CN112570808A - Glass window manufacturing system convenient to section bar corner cut - Google Patents

Abstract

The invention discloses a glass window manufacturing system convenient for profile corner cutting, wherein a corner cutting support component comprises a corner cutting base, a corner cutting conveyor belt, a corner cutting slide plate and a corner cutting cylinder, the corner cutting component comprises a corner cutting support, a corner cutting slide seat, two cutters, two cutter holders, a corner cutting adjusting screw rod and a corner cutting screw rod motor, a corner cutting positioning component comprises a corner cutting guide plate, a second corner cutting screw rod, a first corner cutting plate and a second corner cutting support plate, the corner cutting conveyor belt transports profiles, the cutting knife cuts the section bar by driving the cutting angle sliding seat to move downwards through the cutting angle screw rod motor, the sliding first cutting gusset plate and the second cutting gusset plate can be adjusted according to the length of the section bar, the cutting angle adjusting screw rod can be rotated to adjust the distance of the cutting knife through the knife holder, therefore, the profile can be accurately cut, the corner cutting precision and the profile quality are improved, and the problem that the profile quality is reduced due to the fact that manual corner cutting is adopted in the existing equipment is solved.

Description

Glass window manufacturing system convenient to section bar corner cut

Technical Field

The invention relates to the field of glass window production equipment, in particular to a glass window manufacturing system convenient for profile corner cutting.

Background

Aluminum alloy door and window refers to the door and window that adopts the aluminium alloy to make for frame, center pillar, door leaf, and is called aluminium door and window now many times. Compared with doors and windows made of other materials, the aluminum alloy doors and windows have the advantages of light dead weight, high strength, good sealing performance and wide application.

In the production process, the existing equipment mostly adopts manual corner cutting to reduce the quality of the section.

Disclosure of Invention

The invention aims to provide a glass window manufacturing system convenient for corner cutting of a section bar, and aims to solve the problem that the quality of the section bar is reduced due to the fact that manual corner cutting is mostly adopted in existing equipment.

In order to achieve the above object, the present invention provides a glass window manufacturing system convenient for profile corner cut, comprising a corner cutting machine and a transfer machine, wherein the transfer machine is located at one side of the corner cutting machine, the corner cutting machine comprises a corner cutting support assembly, a corner cutting assembly and a corner cutting positioning assembly, the corner cutting support assembly comprises a corner cutting base, a corner cutting conveyor belt, a corner cutting slide plate and a corner cutting cylinder, the corner cutting conveyor belt is rotatably connected with the corner cutting base and located at one side of the corner cutting base, the corner cutting slide plate is slidably connected with the corner cutting base and located at one side of the corner cutting conveyor belt, a slide bar of the corner cutting cylinder is fixedly connected with the corner cutting slide plate and located at one side of the corner cutting base, the corner cutting assembly comprises a corner cutting support, a corner cutting slide seat, two cutters, two cutter seats, a corner cutting adjusting screw and a corner cutting screw motor, the corner cutting support is fixedly connected with the corner cutting base, the chamfering positioning component comprises a chamfering guide plate, a second chamfering screw, a first chamfering support plate and a second chamfering support plate, the chamfering guide plate is connected with the chamfering base in a sliding manner and is positioned on one side of the chamfering base, the second chamfering screw is connected with the chamfering base in a threaded manner, and the first gusset plate and the second gusset plate are provided with a plurality of corner cutting holes, and the first gusset plate and the second gusset plate are connected with the corner cutting base in a sliding way and are positioned at one side close to the corner cutting sliding plate.

The corner cutting support assembly further comprises a corner cutting bin, the corner cutting bin is fixedly connected with the corner cutting base and is located on one side of the corner cutting sliding plate.

The corner cutting assembly further comprises a corner cutting pressing rod, the corner cutting pressing rod is connected with the corner cutting sliding seat in a sliding mode, and the corner cutting pressing rod is located on one side of the corner cutting sliding seat.

The corner cutting assembly further comprises a corner cutting gasket, the corner cutting gasket is fixedly connected with the corner cutting pressing rod and is located on one side of the corner cutting pressing rod.

The tool apron comprises a base body, a rotating block and a locking screw, the rotating block is rotatably connected with the base body and is positioned on one side of the base body, and the locking screw is in threaded connection with the rotating block and the base body and penetrates through the rotating block and the base body.

