placing groove in the base, the two bases are placed at the bottom edge of the glass plate, the glass plate extrudes the extrusion plate in the placing groove, the extrusion plate is driven to move, so that the control rod is extruded, the control rod extrudes the switch, the electromagnet is electrified to have magnetism, the driving magnetic block drives the clamping plate to clamp the glass plate, the base is wrapped and fixed on the glass plate at the moment, the extrusion plate drives the control rod in the process of extruding the control rod, the extrusion plate extrudes the magnetic plate into the bayonet, the glass plate is extruded into the bayonet by a follow-up operator along the groove in the stabilizing plate, the fixing rod at the bottom of the base is simultaneously ensured to be inserted into the slot, when the fixing rod is inserted into the slot, the magnetic rod stretches into the bayonet under the action at the moment, the fixing rod is locked, the fixing between the base and the equipment box is completed at the moment, the magnetic rod stretches into the bayonet, the inclined block is pulled to extrude the inclined block, the inclined block and the ejector rod are enabled to stretch into the pulling groove, the T-shaped motion rod moves upwards, the T-shaped motion rod is driven to drive the T-shaped rod to move, the T-shaped sliding rod is enabled to be kept in the expansion plate, and the expansion space is not preserved in the process of stretching the glass plate, and the expansion spring is enabled to be driven to move up.

Drawings

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

FIG. 2 is a schematic perspective view of the equipment box of the present invention;

FIG. 3 is a schematic perspective view of a base of the present invention;

FIG. 4 is a schematic perspective view of a glass sheet sandwiched by a base wrap in accordance with the present invention;

FIG. 5 is a cross-sectional view showing the internal structure of the equipment cabinet of the present invention;

FIG. 6 is a cross-sectional view of the internal structure of the base of the present invention;

fig. 7 is a schematic view of the telescopic rod structure of the present invention.

In the figure: 1 equipment box, 2 glass plates, 3 slots, 4 stabilizing plates, 5 bases, 6 fixing rods, 7 bayonets, 8 placing grooves, 9 clamping cavities, 10 magnetic blocks, 11 clamping plates, 12 electromagnets, 13 springs, 14 driving cavities, 15 extrusion plates, 16 first elastic blocks, 17 control cavities, 18 control rods, 19 second elastic blocks, 20 telescopic rods, 21 switches, 22 fixing blocks, 23 movable cavities, 24 moving plates, 25 third elastic blocks, 26 pulling grooves, 27T-shaped rods, 28 fourth elastic blocks, 29 pull ropes, 30 jacking cavities, 31 ejector rods, 32 fifth elastic blocks, 33 magnetic plate cavities, 34 magnetic plates, 35 elastic ropes, 36 locking cavities, 37 magnetic rods, 38 oblique blocks, 39 sixth elastic blocks and 40 elastic rods.

Detailed Description

The following description of the embodiments of the present invention 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 invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-7, the present invention provides a technical solution:

embodiment one:

the utility model provides a glass tempering frame, including equipment box 1, glass board 2, equipment box 1 is inside to be spaced apart to be equipped with slot 3, equipment box 1 lateral wall interval is provided with the stabilizer plate 4 that is used for stabilizing glass board 2, equipment box 1 is inside to be movably to be provided with base 5, slot 3 is used for unable adjustment base 5, stabilizer plate 4 is fixed to be set up on equipment box 1's lateral wall, stabilizer plate 4 is inside to be provided with the groove that supplies glass board 2 to pass, when glass board 2 is in stabilizer plate 4's groove, both sides of glass board 2 are stabilizer plate 4, in order to play the fixed action;

the base 5 is connected with a fixed rod 6 which is movably inserted into the slot 3, the slot 3 is arranged at the bottom of the equipment box 1 at intervals, when the base 5 is fixed with the equipment box 1 through the fixed rod 6, the adjacent bases 5 are also in an interval state, and a bayonet 7 is arranged on the rod body of the fixed rod 6;

embodiment two:

