CN113955928A - Glass tempering frame and tempering device thereof - Google Patents

Abstract

The invention provides a glass toughening frame and a toughening device thereof, which comprise 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 an extrusion plate is arranged in the base. In the use process of the glass plate tempering device, 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 finished, the clamping plate and the glass plate can be separated, so that an expansion space is reserved for the glass plate in the tempering process, the stability of the glass plate is ensured, and the expansion of a single glass plate does not influence 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

Tempered glass plays an important role in the current life, the glass of windows and display cabinets of high-rise residences can use the tempered glass with higher strength for safety, the tempered glass is formed by tempering the glass with a common structure in the processing process, and the glass needs to be placed in a tempering frame and then tempered in the tempering process of the glass.

The publication number is CN213835045U, and the laser glass toughening frame comprises a toughening frame main body, a floating rack and a fixed rack; the tempering frame main part includes first riser, the second riser and a plurality of connecting rods that are used for connecting first riser and second riser, the first riser of both ends difference fixed connection and the second riser of fixed rack, the first riser of both ends difference sliding connection and the second riser of the rack that floats, glass's both sides can be followed to the rack that floats and fixed rack and block glass, fixed rack fixed connection is in tempering frame main part, can inject glass's position, when glass is heated and takes place the inflation, the tip that the expanded glass can promote the rack that floats slides on first riser and second riser, make glass have certain inflation space, avoid the crooked burst of glass to split and fall the piece.

However, the above device still has the following problems in the implementation process:

all fix glass through unsteady rack and fixed rack among the prior art, through screwed connection between fixed rack and the riser, sliding connection between unsteady rack and the riser, such design makes the trouble that the process of fixed glass becomes very in the mounting bracket, and the setting of the fixed polylith glass board of rack that floats simultaneously for at the in-process of tempering, a glass board takes place the inflation, can drive the unsteady rack and lead to the fact the influence to other glass boards.

Disclosure of Invention

The invention aims to provide a glass toughening frame and a toughening device thereof, which aim to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

a 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 movably inserted into the slot, and a bayonet is arranged on the rod body of the fixed rod;

a placing groove for placing a glass plate is formed in the base, clamping cavities are formed in the base and located on two sides of the placing groove, magnetic blocks are movably arranged in the clamping cavities, the magnetic blocks are fixedly connected with clamping plates movably extending into the placing groove, the clamping plates are movably contacted with the glass plate, electromagnets are fixedly arranged in the clamping cavities, and springs are fixedly connected between the magnetic blocks and the clamping cavities;

a driving cavity is formed in the base, an extrusion plate movably extending into the driving cavity is arranged in the placing groove, the extrusion plate and the inner wall of the placing groove are fixedly connected with a first elastic block, and the extrusion plate is movably contacted with the glass plate;

the base is internally provided with a control cavity, and a control device for controlling the electromagnet is arranged in the control cavity.

Preferably, controlling means sets up the control lever in the control intracavity portion including the activity, control lever one end stretch into drive intracavity portion and with stripper plate movable contact, control lever and control intracavity wall fixedly connected with second elastic block, control intracavity wall fixedly connected with telescopic link, telescopic link fixedly connected with and electro-magnet electric connection's switch, switch and control lever movable contact, and control lever and switch cooperation control electro-magnet.

Preferably, the telescopic link is including the fixed block that sets up on the control intracavity wall, the activity chamber has been seted up to fixed block inside, activity intracavity portion is provided with the activity and stretches out the movable plate of activity intracavity portion, movable plate and activity intracavity wall fixedly connected with third elastic block, the movable plate stretches out the one end and the switch fixed connection in activity chamber, the movable plate is controlled by the pulling device.

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 inside the equipment box, an ejector rod movably extending into the pulling groove and movably contacted with the T-shaped rod is arranged inside the jacking cavity, a fifth elastic block is fixedly connected with the inner wall of the jacking cavity and the ejector rod, and the ejector rod is driven by a locking device.