Wherein, the transfer machine comprises a transfer support component, a vibration reduction component and a transfer emptying component, the transfer support component comprises a transfer platform, a plurality of rollers and a handle, the rollers are fixedly connected with the transfer platform and are positioned on one side of the transfer platform, the handle is fixedly connected with the transfer platform and is positioned on one side of the transfer platform far away from the rollers, the vibration reduction component comprises an annular rubber pad, a plurality of vibration reduction springs, a sealing plate and a sliding column, the sliding column is slidably connected with the transfer platform and is positioned on one side of the transfer platform close to the handle, the sealing plate is fixedly connected with the sliding column and is positioned on one side of the sliding column, the annular rubber pad is provided with an air hole, the annular rubber pad is fixedly connected with the sealing plate and the transfer platform and is positioned between the sealing plate and the transfer platform, and the plurality of vibration reduction springs are fixedly connected with the sealing plate, the transfer discharging assembly comprises a discharging platform, a plurality of round rollers, a heightening screw, an adjusting hand, a pressing rod, a supporting column and an adjusting gear, the heightening screw is connected with the sealing plate in a rotating mode and located on one side, far away from the damping spring, of the sealing plate, the discharging platform is in threaded connection with the heightening screw and located on one side of the heightening screw, the round rollers are connected with the discharging platform in a rotating mode and located on one side, far away from the sealing plate, of the discharging platform, the adjusting gear is connected with the transfer platform in a rotating mode and meshed with the heightening screw, the adjusting hand is fixedly connected with the adjusting gear and located on one side of the adjusting gear, and the pressing rod is connected with the discharging platform in a sliding mode and located on one side of the discharging platform.

Wherein, it still includes two transportation guard plates and two protection pads to transport the blowing subassembly, two the transportation guard plate with blowing platform fixed connection, and be located the both sides of blowing platform, two the protection pad is with two transport guard plate fixed connection, and be located one side of transportation guard plate.

The transfer discharging assembly further comprises a pressing pad, the pressing pad is fixedly connected with the pressing rod and located on one side, close to the discharging table, of the pressing rod.

Wherein, transport blowing subassembly still includes the control lever, the control lever with compress tightly pole fixed connection, and be located compress tightly the pole and be close to one side of handle.

Wherein, transport supporting component still includes the roll pin, the gyro wheel has the arch, roll the pin with the transfer platform sliding connection to be located the transfer platform is close to protruding one side.

The invention relates to a glass window manufacturing system convenient for cutting corners of sectional materials, wherein a corner cutting conveyer belt is rotatably connected with a corner cutting base and is positioned at one side of the corner cutting base so as to convey the sectional materials needing corner cutting to the corner cutting base, a corner cutting sliding plate is slidably connected with the corner cutting base and is positioned at one side of the corner cutting conveyer belt, the position of the sectional materials can be limited through the corner cutting sliding plate, a sliding rod of a corner cutting air cylinder is fixedly connected with the corner cutting sliding plate and is positioned at one side of the corner cutting base, the corner cutting sliding plate can be moved through the corner cutting air cylinder, a corner cutting assembly comprises a corner cutting bracket, a corner cutting sliding seat, two cutters, two cutter seats, a corner cutting adjusting screw rod and a corner cutting screw rod motor, the corner cutting bracket is fixedly connected with the corner cutting base and is positioned at one side of the corner cutting base, and the corner cutting sliding seat is slidably connected with the corner cutting bracket, the cutting angle adjusting screw rod is rotatably connected with the cutting angle sliding seat and penetrates through the cutting angle sliding seat, the cutting angle adjusting screw rod is provided with two symmetrical end threads, the two cutter seats are in threaded connection with the cutting angle adjusting screw rod and are in sliding connection with the cutting angle sliding seat, the two cutter seats can be moved simultaneously to adjust the position by rotating the cutting angle adjusting screw rod, so that the cutting angles of sectional materials with different lengths can be conveniently performed, the two cutters are respectively fixedly connected with the two cutter seats and are positioned on one side of the cutter seats, the cutters are driven by a motor to perform the cutting angle action, the cutting angle screw rod motor is fixedly connected with the cutting angle bracket, and the screw rod of the cutting angle screw rod motor is in threaded connection with the cutting angle sliding seat, the cutting angle positioning component comprises a cutting angle guide plate, a second cutting angle screw rod, a first cutting angle support plate and a second cutting angle support plate, the cutting angle guide plate is connected with the cutting angle base in a sliding mode and is positioned on one side of the cutting angle base, the position of the section can be limited through the matching of the cutting angle guide plate and the cutting angle sliding plate, so that the cutting angle can be accurately performed, the second cutting angle screw rod is connected with the cutting angle base in a threaded mode and is connected with the cutting angle guide plate in a rotating mode, the position of the cutting angle guide plate can be changed through rotating the second cutting angle screw rod, the cutting angle positioning component is suitable for sections with different diameters, and the first cutting angle support plate and the second cutting angle support plate are provided with a plurality of cutting angle holes, the first corner cutting gusset plate and the second corner cutting gusset plate are connected with the corner cutting base plate in a sliding mode and are located on one side close to the corner cutting sliding plate, the blade can be allowed to pass through the corner cutting holes, the first corner cutting gusset plate and the second corner cutting gusset plate can be adjusted according to the length of the profile in a sliding mode, therefore, the profile can be cut accurately, the corner cutting precision and the profile quality are improved, and the problem that manual corner cutting is adopted in existing equipment to enable the profile quality to be reduced is solved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a front block diagram of a corner cutting machine of a rapid-clean glazing manufacturing system of the present invention;

FIG. 2 is a rear block diagram of a corner cutting machine of a rapid cleaning glazing manufacturing system of the present invention;

FIG. 3 is a bottom block diagram of a corner cutting machine of a rapid-clean glazing manufacturing system of the present invention;

FIG. 4 is a front block diagram of a transfer machine of a rapid cleaning glazing manufacturing system of the present invention;

FIG. 5 is a rear block diagram of a transfer machine of a rapid cleaning glazing manufacturing system of the present invention;

FIG. 6 is a schematic cross-sectional view of a transfer machine of a rapid-clean glazing manufacturing system of the present invention;

FIG. 7 is a front block diagram of an assembly machine of a rapid cleaning glazing manufacturing system of the present invention;

FIG. 8 is a rear view of the assembly machine of a rapid cleaning glazing manufacturing system of the present invention;

fig. 9 is a top view of the assembly machine of a rapid cleaning glazing manufacturing system of the present invention.

