CN114770774B - Intelligent antistatic stable toughened glass cutting equipment - Google Patents

Abstract

The invention discloses intelligent antistatic stable toughened glass cutting equipment which comprises a shell, wherein a cutting knife is arranged at the top of the shell through a control mechanism, a stabilizing mechanism is arranged in the shell and comprises two U-shaped plates fixedly connected to the bottom of the shell through two fixing rods, two bidirectional lead screws are respectively connected to the inner walls of the two U-shaped plates in a rotating mode, two sliding blocks are connected to the side walls of the bidirectional lead screws in a threaded mode, and the side walls of the sliding blocks are attached to the side walls of the U-shaped plates. According to the invention, the clamping of the clamping bars to the toughened glass is changed from flexible clamping to hard clamping by the stabilizing mechanism, so that damage to the toughened glass is avoided, and meanwhile, as the clamping bars are movably connected in the strip-shaped cavity, when the height of the surface of the toughened glass is changed, the moving-out length of the clamping bars when the clamping bars are contacted with the surface of the toughened glass is correspondingly changed, so that the toughened glass in different shapes can be fixed, and the practicability of the toughened glass is improved.

Description

Intelligent antistatic stable toughened glass cutting equipment

Technical Field

The invention relates to the technical field of toughened glass cutting, in particular to intelligent antistatic stable toughened glass cutting equipment.

Background

The toughened glass is glass with compressive stress on the surface, and is prepared by reinforcing the glass by a toughening method, and in the production process of the toughened glass, the toughened glass is required to be cut into products meeting the production requirements.

At present need fix it before to toughened glass cutting, but present fixed mode all is the manual work and carries out hard fixed to it, and the damage on toughened glass surface very easily again to can only press from both sides tightly planar toughened glass, the practicality is lower, toughened glass in addition, the friction between toughened glass and the cutting knife can produce static at the cutting process, makes the static can adsorb glass piece on toughened glass surface, when making processing back manual work take out toughened glass, the glass piece is easy to operating personnel's hand fish tail this moment.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and provides intelligent antistatic stable toughened glass cutting equipment.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the utility model provides an intelligent antistatic stable form toughened glass cutting equipment, includes the casing, the cutting knife is installed through control mechanism at the casing top, be equipped with stabilizing mean in the casing, stabilizing mean includes two U templates bottom the casing through two dead lever fixed connection, two U template inner wall rotates respectively and is connected with two bi-directional lead screws, bi-directional lead screw lateral wall threaded connection has two sliders, slider lateral wall and laminating of U template lateral wall, U template top and bottom are connected with two diaphragms through a plurality of slide bars, a plurality of bar chambeies have been seted up in the diaphragm, bar chambeies inner wall sealing sliding connection has the clamp lever, clamp lever lateral wall passes through spring and bar chambeies inner wall elastic connection, the slider lateral wall passes through reservoir and U template inner wall fixed connection, the reservoir inner wall passes through connecting pipe and bar chambeies inner wall intercommunication, the diaphragm inner wall inlays and is equipped with two opposite electromagnetic plates of different poles, the U inner wall inlays and is equipped with two first electromagnetic plates, two slider lateral wall inlays respectively be equipped with two first electromagnetic plates complex second electromagnetic plates, second electromagnetic plates and two electromagnetic plates correspond on the second electromagnetic plates and the second electromagnetic plates that the reservoir inner bag inner wall is equipped with the electromagnetic coupling.

Preferably, the electric mechanism that disappears is including seting up a plurality of recesses that are close to the clamp lever lateral wall at the diaphragm, recess opening part fixedly connected with resonance plate, the lateral wall that the resonance plate is close to the recess inner wall passes through connecting rod fixedly connected with first board, first board lateral wall passes through imbibition bag and recess inner wall elastic connection, the lateral wall fixedly connected with atomizer that the diaphragm is close to the cutting knife, imbibition bag inner wall fixedly connected with unidirectional liquid suction pipe, imbibition bag inner wall passes through unidirectional drain pipe and atomizer inner wall intercommunication.

Preferably, the first plate is made of permanent magnetic materials, a spiral coil is embedded in the inner wall of the groove, and the spiral coil is coupled and connected with the two electromagnetic plates through a rectifier.