Preferably, the inside magnetic sheet chamber of having seted up of dead lever, the magnetic sheet intracavity portion is provided with the activity and stretches into the drive chamber and with the magnetic sheet of stripper plate activity contact, magnetic sheet and magnetic sheet intracavity wall fixed connection elastic cord, the activity stretches into inside the bayonet socket when the magnetic sheet receives the extrusion of stripper plate.

Preferably, the locking device is including seting up the dead chamber of lock in the inside equipment box, the inside magnetic pole that the bayonet socket is stretched into in the activity that is provided with of the dead intracavity portion of lock, magnetic pole and magnetic sheet magnetism are connected, slot one end fixedly connected with sloping block and sixth elastic block in proper order are kept away from to the magnetic pole, sloping block and ejector pin movable contact.

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

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

1. the glass plate is placed in a placing groove of a base, the glass plate extrudes an extrusion plate, the extrusion plate is driven to be pressed down and continuously extend into a driving cavity, the extrusion plate extrudes a control rod to drive a control rod to extrude a switch, the electromagnet is electrified and has magnetism, the driving magnetic block drives a clamping plate to clamp the glass plate, and in the process, the extrusion plate extrudes a magnetic plate, so that one end of the magnetic plate is deep into a bayonet, and the base wraps and fixes the bottom edge of the glass plate under the action of the clamping plate;

2. after the base wraps and fixes the glass plate, the glass plate and the glass plate are placed inside the equipment box by an operator, the fixing rod extends into the slot, the left side and the right side of the glass plate are located inside the stabilizing plate in the placing process, when the fixing rod extends into the slot, the magnetic plate is located inside the buckle, the magnetic rod extends into the bayonet under the action of magnetism and clamps the fixing rod, the base is fixed with the equipment box, and the glass plate and the equipment box are fixed conveniently;

3. in the process that the magnetic rod extends into the bayonet, the magnetic rod pulls the inclined block to extrude the ejector rod to enable the ejector rod to extend into the pulling groove, the T-shaped rod is driven to move upwards to extend into the clamping cavity, the driving rod pulls the movable plate through the pull rope to enable the movable plate to contract towards the movable cavity, so that the switch and the control rod are driven to be separated, the electromagnet loses magnetism, the magnetic block resets under the action of the spring, the glass plate is not clamped by the clamping plate at the moment, a certain gap is reserved between the clamping plate and the glass plate, and a certain expansion space is reserved for the glass plate in the toughening and heating processes;

4. through the setting of base and steadying plate interval for the glass board is at the in-process of tempering heating, can not cause the influence to other glass boards when every glass board is heated the inflation.

In the using process of the invention, a glass plate is firstly placed in a placing groove in a base, two bases are placed at the bottom edge of the glass plate, the glass plate extrudes an extrusion plate in the process of placing the glass plate in the placing groove, the extrusion plate is driven to move so as to extrude a control rod, the control rod extrudes a switch, at the moment, an electromagnet is electrified and has magnetism, a driving magnetic block drives a clamping plate to clamp the glass plate, at the moment, the base wraps and fixes the glass plate, the extrusion plate extrudes the magnetic plate simultaneously in the process of driving the control rod by the extrusion plate, the magnetic plate is extruded into a bayonet, a subsequent operator puts the glass plate into an equipment box along a groove in a stabilizing plate, at the same time, a fixing rod at the bottom of the base is ensured to be inserted into the slot, at the moment, the magnetic rod extends into the bayonet under the action of magnetism when the fixing rod is inserted into the slot, deadlocking the dead lever, fixing between base and the equipment box has just been accomplished this moment, the magnetic pole stretches into the in-process of bayonet socket, the pulling sloping block, make sloping block and ejector pin extrusion, make the ejector pin stretch into the pulling inslot portion, drive T shape pole upward movement, T shape pole passes through stay cord pulling movable plate, make switch and control lever separation, the electro-magnet loses magnetism this moment, the magnetic path drives splint and resets under the effect of spring, splint no longer press from both sides tight glass board this moment, certain expansion space has been guaranteed to reserve for the glass board at the in-process of tempering heating.