2-corner cutting machine, 3-transfer machine, 4-assembling machine, 21-corner cutting support component, 22-corner cutting component, 23-corner cutting positioning component, 211-corner cutting base, 212-corner cutting conveying belt, 213-corner cutting sliding plate, 214-corner cutting cylinder, 215-corner cutting bin, 216-corner cutting pressing rod, 217-corner cutting gasket, 221-corner cutting bracket, 222-corner cutting sliding seat, 223-cutting knife, 224-knife seat, 225-corner cutting adjusting screw, 226-corner cutting screw motor, 231-corner cutting guide plate, 232-second corner cutting screw, 233-first corner cutting plate, 234-second corner cutting support plate, 2331-corner cutting hole, 2241-seat body, 2242-rotating block, 2243-locking screw, 31-transfer support component, 32-vibration reduction assembly, 33-transferring and discharging assembly, 311-transferring table, 312-roller, 313-handle, 314-rolling stop rod, 321-annular rubber pad, 322-vibration reduction spring, 323-sealing plate, 324-sliding column, 331-discharging table, 332-round roller, 333-heightening screw, 334-adjusting hand, 335-pressing rod, 336-supporting rod, 337-adjusting gear, 338-transferring protective plate, 339-protective pad, 340-pressing pad, 341-control rod, 3211-air hole, 3121-protrusion, 41-assembling support assembly, 42-assembling rotating assembly, 43-gluing assembly, 411-assembling base, 412-assembling support, 413-assembling foot rest, 414-non-slip pad, 421-window frame mold, 422-fixed frame, 423-assembled rotating rod, 424-assembled motor, 425-assembled baffle, 426-positioning column, 427-buffer plate, 431-glue gun, 432-transverse sliding rod, 433-longitudinal supporting rod, 434-sliding block, 435-glue coating support, 4111-assembled through hole, 4221-frame body, 4222-fixed rod, 4223-fixed plate, 4224-fixed spring and 4225-slide-out through hole.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention. Further, in the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Referring to fig. 1 to 9, the present invention provides a system for manufacturing a glass window, which facilitates corner cutting of a profile, including:

cornering machine 2, transfer machine 3 and kludge 4, cornering machine 2 includes corner cut supporting component 21, corner cut subassembly 22 and corner cut locating component 23, corner cut supporting component 21 includes corner cut base 211, corner cut conveyer belt 212, corner cut slide 213 and corner cut cylinder 214, corner cut conveyer belt 212 with corner cut base 211 rotates to be connected, and is located one side of corner cut base 211, corner cut slide 213 with corner cut base 211 sliding connection, and is located one side of corner cut conveyer belt 212, the slide bar of corner cut cylinder 214 with corner cut slide 213 fixed connection, and is located one side of corner cut base 211, corner cut subassembly 22 includes corner cut support 221, corner cut slide 222, two cutters 223, two blade holders 224, corner cut adjusting screw 225 and corner cut screw motor 226, corner cut support 221 with corner cut base 211 fixed connection, and is located at one side of the chamfering base 211, the chamfering slide base 222 is slidably connected with the chamfering support 221 and is located at one side of the chamfering support 221, the chamfering adjusting screw 225 is rotatably connected with the chamfering slide base 222 and passes through the chamfering slide base 222, two tool holders 224 are threadedly connected with the chamfering adjusting screw 225 and are slidably connected with the chamfering slide base 222, two cutters 223 are fixedly connected with the two tool holders 224 and are located at one side of the tool holders 224, the chamfering screw motor 226 is fixedly connected with the chamfering support 221, a screw of the chamfering screw motor 226 is threadedly connected with the chamfering slide base 222, the chamfering positioning assembly 23 includes a chamfering guide plate 231, a second chamfering screw 232, a first chamfering support plate 233 and a second chamfering support plate 234, the chamfering guide plate 231 is slidably connected with the chamfering base 211, and is located at one side of the corner cut base 211, the second corner cut screw 232 is screw-coupled to the corner cut base 211 and is rotatably coupled to the corner cut guide plate 231, the first and second corner cut plates 233 and 234 each have a plurality of corner cut holes 2331, and the first and second corner cut plates 233 and 234 are slidably coupled to the corner cut base 211 and are located at one side close to the corner cut slider 213.