considering that the bottom edge of the glass plate 2 is wrapped and clamped through the base 5, before the base 5 and the equipment box 1 are fixed, the base 5 should clamp the glass plate 2, so that subsequent installation is facilitated, meanwhile, considering that after the installation is completed, the glass plate 2 can generate certain expansion in the subsequent toughening process, at the moment, the base 5 cannot be in a clamping state with the glass plate 2, a placing groove 8 for placing the glass plate 2 is formed in the base 5, clamping cavities 9 are formed in the base 5 and are positioned on two sides of the placing groove 8, magnetic blocks 10 are movably arranged in the clamping cavities 9, clamping plates 11 which movably extend into the placing groove 8 are fixedly connected with the magnetic blocks 10, the clamping plates 11 are movably contacted with the glass plate 2, electromagnets 12 are fixedly arranged in the clamping cavities 9, springs 13 are fixedly connected between the magnetic blocks 10 and the clamping cavities 9, at the moment, magnetic force between the magnetic blocks 10 and the electromagnets is repulsive force, when the electromagnets 12 are electrified and have magnetism, the electromagnets 12 push the magnetic blocks 10 to move, the magnetic blocks 10 drive the clamping plates 11 to clamp the glass plate 2, and then the clamping plates 2 are required to be controlled, namely, the clamping of the glass plate 2 can be controlled, and the glass plate 2 can be completely clamped through the electromagnets 12, and the clamping of the glass plate 2 is not required to be controlled, namely, when the clamping plates 2 are fixed by the electromagnets 2;

the base 5 is internally provided with a driving cavity 14, the driving cavity 14 is provided with a lower part of the placing groove 8, the placing groove 8 is internally provided with a squeeze plate 15 which movably stretches into the driving cavity 14, the squeeze plate 15 and the inner wall of the placing groove 8 are fixedly connected with a first elastic block 16, the squeeze plate 15 is in movable contact with the glass plate 2, and when the glass plate 2 is placed in the placing groove 8, the glass plate 2 squeezes the squeeze plate 15, so that the squeeze plate 15 moves towards the direction of the driving cavity 14 to drive a subsequent structure;

a control cavity 17 is formed in the base 5, and a control device for controlling the electromagnet 12 is arranged in the control cavity 17.

Embodiment III:

on the basis of the second embodiment, the structure of the control device in the second embodiment is disclosed, the control device comprises a control rod 18 movably arranged in a control cavity 17, one end of the control rod 18 stretches into the driving cavity 14 and is in movable contact with a squeeze plate 15, one end of the control rod 18 stretching into the driving cavity 14 is in a slope shape, one end of the squeeze plate 15 stretching into the driving cavity 14 is in a cone shape, the situation that a follow-up mechanism is clamped during matching can be well prevented by the arrangement, a second elastic block 19 is fixedly connected to the inner walls of the control rod 18 and the control cavity 17, a telescopic rod 20 is fixedly connected to the inner walls of the control cavity 17, a switch 21 is fixedly connected to the telescopic rod 20 and is electrically connected with an electromagnet 12, the switch 21 is in movable contact with the control rod 18, the control rod 18 is matched with the switch 21, when the control rod 18 is in contact with the switch 21, the electromagnet 12 is electrified and has magnetism, and otherwise when the control rod 18 is separated from the switch 21, the electromagnet 12 is electrified and loses magnetism.

Embodiment four:

on the basis of the third embodiment, the structure of the telescopic rod 20 in the third embodiment is disclosed, the telescopic rod 20 comprises a fixed block 22 fixedly arranged on the inner wall of the control cavity 17, the fixed block 22 plays a role in fixing the telescopic rod 20, a movable cavity 23 is formed in the fixed block 22, a movable plate 24 movably extending out of the movable cavity 23 is arranged in the movable cavity 23, a third elastic block 25 is fixedly connected to the inner wall of the movable plate 24 and the movable cavity 23, the reset of the subsequent structure is facilitated by the arrangement of the third elastic block 25, one end of the movable plate 24 extending out of the movable cavity 23 is fixedly connected with the switch 21, the movable plate 24 is controlled by a pulling device, and the telescopic rod 20 is realized by driving the movable plate 24.