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 cabinet of the present invention;

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

FIG. 4 is a schematic view of a three-dimensional structure of a glass plate wrapped and clamped by a base according to the present invention;

FIG. 5 is a sectional view showing the internal structure of the apparatus box of the present invention;

FIG. 6 is a 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: the device comprises a device box 1, a glass plate 2, a slot 3, a stabilizing plate 4, a base 5, a fixing rod 6, a bayonet 7, a placing groove 8, a clamping cavity 9, a magnetic block 10, a clamping plate 11, an electromagnet 12, a spring 13, a driving cavity 14, a squeezing plate 15, a first elastic block 16, a control cavity 17, a control rod 18, a second elastic block 19, a telescopic rod 20, a switch 21, a fixing block 22, a movable cavity 23, a movable plate 24, a third elastic block 25, a pulling groove 26, a T-shaped rod 27, a fourth elastic block 28, a pulling rope 29, a pushing cavity 30, a pushing rod 31, a fifth elastic block 32, a magnetic plate cavity 33, a magnetic plate 34, an elastic rope 35, a locking cavity 36, a magnetic rod 37, an inclined block 38, a sixth elastic block 39 and an elastic rod 40.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

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

the first embodiment is as follows:

a glass tempering frame comprises an equipment box 1 and a glass plate 2, wherein slots 3 are arranged in the equipment box 1 at intervals, stabilizing plates 4 for stabilizing the glass plate 2 are arranged on the side wall of the equipment box 1 at intervals, a base 5 is movably arranged in the equipment box 1, the slots 3 are used for fixing the base 5, the stabilizing plates 4 are fixedly arranged on the side wall of the equipment box 1, grooves for the glass plate 2 to pass through are arranged in the stabilizing plates 4, and when the glass plate 2 is positioned in the grooves of the stabilizing plates 4, the stabilizing plates 4 are arranged on two sides of the glass plate 2, so that a fixing effect is achieved;

the base 5 is connected with a fixed rod 6 movably inserted into the slot 3, the slots 3 are 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 in an interval state, and a bayonet 7 is arranged on the rod body of the fixed rod 6;

example two:

considering that the bottom edge of the glass plate 2 is wrapped and clamped by the base 5, before the base 5 and the equipment box 1 are fixed, the base 5 can clamp the glass plate 2, so that subsequent installation is facilitated, and simultaneously considering that the glass plate 2 can expand to a certain extent in the subsequent tempering process after the installation is completed, 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 located on two sides of the placing groove 8, magnetic blocks 10 are movably arranged in the clamping cavities 9, the magnetic blocks 10 are fixedly connected with clamping plates 11 movably extending into the placing groove 8, the clamping plates 11 are movably contacted with the glass plate 2, an electromagnet 12 is fixedly arranged in the clamping cavities 9, springs 13 are fixedly connected between the magnetic blocks 10 and the clamping cavities 9, and the magnetic force between the magnetic blocks 10 and the electromagnet is repulsive force, the clamping action is carried out on the glass plate 2 through the clamping plate 11, when the electromagnet 12 is electrified and has magnetism, the electromagnet 12 pushes the magnetic block 10 to move, the magnetic block 10 drives the clamping plate 11 to clamp the glass plate 2, the fixing between the base 5 and the glass plate 2 is completed, and when the clamping plate 11 is required to not clamp the glass plate 2 any more, the fixing can be completed by controlling the electromagnet 12;

a driving cavity 14 is formed in the base 5, the driving cavity 14 is formed below the placing groove 8, an extrusion plate 15 which movably extends into the driving cavity 14 is arranged in the placing groove 8, the extrusion plate 15 and the inner wall of the placing groove 8 are fixedly connected with a first elastic block 16, the extrusion 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 extrudes the extrusion plate 15, so that the extrusion plate 15 moves towards the driving cavity 14 to drive a subsequent structure;