Preferably, the shell is provided with a driving mechanism, the driving mechanism comprises two first rods fixedly connected to the top and the bottom of the U-shaped plate, the side wall of each first rod is rotationally connected with a second rod, the side wall of each sliding block is rotationally connected with a third rod, the side wall of each third rod, which is far away from the sliding block, is rotationally connected with a fourth rod, and the side wall of each fourth rod, which is far away from the transverse plate, is rotationally connected with the side wall of each second rod, which is far away from the third rod.

Preferably, the shell is provided with a transmission mechanism, the transmission mechanism comprises a motor fixedly connected to the bottom of the shell, the movable end of the motor is fixedly connected with the lower end of one of the two-way screw rods, the side wall of the movable shaft of the motor is fixedly connected with a driving wheel, the lower end of the other two-way screw rod is fixedly connected with a driven wheel, and a synchronous belt is connected between the driving wheel and the driven wheel.

Compared with the prior art, the invention has the advantages that:

1: through setting up stabilizing mean for the clamp lever changes hard clamp by flexible clamp to toughened glass's clamp, avoids causing the damage to toughened glass, simultaneously because a plurality of clamp levers are swing joint in the bar chamber, and then when toughened glass surface height variation, the shift-out length when clamp lever and toughened glass surface contact also can corresponding change this moment, thereby can fix the toughened glass of different shapes, increase its practicality.

2: through setting up the electricity mechanism that disappears for when the cutting knife works, can spray atomizing coolant liquid to cutting knife and toughened glass cutting department this moment, can derive the static on toughened glass surface and eliminate on the one hand, avoid glass piece viscosity on toughened glass surface, can also cool down on cutting knife and the toughened glass, increase cutting security.

3: in the up-and-down moving process of the first plate, the spiral coil can cut the magnetic induction lines and generate induction current, and then electrifies the electromagnetic plate again, so that magnetism on the electromagnetic plate is increased, shearing force of magnetorheological fluid in a plurality of strip-shaped cavities is increased, stability of toughened glass is increased again, and movement of the toughened glass in the cutting process is avoided.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent antistatic stable toughened glass cutting apparatus according to the present invention;

FIG. 2 is an enlarged schematic view of the structure shown at A in FIG. 1;

fig. 3 is an enlarged schematic view of the structure at B in fig. 1.

In the figure: 1 casing, 2 control mechanism, 3 cutting knives, 4U template, 5 bi-directional lead screw, 6 sliders, 7 slide bars, 8 transverse plates, 9 reservoir, 10 bar chamber, 11 clamp lever, 12 springs, 13 connecting pipes, 14 electromagnetic plates, 15 first conducting plates, 16 second conducting plates, 17 first poles, 18 second poles, 19 third poles, 20 fourth poles, 21 motors, 22 driving wheels, 23 driven wheels, 24 grooves, 25 resonance plates, 26 first plates, 27 fluid-absorbing bags, 28 atomizing spray heads, 29 unidirectional fluid-absorbing pipes, 30 unidirectional fluid-outlet pipes and 31 spiral coils.

Detailed Description

Referring to fig. 1-3, an intelligent antistatic stable toughened glass cutting apparatus comprises a housing 1, wherein a cutting knife 3 is installed at the top of the housing 1 through a control mechanism 2, and it should be noted that the control mechanism 2 can control the cutting knife 3 to rotate and move up and down and forward and backward, which is the prior art.