In this embodiment, the corner cutting support assembly 21 includes a corner cutting base 211, a corner cutting conveyor belt 212, a corner cutting slide plate 213 and a corner cutting cylinder 214, the corner cutting conveyor belt 212 is rotatably connected to the corner cutting base 211 and is located at one side of the corner cutting base 211, so as to convey a profile to be subjected to corner cutting to the corner cutting base 211, the corner cutting slide plate 213 is slidably connected to the corner cutting base 211 and is located at one side of the corner cutting conveyor belt 212, the position of the profile can be defined by the corner cutting slide plate 213, the slide rod of the corner cutting cylinder 214 is fixedly connected to the corner cutting slide plate 213 and is located at one side of the corner cutting base 211, the corner cutting slide plate 213 can be moved by the corner cutting cylinder 214, and the corner cutting assembly 22 includes a corner cutting bracket 221, a corner cutting slide 222, two cutting knives 223, two knife seats 224, a corner cutting adjusting screw 225, A corner cutting screw motor 226, the corner cutting bracket 221 is fixedly connected to the corner cutting base 211 and is located at one side of the corner cutting base 211, the corner cutting slide seat 222 is slidably connected to the corner cutting bracket 221 and is located at one side of the corner cutting bracket 221, the corner cutting bracket 221 is used for supporting the corner cutting slide seat 222 to be capable of sliding up and down, the corner cutting adjusting screw 225 is rotatably connected to the corner cutting slide seat 222 and penetrates through the corner cutting slide seat 222, the corner cutting adjusting screw 225 has two symmetrical end threads, the two tool seats 224 are in threaded connection with the corner cutting adjusting screw 225 and are slidably connected to the corner cutting slide seat 222, the two tool seats 224 can be moved simultaneously to adjust positions by rotating the corner cutting adjusting screw 225, so as to facilitate the corner cutting of profiles with different lengths, and the two cutters 223 are respectively fixedly connected to the two tool seats 224, and is located at one side of the knife holder 224, the cutter 223 is driven by a motor to perform a corner cutting action, the corner cutting screw motor 226 is fixedly connected with the corner cutting bracket 221, the screw of the corner cutting screw motor 226 is in threaded connection with the slide, the slide can be driven to move up and down by starting the corner cutting screw motor 226, so that the blade contacts with the profile to perform cutting, the corner cutting positioning component 23 comprises a corner cutting guide plate 231, a second corner cutting screw 232, a first corner cutting plate 233 and a second corner cutting plate 234, the corner cutting guide plate 231 is in sliding connection with the corner cutting base 211 and is located at one side of the corner cutting base 211, the position of the profile can be limited by the cooperation of the corner cutting guide plate 231 and the corner cutting slide plate 213, so that the corner cutting can be performed more accurately, the second corner cutting screw 232 is in threaded connection with the corner cutting base 211, the first gusset plate 233 and the second gusset plate 234 are both provided with a plurality of gusset holes 2331, the first gusset plate 233 and the second gusset plate 234 are slidably connected with the gusset base 211 and are positioned at one side close to the gusset sliding plate 213, the blade can be allowed to pass through the gusset holes 2331, and the sliding of the first gusset plate 233 and the second gusset plate 234 can be adjusted according to the length of the profile, so that the profile can be accurately cut, the gusset precision and the profile quality are improved, and the problem that the profile quality is reduced due to the fact that manual corner cutting is mostly adopted by existing equipment is solved.

Further, the corner cutting support assembly 21 further comprises a corner cutting box 215, and the corner cutting box 215 is fixedly connected with the corner cutting base 211 and is located on one side of the corner cutting sliding plate 213.

In this embodiment, the corner cut bin 215 is disposed on one side of the corner cut sliding plate 213, so that after the corner cut is completed, the corner cut sliding plate 213 is slid, and the second corner cut screw 232 is rotated, so that the finished product can be pushed out and fall into the corner cut bin 215 by the corner cut guiding plate 231, thereby facilitating the next processing.

Further, the corner cutting assembly 22 further comprises a corner cutting hold-down rod 216, and the corner cutting hold-down rod 216 is slidably connected to the corner cutting slide 222 and is located at one side of the corner cutting slide 222.

In this embodiment, the chamfer pressing rod 216 and the chamfer slide 222 are fixedly connected, so that the chamfer slide 222 can move downwards together, and the profile can be further pressed in the cutting process, so that the chamfer quality can be improved. Additionally, a spring is provided between the corner cut hold down bar 216 and the corner cut slide 222 to increase the hold down effect while still allowing the blade to continue to move during hold down.

Further, the corner cutting assembly 22 further includes a corner cutting gasket 217, and the corner cutting gasket 217 is fixedly connected to the corner cutting pressing rod 216 and is located on one side of the corner cutting pressing rod 216.

In this embodiment, the corner cutting gasket 217 is used to protect the profile from being crushed by the corner cutting pressing rod 216, so as to improve the corner cutting quality.

Further, blade holder 224 includes pedestal 2241, turning block 2242 and locking screw 2243, turning block 2242 with pedestal 2241 rotates to be connected, and is located one side of pedestal 2241, locking screw 2243 with turning block 2242 with pedestal 2241 threaded connection, and pass turning block 2242 with pedestal 2241.

In this embodiment, the turning block 2242 can be relative the pedestal 2241 rotates to can adjust the setting and be in two inclination of cutter 223 on the turning block 2242 for can cut out the section bar of different angles, thereby can enlarge application range, and can also finely tune the angle, make 45 jiaos can set up more accurately, and through rotating locking screw 2243 can be right the turning block 2242 with the pedestal 2241 locks, makes the operation more stable.