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

Example three:

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 extends into a driving cavity 14 and is movably contacted with an extrusion plate 15, one end of the control rod 18 extending into the driving cavity 14 is in a slope shape, one end of the extrusion plate 15 extending into the driving cavity 14 is in a cone shape, the arrangement can well prevent the subsequent mechanism from being clamped in the matching process, a second elastic block 19 is fixedly connected with the inner walls of the control rod 18 and the control cavity 17, a telescopic rod 20 is fixedly connected with the inner wall of the control cavity 17, a switch 21 electrically connected with the electromagnet 12 is fixedly connected with the telescopic rod 20, the switch 21 is movably contacted with the control rod 18, the control rod 18 is matched with the switch 21 to control the electromagnet 12, when the control rod 18 is contacted with the switch 22, the electromagnet 12 is electrified and has magnetism, conversely, when the lever 18 and the switch 22 are disengaged, the electromagnet 12 is de-energized and becomes non-magnetic.

Example 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 inside the fixed block 22, a movable plate 24 movably extending out of the movable cavity 23 is arranged inside the movable cavity 23, a third elastic block 25 is fixedly connected to the inner walls of the movable plate 24 and the movable cavity 23, the third elastic block 25 is convenient to reset of a subsequent structure, 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 effect of the telescopic rod 20 is achieved by driving the movable plate 24.

Example five:

on the basis of the fourth embodiment, the four pulling device structures of the fourth embodiment are 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 walls of the T-shaped rod 27 and the pulling groove 26, a pulling 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 to move upwards by the jacking device, one end of the T-shaped rod extends into the clamping cavity 9, and meanwhile, the moving plate 24 is pulled by the pulling rope 29 through the T-shaped rod, so that the moving plate 24 contracts towards the inside of the moving cavity 23, and the contraction of the telescopic rod 20 is completed.

Example six:

on the basis of the fifth embodiment, the structure of the ejection device in the fifth embodiment is disclosed, the ejection device comprises an ejection cavity 30 formed in the equipment box 1, an ejector rod 31 which movably extends into the pulling groove 26 and is in movable contact with the T-shaped rod 27 is arranged in the ejection cavity 30, a fifth elastic block 32 is fixedly connected to the inner walls of the ejector rod 31 and the ejection cavity 30, the ejector rod 31 is driven by a locking device, when the ejector rod 31 is driven by the locking device to move, the ejector rod 31 extends into the pulling groove 26, and the ejector rod 31 ejects the T-shaped rod 27 to move upwards.

Example seven:

considering that the fixing effect of the base 5 cannot be well achieved only by inserting the fixing rod 6 into the slot 3, in this embodiment, the locking device is driven by controlling the magnetic plate 34, when the magnetic plate 34 extends into the bayonet 7, and at this time, when the fixing rod 6 is inserted into the slot 3, under the action of magnetic force, the subsequent magnetic rod 37 can be driven to extend into the bayonet 7, so as to clamp the fixing rod 6 inserted into the slot 3, the magnetic plate cavity 33 is opened inside the fixing rod 6, the magnetic plate cavity 33 is internally provided with the magnetic plate 34 movably extending into the driving cavity 14 and movably contacting with the extrusion plate 15, the inner walls of the magnetic plate 34 and the magnetic plate cavity 33 are fixedly connected with the elastic rope 35, when the magnetic plate 34 is extruded by the extrusion plate 15, the extrusion plate 15 movably extends into the bayonet 7, when the glass plate 2 is placed into the placement groove 8, the glass plate 2 extrudes the extrusion plate 15, while driving the control device, the magnetic plate 34 is pressed inside the bayonet 7.