Fifth embodiment:

on the basis of the fourth embodiment, the structure of the pulling device of the fourth embodiment is disclosed, the pulling device comprises a pulling groove 26 formed in the base 5, a T-shaped rod 27 movably extending into the clamping cavity 9 is arranged in the pulling groove 26, a fourth elastic block 28 is fixedly connected to the inner wall of the T-shaped rod 27 and the pulling groove 26, a pull rope 29 is fixedly connected between the T-shaped rod 27 and the moving plate 24, the T-shaped rod is driven by a jacking device, when the T-shaped rod is driven by the jacking device to move upwards, one end of the T-shaped rod extends into the clamping cavity 9, meanwhile, the T-shaped rod pulls the moving plate 24 through the pull rope 29, so that the moving plate 24 contracts towards the inside of the movable cavity 23, and at the moment, the contraction of the telescopic rod 20 is completed.

Example six:

on the basis of the fifth embodiment, a structure of a jacking device in the fifth embodiment is disclosed, the jacking device comprises a jacking cavity 30 arranged in the equipment box 1, a jacking rod 31 which is movably inserted into the pulling groove 26 and is movably contacted with the T-shaped rod 27 is arranged in the jacking cavity 30, a fifth elastic block 32 is fixedly connected with the jacking rod 31 and the inner wall of the jacking cavity 30, the jacking rod 31 is driven by a locking device, when the locking device drives the jacking rod 31 to move, the jacking rod 31 extends into the pulling groove 26, and at the moment, the jacking rod 31 jacks up the T-shaped rod 27 to move upwards.

Embodiment seven:

considering that the effect of fixing the base 5 cannot be well achieved by inserting the fixing rod 6 into the slot 3, the locking device is driven by controlling the magnetic plate 34 in the embodiment, when the magnetic plate 34 stretches into the bayonet 7, the fixing rod 6 is inserted into the slot 3, the subsequent magnetic rod 37 can be driven to stretch into the bayonet 7 under the action of magnetic force, so that the fixing rod 6 placed into the slot 3 is clamped, the magnetic plate cavity 33 is formed in the fixing rod 6, the magnetic plate 34 which movably stretches into the driving cavity 14 and movably contacts with the extrusion plate 15 is arranged in the magnetic plate cavity 33, the elastic ropes 35 are fixedly connected to the inner walls of the magnetic plate 34 and the magnetic plate cavity 33, the magnetic plate 34 movably stretches into the bayonet 7 when being extruded by the extrusion plate 15, when the glass plate 2 is placed in the placing groove 8, the glass plate 2 extrudes the extrusion plate 15, and the extrusion plate 15 extrudes the magnetic plate 34 into the bayonet 7 when driving the control device.

Example eight:

on the basis of the sixth embodiment, the structure of the locking device in the sixth embodiment is disclosed, the locking device comprises a locking cavity 36 formed in the equipment box 1, a magnetic rod 37 which is movably arranged in the locking cavity 36 and stretches into the bayonet 7, the magnetic rod 37 is magnetically connected with a magnetic plate 34, one end of the magnetic rod 37, which is far away from the slot 3, is fixedly connected with an inclined block 38 and a sixth elastic block 39 in sequence, the inclined block 38 is movably contacted with the ejector rod 31, magnetic force between the magnetic rod 37 and the magnetic plate 34 is attractive force, when the magnetic plate 34 is positioned in the bayonet 7, the magnetic rod 37 can stretch into the bayonet 7 at the moment, when the magnetic plate 34 withdraws from the bayonet 7, the magnetic rod 37 withdraws from the bayonet 7 under the action of the sixth elastic block 39 at the moment, the inclined block 38 is used for driving the ejector rod 31, when the magnetic rod 37 stretches into the bayonet 7, the inclined block 38 is driven to move, and the ejector rod 31 is extruded into the pulling groove 26 to be used for driving the pulling device.