The inside of the shell 1 is provided with a stabilizing mechanism, the stabilizing mechanism comprises two U-shaped plates 4 fixedly connected to the bottom of the shell 1 through two fixing rods, the inner walls of the two U-shaped plates 4 are respectively connected with two bidirectional screws 5 in a rotating mode, the side walls of the bidirectional screws 5 are connected with two sliding blocks 6 in a threaded mode, the side walls of the sliding blocks 6 are attached to the side walls of the U-shaped plates 4, the top and the bottom of the U-shaped plates 4 are connected with two transverse plates 8 through a plurality of sliding rods 7, a plurality of strip-shaped cavities 10 are formed in the transverse plates 8, the inner walls of the strip-shaped cavities 10 are connected with clamping rods 11 in a sliding mode in a sealing and sliding mode, the side walls of the clamping rods 11 are elastically connected with the inner walls of the strip-shaped cavities 10 through springs 12, the side walls of the sliding blocks 6 are fixedly connected with the inner walls of the U-shaped plates 4 through liquid storage bags 9, the inner walls of the liquid storage bags 9 are communicated with the inner walls of the strip-shaped cavities 10 through connecting pipes 13, two electromagnetic plates 14 with opposite heteropoles are embedded in the inner walls of the U-shaped plates 4, two first conductive plates 15 are embedded in the inner walls of the transverse plates 6, two second conductive plates 16 are matched with the two electromagnetic plates 15 are embedded in the inner walls of the transverse plates 6, a plurality of the first conductive plates 15 are respectively, a plurality of second conductive plates 15 are arranged in the inner walls of the first conductive plates 16, and two electromagnetic liquid storage bags corresponding to the two electromagnetic structures are connected with the electromagnetic structures in the two electromagnetic structures and are connected in a mode, and connected with the electromagnetic power supply, and with the electromagnetic structures in each through the electromagnetic structures, and between the electromagnetic structures and between each magnetic storage device and 9.

The shell 1 is provided with a driving mechanism, the driving mechanism comprises two first rods 17 fixedly connected to the top and the bottom of the U-shaped plate, the side walls of the first rods 17 are rotationally connected with second rods 18, the side walls of the sliding blocks 6 are rotationally connected with third rods 19, the side walls of the third rods 19 away from the sliding blocks 6 are rotationally connected with the side walls of the second rods 18 in a sliding manner, the side walls of the transverse plates 8 are rotationally connected with fourth rods 20, and the side walls of the transverse plates 8 away from the fourth rods 20 are rotationally connected with the side walls of the second rods 18 away from the third rods 19 in a sliding manner.

Further, keep away from each other at two sliders 6 and make two diaphragm 8 in-process that is close to each other, clamp lever 11 can at first be with toughened glass surface contact this moment, simultaneously at slider 6 in-process that removes, reservoir 9 shrink this moment, squeeze the magnetorheological fluid in the reservoir 9 to a plurality of bar chambeies 10, then can make clamp lever 11 receive the thrust increase of magnetorheological fluid, and then increase the contact dynamics between clamp lever 11 and the toughened glass surface, in this process, clamp lever 11 is flexible clamp to the clamp of toughened glass surface, when slider 6 continues to slide and makes first electrically conductive board 15 and second electrically conductive board 16 subsides, the circular telegram is generated magnetism on this moment, and then the magnetorheological fluid in a plurality of bar chambeies 10 can become big under the effect of magnetic field, and then fix the position of a plurality of clamp levers 11, press from both sides tight fixedly to toughened glass, simultaneously because a plurality of clamp levers 11 are swing joint in bar chambeies 10, and then when the high change of toughened glass surface, the clamp lever 11 can corresponding change of removal length when contacting toughened glass surface this moment, thereby can increase the practicality to it.

The sterilizing mechanism comprises a plurality of grooves 24 formed in the lateral wall of the transverse plate 8, which is close to the side wall of the clamping rod 11, a resonant plate 25 is fixedly connected to the opening of the grooves 24, a first plate 26 is fixedly connected to the side wall of the resonant plate 25, which is close to the inner wall of the grooves 24, through a connecting rod, a first plate 26 side wall is elastically connected with the inner wall of the grooves 24 through a liquid suction bag 27, a plurality of atomizing nozzles 28 are fixedly connected to the side wall of the transverse plate 8, which is close to the cutting knife 3, a unidirectional liquid suction pipe 29 is fixedly connected to the inner wall of the liquid suction bag 27, and the inner wall of the liquid suction bag 27 is communicated with the inner wall of the atomizing nozzle 28 through a unidirectional liquid outlet pipe 30.

The unidirectional liquid suction pipe 29 only allows the external cooling liquid to enter the liquid suction bag 27, and the unidirectional liquid discharge pipe 30 only allows the cooling liquid to enter the atomizing nozzle 28 from the liquid suction bag 27.