Example eight:

on the basis of the sixth embodiment, a structure of the locking device in the sixth embodiment is disclosed, the locking device includes a locking cavity 36 provided inside the equipment box 1, a magnetic rod 37 movably extending into the bayonet 7 is provided inside the locking cavity 36, the magnetic rod 37 is magnetically connected with the 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 in movable contact 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 located inside the bayonet 7, the magnetic rod 37 can extend into the bayonet 7, when the magnetic plate 34 exits the bayonet 7, the magnetic rod 37 exits the bayonet 7 under the action of the sixth elastic block 39, the inclined block 38 is used for driving the ejector rod 31, when the magnetic rod 37 extends into the bayonet 7, the magnetic rod 37 drives the inclined block 38 to move, and the ejector rod 38 squeezes the ejector rod 31 in the process of moving, the plunger 31 is pressed into the inside of the pulling groove 26 for driving the pulling means.

Specifically, 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, when the electromagnet 12 is powered off and loses magnetism, the magnetic block 10 drives the clamping plate 11 to reset, so that in the process, the gap between the clamping plate 11 and the glass plate 2 cannot be too large, when the electromagnet 12 is powered off, the T-shaped rod 27 is positioned in the clamping cavity 9, the magnetic block 10 is blocked by the T-shaped rod 27 in the resetting process, the magnetic block 10 cannot be completely reset, the problem that the gap between the clamping plate 11 and the glass plate 2 is too large after the reset is effectively solved, the expansion of the glass plate 2 is not influenced, the clamping plate 11 still has a certain stabilizing effect on the glass plate 2, meanwhile, when the magnetic block 10 is 10 times that the T-shaped rod 27 blocks the reset magnetic block 10, the magnetic block 10 is supported by the elastic rod 40, and the magnetic block 10 and the clamping plate 11 have certain toughness, the glass plate 2 can be better protected.

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

The working principle is as follows: in the using 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 extrusion plate 15 is extruded, the extrusion plate 15 moves downwards, the control rod 18 is extruded, the control rod 18 extrudes the switch 21, the electromagnet 12 is electrified and has magnetism, the driving magnetic block 10 drives the extrusion plate 15 to extrude the glass plate, at the moment, the fixing between the base 5 and the glass plate 2 is completed, and simultaneously, when the extrusion plate 15 drives the control rod 18, the magnetic plate 34 is extruded, and the magnetic plate 34 extends into the bayonet 7;

at the moment, an operator only needs to place the glass plate 2 in the equipment box 1 along the groove in the stabilizing plate 4, and meanwhile, the fixing rod 6 is inserted into the slot 3, because the magnetic plate 34 is positioned in the bayonet 7, when the fixing rod 6 is inserted into the slot 3, the magnetic rod 37 extends into the bayonet 7 under the action of magnetic force to clamp the fixing rod 6, and at the moment, the fixing between the base 5 and the equipment box 1 is completed;

in the process that the magnetic rod 37 extends into the bayonet 7, the magnetic rod 37 drives the oblique block 38 to move, the oblique block 38 extrudes the ejector rod 31, the ejector rod 31 is ejected into the pulling groove 26, the ejector rod 31 extrudes the T-shaped rod 27, one end of the T-shaped rod extends into the clamping cavity 9, meanwhile, in the process that the T-shaped rod 27 moves, the moving plate 24 is pulled, the moving plate 24 drives the switch 21 and the control rod 18 to separate, the electromagnet 12 is powered off and loses magnetism, the magnetic block 10 drives the clamping plate 11 to reset under the action of the spring 13, in the resetting process, the magnetic block 10 is blocked by the T-shaped rod, and 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 tempering process, and the reserved distance between the clamping plate 11 and the glass plate 2 is not too large, so that the stability of the glass plate 2 is influenced, at the same time, the elastic rod 40 is arranged, so that the clamping plate 11 has a certain protective glass plate 2 with better toughness.