Further, the transfer machine 3 includes a transfer support assembly 31, a vibration reduction assembly 32 and a transfer emptying assembly 33, the transfer support assembly 31 includes a transfer table 311, a plurality of rollers 312 and a handle 313, the plurality of rollers 312 are fixedly connected to the transfer table 311 and located on one side of the transfer table 311, the handle 313 is fixedly connected to the transfer table 311 and located on one side of the transfer table 311 away from the rollers 312, the vibration reduction assembly 32 includes an annular rubber pad 321, a plurality of vibration reduction springs 322, a sealing plate 323 and a sliding column 324, the sliding column 324 is slidably connected to the transfer table 311 and located on one side of the transfer table 311 close to the handle 313, the sealing plate 323 is fixedly connected to the sliding column 324 and located on one side of the sliding column 324, the annular rubber pad 321 has an air hole 3211, the annular rubber pad 321 is fixedly connected to the sealing plate 323 and the transfer table 311, the transfer and emptying assembly 33 comprises an emptying platform 331, a plurality of round rollers 332, an elevation screw 333, an adjusting hand 334313, a pressing rod 335, a supporting column 336 and an adjusting gear 337, the elevation screw 333 is rotatably connected with the sealing plate 323 and is located on one side of the sealing plate 323 away from the damping spring 322, the emptying platform 331 is in threaded connection with the elevation screw 333 and is located on one side of the elevation screw 333, the round rollers 332 are rotatably connected with the emptying platform 331 and are located on one side of the emptying platform 331 away from the sealing plate 323, the adjusting gear 337 is rotatably connected with the transfer platform 311 and is engaged with the elevation screw 333, the adjusting hand 334 is fixedly connected with the adjusting gear 337, and is located at one side of the adjusting gear 337, and the pressing rod 335 is slidably connected to the discharging table 331 and is located at one side of the discharging table 331.

In this embodiment, the transferring support assembly 31 includes a transferring platform 311, a plurality of rollers 312 and a handle 313, the plurality of rollers 312 are fixedly connected to the transferring platform 311 and located at one side of the transferring platform 311, so that the transferring platform 311 can be moved conveniently, the handle 313 is fixedly connected to the transferring platform 311 and located at one side of the transferring platform 311 away from the rollers 312, so that the user can push the transferring platform, the damping assembly 32 includes an annular rubber pad 321, a plurality of damping springs 322, a sealing plate 323 and a sliding column 324, the sliding column 324 is slidably connected to the transferring platform 311 and located at one side of the transferring platform 311 close to the handle 313, the sealing plate 323 is fixedly connected to the sliding column 324 and located at one side of the sliding column 324, the sliding column 324 is used for supporting the sealing plate 323 to slide up and down relative to the transferring platform 311, the annular rubber pad 321 has an air hole 3211, the annular rubber pad 321 is fixedly connected to the sealing plate 323 and the transfer table 311 and is located between the sealing plate 323 and the transfer table 311, the annular rubber pad 321 has elasticity and can allow the sealing plate 323 to move up and down in a short distance, and suck in and exhaust air through the air hole 3211 during the up and down movement, and buffer the air, the plurality of damping springs 322 are fixedly connected to the sealing plate 323 and are located between the sealing plate 323 and the transfer table 311, the damping springs 322 are used for enhancing the damping effect and supporting the sealing plate 323 at a certain height so as to move up and down conveniently, the transferring and discharging assembly 33 includes a discharging table 331, a plurality of round rollers 332, a height adjusting screw 333, an adjusting hand 334, a pressing rod 335, a supporting column 336 and an adjusting gear 337, the height-adjusting screw 333 is rotatably connected to the sealing plate 323 and located at a side of the sealing plate 323 away from the damping spring 322, the sealing plate 323 can move up and down by rotating the height-adjusting screw 333, so that the height can be changed according to different conveying lines, so that the loading and unloading can be more conveniently performed, the material-discharging table 331 is threadedly connected to the height-adjusting screw 333 and located at a side of the height-adjusting screw 333, a plurality of round rollers 332 are rotatably connected to the material-discharging table 331 and located at a side of the material-discharging table 331 away from the sealing plate 323, the material-discharging table 331 is used to support the round rollers 332, friction during glass window loading can be reduced by the round rollers 332, so that the loading is more smooth, the adjusting gear 337 is rotatably connected to the transfer table 311 and engaged with the height-adjusting screw 333, and the adjusting hand 334 is fixedly connected to the adjusting gear 337, the adjusting gear 337 can be driven to rotate by the adjusting hand 334, so that the adjusting gear 337 can drive the height-adjusting screw 333 to rotate, the height of the material placing table 331 can be conveniently adjusted, the pressing rod 335 is slidably connected to the material placing table 331 and is located on one side of the material placing table 331, and the pressing rod 335 is used for clamping a glass window. Through set up the ring-shaped rubber pad 321 on the sealing plate 323 with the transfer platform 311, and be provided with gas pocket 3211 on the ring-shaped rubber pad 321, when receiving external vibration, the sealing plate 323 can reciprocate under the support of damping spring 322, through the exhaust of breathing in of gas pocket 3211, simultaneously can be through air with damping spring 322 absorbs vibration, make can make the glass window on the blowing platform 331 places more stably, thereby solve current transfer device and produce easily and rock and collide with, influence the production quality's of product problem.