Further, the resonance plate 25 can be deformed up and down under the vibration effect generated in the cutting process of the toughened glass by the cutting knife 3, and then the first plate 26 intermittently extrudes and stretches the liquid suction bag 27, so that the liquid suction bag 27 can pump cooling liquid into the atomizing nozzle 28, the cooling liquid is atomized and sprayed out, static electricity on the surface of the toughened glass can be led out and eliminated on one hand, the viscosity of glass fragments is avoided on the surface of the toughened glass, the cutting knife 3 and the toughened glass can be cooled, and the cutting safety is improved.

The first plate 26 is made of permanent magnetic material, a spiral coil 31 is embedded in the inner wall of the groove 24, and the spiral coil 31 is coupled with the two electromagnetic plates 14 through a rectifier.

Further, in the process of moving the first plate 26 up and down, the spiral coil 31 can cut the magnetic induction lines and generate induced current, so that the electromagnetic plate 14 is electrified again, the magnetism of the electromagnetic plate 14 is increased, the shearing force of magnetorheological fluid in the plurality of strip-shaped cavities 10 is increased, the stability of toughened glass is increased again, and the position of the toughened glass is prevented from moving in the cutting process.

The shell 1 is provided with a transmission mechanism, the transmission mechanism comprises a motor 21 fixedly connected to the bottom of the shell 1, the movable end of the motor 21 is fixedly connected with the lower end of one of the two-way screw rods 5, the side wall of a movable shaft of the motor 21 is fixedly connected with a driving wheel 22, the lower end of the other two-way screw rod 5 is fixedly connected with a driven wheel 23, and a synchronous belt is connected between the driving wheel 22 and the driven wheel 23.

In the invention, toughened glass is placed between two transverse plates 8, a driving motor 21 rotates positively, and then under the action of a driving wheel 22, a driven wheel 23 and a synchronous belt, two bidirectional screw rods 5 synchronously rotate in the same direction at the moment, so that two sliding blocks 6 positioned on the bidirectional screw rods 5 are far away from each other, the sliding blocks 6 drive a second rod 18 to rotate through a third rod 19, and the second rod 18 drives the transverse plates 8 to move towards the direction close to the toughened glass through a fourth rod 20, so that a plurality of clamping rods 11 positioned on the transverse plates 8 are contacted with the surface of the toughened glass;

during the sliding process of the sliding block 6, the liquid storage bag 9 is extruded, so that the liquid storage bag 9 is contracted, magnetorheological fluid in the liquid storage bag 9 is extruded into the plurality of strip-shaped cavities 10 through the plurality of connecting pipes 13, then the pushing force of the clamping rod 11 on the magnetorheological fluid is increased, the contact force between the clamping rod 11 and the surface of toughened glass is increased, in the process, the clamping of the clamping rod 11 on the surface of the toughened glass is flexible clamping, when the sliding block 6 continues to slide to enable the first conductive plate 15 to be attached to the second conductive plate 16, the two electromagnetic plates 14 are electrified and magnetized, so that the magnetorheological fluid in the plurality of strip-shaped cavities 10 is enabled to be larger in shearing force under the action of a magnetic field, the positions of the plurality of clamping rods 11 are fixed, the toughened glass is clamped and fixed, and then the control mechanism 2 is controlled, so that the toughened glass is cut by the cutting knife 3;

the cutting knife 3 can vibrate in the process of cutting toughened glass, at the moment, the resonant plate 25 can deform up and down on the inner wall of the groove 24 under the action of vibration, so that the first plate 26 is driven to slide up and down, the first plate 26 intermittently extrudes and stretches the liquid suction bag 27, the liquid suction bag 27 can pump cooling liquid into the atomizing nozzle 28 through the unidirectional liquid suction pipe 29 and the unidirectional liquid outlet pipe 30, so that the cooling liquid is atomized and sprayed out, on one hand, static electricity on the surface of toughened glass can be led out and eliminated, the viscosity of glass scraps on the surface of the toughened glass is avoided, and the cutting knife 3 and the toughened glass can be cooled, so that the cutting safety is improved;

in the process of moving the first plate 26 up and down, the spiral coil 31 can cut the magnetic induction lines and generate induced current, and then direct current is led into the electromagnetic plate 14 again through the rectifier, so that magnetism on the electromagnetic plate 14 is increased, shearing force of magnetorheological fluid in the plurality of strip-shaped cavities 10 is increased, stability of toughened glass is increased again, and position movement of the toughened glass in the cutting process is avoided.