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

Claims (9)

1. The utility model provides a glass tempering frame, includes equipment box (1), glass board (2), its characterized in that: the device comprises an equipment box (1), wherein slots (3) are arranged in the equipment box (1) at intervals, stabilizing plates (4) for stabilizing glass plates (2) are arranged on the side wall of the equipment box (1) at intervals, and a base (5) is movably arranged in the equipment box (1);

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

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), the magnetic blocks (10) are fixedly connected with clamping plates (11) movably extending into the placing groove (8), the clamping plates (11) are movably contacted 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);

a driving cavity (14) is formed in the base (5), an extrusion plate (15) which movably extends 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 movably contacted with the glass plate (2);

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

2. The rack for tempering glass according to claim 1, wherein: controlling means sets up control lever (18) inside control chamber (17) including the activity, control lever (18) one end stretch into drive chamber (14) inside and with stripper plate (15) movable contact, control lever (18) and control chamber (17) inner wall fixedly connected with second elastic block (19), control chamber (17) inner wall fixedly connected with telescopic link (20), telescopic link (20) fixedly connected with and electro-magnet (12) electric connection's switch (21), switch (21) and control lever (18) movable contact, and control lever (18) and switch (21) cooperation control electro-magnet (12).

3. The rack for tempering glass according to claim 2, wherein: telescopic link (20) are including fixed block (22) that set up on control chamber (17) inner wall, movable chamber (23) have been seted up to fixed block (22) inside, movable chamber (23) inside is provided with the activity and stretches out movable chamber (23) inside movable plate (24), movable plate (24) and movable chamber (23) inner wall fixedly connected with third elastic block (25), movable plate (24) stretch out the one end and switch (21) fixed connection in movable chamber (23), movable plate (24) are controlled by the pulling device.

4. The rack for tempering glass according to claim 3, wherein: the pulling device comprises a pulling groove (26) formed in the base (5), a T-shaped rod (27) which is movably arranged in the pulling groove (26) and extends into the clamping cavity (9), a fourth elastic block (28) is fixedly connected to the inner walls 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), and the T-shaped rod is driven by a jacking device.

5. The rack for tempering glass according to claim 4, wherein: the jacking device comprises a jacking cavity (30) arranged inside the equipment box (1), a jacking rod (31) which is movably arranged inside the jacking cavity (30) and movably extends into the pulling groove (26) and movably contacts with the T-shaped rod (27), a fifth elastic block (32) fixedly connected with the inner wall of the jacking cavity (30) and the jacking rod (31) are driven by a locking device.

6. The rack for tempering glass according to claim 1, wherein: dead lever (6) inside has been seted up magnetic sheet chamber (33), magnetic sheet chamber (33) inside is provided with the activity and stretches into drive chamber (14) and with magnetic sheet (34) of stripper plate (15) movable contact, magnetic sheet (34) and magnetic sheet chamber (33) inner wall fixed connection have elastic rope (35), the activity stretches into bayonet socket (7) inside when magnetic sheet (34) receive the extrusion of stripper plate (15).

7. The rack for tempering glass according to claim 6, wherein: the device of dying is including offering at inside lock dead chamber (36) of equipment box (1), lock dead chamber (36) inside is provided with the activity and stretches into inside magnetic pole (37) of bayonet socket (7), magnetic pole (37) and magnetic sheet (34) magnetism are connected, slot (3) one end is kept away from in magnetic pole (37) fixedly connected with sloping block (38) and sixth elastic block (39) in proper order, sloping block (38) and ejector pin (31) movable contact.

8. The rack for tempering glass according to claim 5, 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 movably contacted with the magnetic block (10).

9. The utility model provides a tempering device, includes the tempering device main part, its characterized in that: further comprising a glass tempering frame according to any of the preceding claims 1-8.

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