Further, the transporting and emptying assembly 33 further comprises two transporting protection plates 338 and two protection pads 339, wherein the two transporting protection plates 338 are fixedly connected with the emptying table 331 and located on two sides of the emptying table 331, and the two protection pads 339 are fixedly connected with the two transporting protection plates 338 and located on one side of the transporting protection plates 338.

In this embodiment, the two transportation protection plates 338 are located at two sides of the material placing table 331 to prevent the glass window from sliding off the material placing table, and the two protection pads 339 are made of rubber material to protect the glass window and prevent the glass window from being damaged.

Further, the transferring and emptying assembly 33 further comprises a pressing pad 340, and the pressing pad 340 is fixedly connected with the pressing rod 335 and is located on one side of the pressing rod 335 close to the emptying table 331.

In this embodiment, the pressing pad 340 is used to increase the friction between the pressing rod 335 and the glass window, and make the contact surface softer, so that the glass window can be prevented from being scratched while being clamped.

Further, the transferring and emptying assembly 33 further comprises a control rod 341, and the control rod 341 is fixedly connected with the pressing rod 335 and is located on one side of the pressing rod 335 close to the handle 313.

In this embodiment, the control rod 341 allows the pressing rod 335 to be operated near the handle 313, and a locking rod is further provided at one side of the control rod 341, so that the control rod 341 may be slid down to be locked by the locking rod, thereby stabilizing the fixing.

Further, the transportation support assembly 31 further includes a rolling bar 314, the roller 312 has a protrusion 3121, and the rolling bar is slidably connected to the transportation table 311 and is located on a side of the transportation table 311 close to the protrusion 3121.

In this embodiment, the roller 314 may slide relative to the rotation table, and the roller 312 has a protrusion 3121, so that when a vehicle needs to be parked, the roller 314 may be moved to one side of the roller 312 by pressing down the roller 314, the roller 312 may be limited by the protrusion 3121, so that the rotation of the roller 312 may be limited to achieve the purpose of parking, and for enhancing the effect, a groove may be formed in the roller 314, so that the protrusion 3121 may enter the groove, so that the braking effect may be enhanced.

Further, the assembling machine 4 includes an assembling support component 41, an assembling rotation component 42 and a gluing component 43, the assembling support component 41 includes an assembling base 411, an assembling support 412 and an assembling foot stool 413, the assembling base 411 has an assembling through hole 4111, the assembling support 412 is fixedly connected with the assembling base 411 and is located at one side of the assembling base 411, the assembling foot stool 413 is fixedly connected with the assembling base 411 and is located at one side of the assembling base 411 far away from the assembling support 412, the assembling rotation component 42 includes a window frame mold 421, a fixing frame 422, assembling rotation rods 423, an assembling motor 424 and an assembling baffle 425, the number of the assembling rotation rods 423 is two, the two assembling rotation rods 423 are rotatably connected with the assembling support 412 and are located at two sides of the assembling base 411, the fixing frame 422 is fixedly connected with the assembling rotation rods 423, and is located in the assembly through hole 4111, the window frame mold 421 is connected with the fixed frame 422 in a shell-detaching manner, and is located at one side of the fixed frame 422, the assembly motor 424 is connected with the assembly rotating rod 423 in a rotating manner, and is located at one side of the assembly rotating rod 423, the assembly baffle 425 is connected with the fixed frame 422 in a fixed manner, and is located at one side of the fixed frame 422, the gluing assembly 43 includes a glue gun 431, a transverse sliding rod 432, a longitudinal support rod 433, a sliding block 434 and a gluing support 435, the gluing support 435 is connected with the assembly base 411 in a fixed manner, and is located at one side of the gluing support 435, the longitudinal support rod 433 is connected with the transverse sliding rod 432 in a sliding manner, and is located at one side of the transverse sliding rod 432, the sliding block 434 is connected with the longitudinal support rod 433 in a sliding manner, and is located at one side of the longitudinal support rod 433, and the glue gun 431 is fixedly connected with the sliding block 434 and is located at one side of the sliding block 434 close to the assembly base 411.