Claims (4)

1. The utility model provides an intelligent antistatic stable form toughened glass cutting equipment, includes casing (1), cutting knife (3) are installed through control mechanism (2) at casing (1) top, a serial communication port, be equipped with stabilizing mean in casing (1), stabilizing mean includes two U template (4) bottom casing (1) through two dead lever fixed connection, two U template (4) inner wall rotates respectively and is connected with two bi-directional lead screw (5), bi-directional lead screw (5) lateral wall threaded connection has two slider (6), slider (6) lateral wall and U template (4) lateral wall laminating, U template (4) top and bottom are connected with two diaphragm (8) through a plurality of slide bars (7), a plurality of bar chamber (10) have been seted up in diaphragm (8), bar chamber (10) inner wall sealing sliding connection has clamp bar (11), clamp bar (11) lateral wall passes through spring (12) and bar chamber (10) inner wall elastic connection, reservoir (6) lateral wall passes through reservoir (9) and U template (4) lateral wall laminating, two diaphragm (14) are equipped with two diaphragm (13) inner wall fixed connection through to diaphragm (13), the inner wall of the U-shaped plate (4) is embedded with two first conductive plates (15), the side walls of the two sliding blocks (6) are respectively embedded with two second conductive plates (16) matched with the two first conductive plates (15), the second conductive plates (16), the two electromagnetic plates (14) corresponding to the second conductive plates (16) and an external power supply are connected in series, magnetorheological fluid is arranged in the liquid storage bag (9), and the transverse plate (8) is provided with an electricity eliminating mechanism;

be equipped with actuating mechanism on casing (1), actuating mechanism includes two first poles (17) of fixed connection at U template top and bottom, first pole (17) lateral wall rotation is connected with second pole (18), slider (6) lateral wall rotation is connected with third pole (19), lateral wall and second pole (18) lateral wall sliding rotation connection are kept away from to third pole (19), diaphragm (8) lateral wall rotation is connected with fourth pole (20), lateral wall and second pole (18) lateral wall sliding rotation connection that keep away from diaphragm (8) are kept away from to fourth pole (20), two sliders (6) on same bi-directional lead screw (5) keep away from each other can drive two diaphragm (8) on same U template (4) and be close to each other.

2. The intelligent antistatic stable tempered glass cutting device according to claim 1, wherein the sterilizing mechanism comprises a plurality of grooves (24) formed in the side wall of a transverse plate (8) close to a clamping rod (11), resonance plates (25) are fixedly connected to openings of the grooves (24), the side wall of the resonance plates (25) close to the inner wall of the grooves (24) is fixedly connected with a first plate (26) through a connecting rod, the side wall of the first plate (26) is elastically connected with the inner wall of the grooves (24) through a liquid suction bag (27), a plurality of atomizing nozzles (28) are fixedly connected to the side wall of the transverse plate (8) close to a cutting knife (3), a unidirectional liquid suction pipe (29) is fixedly connected to the inner wall of the liquid suction bag (27), and the inner wall of the liquid suction bag (27) is communicated with the inner wall of the atomizing nozzle (28) through a unidirectional liquid outlet pipe (30).

3. An intelligent antistatic stable tempered glass cutting device according to claim 2, wherein the first plate (26) is made of permanent magnetic material, a spiral coil (31) is embedded in the inner wall of the groove (24), and the spiral coil (31) is coupled with the two electromagnetic plates (14) through a rectifier.

4. The intelligent antistatic stable tempered glass cutting device according to claim 1, wherein a transmission mechanism is arranged on the shell (1), the transmission mechanism comprises a motor (21) fixedly connected to the bottom of the shell (1), the movable end of the motor (21) is fixedly connected with the lower end of one of the bidirectional screw rods (5), the side wall of the movable shaft of the motor (21) is fixedly connected with a driving wheel (22), the lower end of the other bidirectional screw rod (5) is fixedly connected with a driven wheel (23), and a synchronous belt is connected between the driving wheel (22) and the driven wheel (23).

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