Specifically, the one end fixedly connected with that T shape pole 27 stretches into the inside clamp chamber 9 and magnet 10 movable contact's elastic rod 40, when electromagnet 12 outage loses magnetism, magnet 10 drives splint 11 and resets, in order to make in this process, clearance between splint 11 and the glass board 2 can not too big, when electromagnet 12 outage, T shape pole 27 is in the inside of clamp chamber 9 this moment, the in-process that magnet 10 reset is blocked by T shape pole 27, make magnet 10 can not complete reset, the too big problem in clearance between splint 11 and the glass board 2 after the effectual back that resets that has avoided, both guarantee not influencing the inflation of glass board 2, guarantee that splint 11 still has certain stable action to glass board 2 again, simultaneously when magnet 10 times T shape pole 27 blocks the magnet 10 that resets, magnet 10 is supported by elastic rod 40 this moment, magnet 10 and splint 11 have certain toughness throughout this moment, protection glass board 2 that can be better.

A tempering device comprises a tempering device main body and further comprises the glass tempering frame.

Working principle: in the use process, an operator places the bottom edge of the glass plate 2 in the placing groove 8 in the base 5, when the glass plate 2 enters the placing groove 8, the extruding plate 15 is extruded, the extruding plate 15 moves downwards, the control rod 18 is extruded to the switch 21, the electromagnet 12 is electrified to have magnetism, the driving magnetic block 10 drives the extruding plate 15 to extrude the glass plate, at the moment, the fixation between the base 5 and the glass plate 2 is completed, and meanwhile, the extruding plate 15 drives the control rod 18 and simultaneously extrudes the magnetic plate 34, so that the magnetic plate 34 stretches into the bayonet 7;

at this time, the operator only needs to place the glass plate 2 inside the equipment box 1 along the groove inside the stabilizing plate 4, and simultaneously makes the fixing rod 6 inserted into the slot 3, because the magnetic plate 34 is located inside the bayonet 7 at this time, when the fixing rod 6 is inserted into the slot 3, the magnetic rod 37 stretches into the bayonet 7 under the action of magnetic force to clamp the fixing rod 6, and at this time, the fixing between the base 5 and the equipment box 1 is completed;

in the process that the magnetic rod 37 stretches into the bayonet 7, the magnetic rod 37 drives the inclined block 38 to move, the inclined block 38 extrudes the ejector rod 31, the ejector rod 31 is jacked into the pulling groove 26, the ejector rod 31 extrudes the T-shaped rod 27, one end of the T-shaped rod stretches into the clamping cavity 9, meanwhile, in the process that the T-shaped rod 27 moves, the moving plate 24 is pulled, at the moment, the moving plate 24 drives the switch 21 and the control rod 18 to be separated, at the moment, the electromagnet 12 is powered off to lose magnetism, the magnetic block 10 drives the clamping plate 11 to reset under the action of the spring 13, and in the resetting process, the magnetic block 10 is blocked by the T-shaped rod, and meanwhile, the magnetic block 10 is contacted with the elastic rod 40, so that the clamping plate 11 is not clamped with the glass plate 2 any more, a certain space is reserved for the expansion of the glass plate 2 in the subsequent toughening process, meanwhile, the reserved distance between the clamping plate 11 and the glass plate 2 is not too large, the stability of the glass plate 2 is affected, and meanwhile, the clamping plate 11 is better in toughness is protected by the arrangement of the elastic rod 40.

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

Claims (7)

1. The utility model provides a glass tempering frame, includes equipment box (1), glass board (2), its characterized in that: slots (3) are formed in the equipment box (1) at intervals, stabilizing plates (4) used for stabilizing the glass plates (2) are arranged on the side walls of the equipment box (1) at intervals, and bases (5) are movably arranged in the equipment box (1);

the base (5) is connected with a fixed rod (6) which is movably inserted into the slot (3), and a bayonet (7) is formed on the rod body of the fixed rod (6);

the glass plate clamping device is characterized in that a placing groove (8) for placing the glass plate (2) is formed in the base (5), clamping cavities (9) are formed in the base (5) and located on two sides of the placing groove (8), magnetic blocks (10) are movably arranged in the clamping cavities (9), clamping plates (11) which movably extend into the placing groove (8) are fixedly connected with the magnetic blocks (10), the clamping plates (11) are in movable contact with the glass plate (2), electromagnets (12) are fixedly arranged in the clamping cavities (9), and springs (13) are fixedly connected between the magnetic blocks (10) and the clamping cavities (9);