In this embodiment, the assembly support assembly 41 includes an assembly base 411, an assembly support 412 and an assembly foot stool 413, the assembly base 411 has an assembly through hole 4111, the assembly support 412 is fixedly connected with the assembly base 411 and located at one side of the assembly base 411 for supporting the assembly base 411, the assembly foot stool 413 is fixedly connected with the assembly base 411 and located at one side of the assembly base 411 away from the assembly support 412 for providing a gap between the assembly base 411 and the ground so as to allow rotation, the assembly rotation assembly 42 includes a window frame mold 421, a fixed frame 422, an assembly rotating rod 423, an assembly motor 424 and an assembly baffle 425, the two assembly rotating rods 423 are rotatably connected with the assembly support 412 and located at two sides of the assembly base 411, the window frame mold 421 is detachably connected with the fixed frame 422, the assembling motor 424 is rotatably connected with the assembling rotating rod 423 and is positioned at one side of the assembling rotating rod 423 to drive the rotating rod to rotate, the assembling baffle 425 is fixedly connected with the fixing frame 422 and is positioned at one side of the fixing frame 422, and after the fixing frame 422 is turned over for 180 degrees, the position of the fixing frame 422 can be fixed by the contact between the assembling baffle 425 and the assembling base 411, so that the glue can be applied; the gluing assembly 43 comprises a glue gun 431, a transverse sliding rod 432, a longitudinal supporting rod 433, a sliding block 434 and a gluing bracket 435, wherein the gluing bracket 435 is fixedly connected with the assembly base 411 and is positioned at one side of the assembly base 411, the transverse sliding rod 432 is slidably connected with the gluing bracket 435 and is positioned at one side of the gluing bracket 435, the transverse sliding rod 432 can be supported by the gluing bracket 435 to slide up and down, the longitudinal supporting rod 433 is slidably connected with the transverse sliding rod 432 and is positioned at one side of the transverse sliding rod 432, the transverse sliding rod 432 supports the longitudinal sliding rod to slide longitudinally, the sliding block 434 is slidably connected with the longitudinal supporting rod 433 and is positioned at one side of the longitudinal supporting rod 433, the longitudinal supporting rod 433 supports the sliding block to slide in the horizontal direction, and the glue gun 431 is fixedly connected with the sliding block 434, and is located the sliding block 434 is close to one side of equipment base 411, can drive through the screw motor horizontal slide 432, vertical slide bar and sliding block 434 for glue gun 431 can contact the glass window in fixed frame 422 glues and scribbles, thereby can conveniently carry out the rubber coating to the both sides of window frame, thereby solve current equipment can only the single face rubber coating and need artifical upset glass window make the problem that processingquality reduces.

Further, the assembly rotating assembly 42 further includes a positioning post 426 and a buffering plate 427, the positioning post 426 is fixedly connected to the assembly rotating rod 423 and is located at one side of the assembly rotating rod 423, and the buffering plate 427 is fixedly connected to the assembly bracket 412 and is located at one side of the positioning post 426.

In this embodiment, the positioning post 426 is disposed at one side of the assembling rotating rod 423 to rotate along with the assembling rotating rod 423, and the buffering plate 427 is disposed on the assembling bracket 412 to provide support when the rotating rod is turned 180 ° or returned to the original position, and at the same time, since the buffering plate 427 is supported by the rubber material, it can also play a role of buffering, thereby reducing vibration.

Further, the fixing frame 422 includes a frame 4221, a fixing rod 4222, a fixing plate 4223 and a fixing spring 4224, the fixing rod 4222 is slidably connected with the frame 4221 and is located at one side of the frame 4221, the fixing plate 4223 is fixedly connected with the fixing rod 4222 and is located in the frame 4221, and the fixing spring 4224 is fixedly connected with the fixing rod 4222 and is located between the fixing rod 4222 and the frame 4221.

In this embodiment, the frame 4221 supports the window frame mold 421, the fixing rod 4223 is supported by the fixing rod 4222 to be slidable with respect to the frame 4221, and the window frame mold 421 is supported by the fixing spring 4224 to be easily fixed.

Further, the fixing frame 422 further comprises a slide-out through hole 4225, and the slide-out through hole 4225 is located at one side of the fixing frame 422.

In this embodiment, the sliding-out through hole 4225 is disposed at one side of the fixing frame 422, and is used for pulling out the window frame mold 421 through the sliding-out through hole 4225 by loosening the fixing rod 4222 after the processing is completed, so that the window frame mold 421 can be more conveniently taken out.

Further, the assembly support assembly 41 further includes a non-slip pad 414, where the non-slip pad 414 is fixedly connected to the assembly foot stool 413 and is located on a side of the assembly foot stool 413 away from the assembly base 411.

In this embodiment, the anti-slip pad 414 is used to increase the friction between the assembly foot frame 413 and the ground, so that the placement can be more stable.

Cut the section bar through the cutting machine, cornering machine 2 carries out the corner cut to the section bar of appointed length, then can assemble into the window frame, holds and puts into glass through the window frame mould after, through transfer machine 3 carries, and kludge 4 carries out the rubber coating after, and the cleaning machine washs the glass window, then can pack out goods to can improve production efficiency, reduction in production cost, make the benefit better.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. A glass window manufacturing system facilitating corner cutting of profiles is characterized in that,

including cornering machine and transfer machine, the transfer machine is located one side of cornering machine, the cornering machine includes corner cut supporting component, corner cut subassembly and corner cut locating component, corner cut supporting component includes corner cut base, corner cut conveyer belt, corner cut slide and corner cut cylinder, the corner cut conveyer belt with the corner cut base rotates to be connected, and is located one side of corner cut base, the corner cut slide with corner cut base sliding connection, and be located one side of corner cut conveyer belt, the slide bar of corner cut cylinder with corner cut slide fixed connection, and be located one side of corner cut base, the corner cut subassembly includes corner cut support, corner cut slide, two cutters, two blade holders, corner cut adjusting screw and corner cut screw motor, the corner cut support with corner cut base fixed connection, and be located one side of corner cut base, the corner cut slide with corner cut support sliding connection, and is located one side of the corner cut support, the corner cut adjusting screw is rotatably connected with the corner cut slide and passes through the corner cut slide, the two tool holders are in threaded connection with the corner cut adjusting screw and are in sliding connection with the corner cut slide, the two cutters are respectively fixedly connected with the two tool holders and are located one side of the tool holders, the corner cut screw motor is fixedly connected with the corner cut support, the screw of the corner cut screw motor is in threaded connection with the corner cut slide, the corner cut positioning component comprises a corner cut guide plate, a second corner cut screw, a first corner cut plate and a second corner cut plate, the corner cut guide plate is slidably connected with the corner cut base and is located one side of the corner cut base, the second corner cut screw is in threaded connection with the corner cut base and is rotatably connected with the corner cut guide plate, the first corner cut plate and the second corner cut plate are both provided with a plurality of corner cut holes, the first corner cutting gusset plate and the second corner cutting gusset plate are connected with the corner cutting base in a sliding mode and are positioned on one side close to the corner cutting sliding plate.

2. A glazing manufacturing system facilitating profile chamfering according to claim 1,

the corner cutting support assembly further comprises a corner cutting bin, and the corner cutting bin is fixedly connected with the corner cutting base and is located on one side of the corner cutting sliding plate.

3. A glazing manufacturing system facilitating profile chamfering according to claim 2,

the corner cut assembly further comprises a corner cut pressing rod, the corner cut pressing rod is connected with the corner cut sliding seat in a sliding mode, and the corner cut pressing rod is located on one side of the corner cut sliding seat.

4. A glazing manufacturing system facilitating profile chamfering according to claim 3,

the corner cut assembly further comprises a corner cut gasket, and the corner cut gasket is fixedly connected with the corner cut pressing rod and is located on one side of the corner cut pressing rod.

5. A glazing manufacturing system facilitating profile chamfering according to claim 4,

the tool apron comprises a base body, a rotating block and a locking screw, the rotating block is rotatably connected with the base body and is positioned on one side of the base body, and the locking screw is in threaded connection with the rotating block and the base body and penetrates through the rotating block and the base body.

6. A glazing manufacturing system facilitating profile chamfering according to claim 1,

the transfer machine comprises a transfer support assembly, a vibration reduction assembly and a transfer emptying assembly, wherein the transfer support assembly comprises a transfer table, a plurality of rollers and a handle, the rollers are fixedly connected with the transfer table and are positioned on one side of the transfer table, the handle is fixedly connected with the transfer table and is positioned on one side of the transfer table far away from the rollers, the vibration reduction assembly comprises an annular rubber pad, a plurality of vibration reduction springs, a sealing plate and a sliding column, the sliding column is slidably connected with the transfer table and is positioned on one side of the transfer table close to the handle, the sealing plate is fixedly connected with the sliding column and is positioned on one side of the sliding column, the annular rubber pad is provided with an air hole, the annular rubber pad is fixedly connected with the sealing plate and the transfer table and is positioned between the sealing plate and the transfer table, and the plurality of vibration reduction springs are fixedly connected with the sealing plate, the transfer discharging assembly comprises a discharging platform, a plurality of round rollers, a heightening screw, an adjusting hand, a pressing rod, a supporting column and an adjusting gear, the heightening screw is connected with the sealing plate in a rotating mode and located on one side, far away from the damping spring, of the sealing plate, the discharging platform is in threaded connection with the heightening screw and located on one side of the heightening screw, the round rollers are connected with the discharging platform in a rotating mode and located on one side, far away from the sealing plate, of the discharging platform, the adjusting gear is connected with the transfer platform in a rotating mode and meshed with the heightening screw, the adjusting hand is fixedly connected with the adjusting gear and located on one side of the adjusting gear, and the pressing rod is connected with the discharging platform in a sliding mode and located on one side of the discharging platform.

7. A glazing manufacturing system facilitating profile chamfering according to claim 6,

transport the blowing subassembly and still include two and transport guard plate and two protection pads, two transport the guard plate with blowing platform fixed connection, and be located the both sides of blowing platform, two the protection pad is with two transport guard plate fixed connection, and be located transport one side of guard plate.

8. A glazing manufacturing system facilitating profile chamfering according to claim 7,

the transfer emptying assembly further comprises a pressing pad, the pressing pad is fixedly connected with the pressing rod and is located on one side, close to the emptying table, of the pressing rod.

9. A glazing manufacturing system facilitating profile chamfering according to claim 8,

the transfer emptying assembly further comprises a control rod, wherein the control rod is fixedly connected with the pressing rod and is positioned on one side, close to the handle, of the pressing rod.

10. A glazing manufacturing system facilitating profile chamfering according to claim 9,

the transportation support assembly further comprises a rolling stop lever, the roller is provided with a protrusion, and the rolling stop lever is connected with the transportation table in a sliding mode and located on one side, close to the protrusion, of the transportation table.

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