the novel glass plate is characterized in that a driving cavity (14) is formed in the base (5), an extrusion plate (15) which movably stretches into the driving cavity (14) is arranged in the placing groove (8), a first elastic block (16) is fixedly connected to the extrusion plate (15) and the inner wall of the placing groove (8), and the extrusion plate (15) is in movable contact with the glass plate (2);

a control cavity (17) is formed in the base (5), and a control device for controlling the electromagnet (12) is arranged in the control cavity (17);

the inner wall of the control cavity (17) is fixedly connected with a telescopic rod (20);

the telescopic rod (20) comprises a fixed block (22) fixedly arranged on the inner wall of the control cavity (17), a movable cavity (23) is formed in the fixed block (22), a movable plate (24) which movably extends out of the movable cavity (23) is arranged in the movable cavity (23), and the movable plate (24) is controlled by a pulling device;

the pulling device comprises a pulling groove (26) formed in the base (5), a T-shaped rod (27) which movably stretches into the clamping cavity (9) is arranged in the pulling groove (26), and the T-shaped rod (27) is driven by the jacking device;

the jacking device comprises a jacking cavity (30) arranged in the equipment box (1), a jacking rod (31) which movably stretches into the pulling groove (26) and is in movable contact with the T-shaped rod (27) is arranged in the jacking cavity (30), a fifth elastic block (32) is fixedly connected with the inner wall of the jacking rod (31) and the inner wall of the jacking cavity (30), and the jacking rod (31) is driven by a locking device;

the locking device comprises a locking cavity (36) formed in the equipment box (1), a magnetic rod (37) which movably stretches into the bayonet (7) is arranged in the locking cavity (36), the magnetic rod (37) is magnetically connected with the magnetic plate (34), one end, far away from the slot (3), of the magnetic rod (37) is fixedly connected with an inclined block (38) and a sixth elastic block (39) in sequence, and the inclined block (38) is in movable contact with the ejector rod (31).

2. A glass tempering frame according to claim 1, wherein: the control device comprises a control rod (18) movably arranged in a control cavity (17), one end of the control rod (18) stretches into the driving cavity (14) and is movably contacted with the extrusion plate (15), a second elastic block (19) is fixedly connected to the inner wall of the control rod (18) and the inner wall of the control cavity (17), a switch (21) electrically connected with the electromagnet (12) is fixedly connected to the telescopic rod (20), the switch (21) is movably contacted with the control rod (18), and the control rod (18) and the switch (21) are matched with the electromagnet (12).

3. A glass tempering frame according to claim 2, wherein: the movable plate (24) and the inner wall of the movable cavity (23) are fixedly connected with a third elastic block (25), and one end of the movable plate (24) extending out of the movable cavity (23) is fixedly connected with the switch (21).

4. A glass tempering frame according to claim 3, wherein: the T-shaped rod (27) and the inner wall of the pulling groove (26) are fixedly connected with a fourth elastic block (28), and a pull rope (29) is fixedly connected between the T-shaped rod (27) and the moving plate (24).

5. A glass tempering frame according to claim 1, wherein: the utility model discloses a bayonet lock, including fixed lever (6), fixed lever (6) are inside to have offered magnetic plate chamber (33), magnetic plate chamber (33) inside be provided with the activity stretch into drive chamber (14) and with stripper plate (15) movable contact's magnetic plate (34), magnetic plate (34) and magnetic plate chamber (33) inner wall fixedly connected with elastic cord (35), inside activity stretch into bayonet socket (7) when magnetic plate (34) received the extrusion of stripper plate (15).

6. A glass tempering frame according to claim 1, wherein: one end of the T-shaped rod (27) extending into the clamping cavity (9) is fixedly connected with an elastic rod (40) which is in movable contact with the magnetic block (10).

7. The utility model provides a tempering device, includes tempering device main part, its characterized in that: a glass tempering frame according to any one of claims 1-6.

Images