CN112758146B - Glass window system convenient to transport - Google Patents

Abstract

The invention discloses a glass window system convenient to transport, which comprises a transport supporting assembly, a vibration damping assembly and a lifting assembly, wherein the transport supporting assembly comprises a transport table, a plurality of rollers and a handle, the vibration damping assembly comprises an annular rubber pad, a plurality of vibration damping springs, a sealing plate and a sliding column, and the transport discharging assembly comprises a discharging table, a plurality of round rollers, a height adjusting screw, an adjusting hand, a pressing rod, a supporting column and an adjusting gear. Through set up annular rubber pad on closing plate and transfer table to be provided with the gas pocket on annular rubber pad, make when receiving external vibration, the closing plate can reciprocate under damping spring's support, inhale the exhaust through the gas pocket, can absorb vibration through air and damping spring simultaneously, make the glass window that can make on the blowing table place more stable, thereby solve current transfer device and produce easily and rock and collide with, influence the problem of the production quality of product.

Description

Glass window system convenient to transport

Technical Field

The invention relates to the field of glass window production equipment, in particular to a glass window system convenient to transport.

Background

In the existing metal section glass window production, the assembly production of the glass window is carried out by adopting a manual gluing and screw fastening method, and the gluing uniformity, the section installation position, the fastening reliability and the like are difficult to ensure for the glass window with larger specification and size.

The glass window needs to be transported in the production completion, and the existing transporting device is easy to shake and collide in the transportation process, so that the production quality of products is affected.

Disclosure of Invention

The invention aims to provide a glass window system convenient to transport, and aims to solve the problem that the existing transport device is easy to shake and collide and affects the production quality of products.

In order to achieve the above purpose, the invention provides a glass window system convenient to transport, comprising a transport machine and an assembling machine, wherein the assembling machine is positioned at one side of the transport machine, the transport machine comprises a transport supporting component, a vibration reduction component and a transport discharging component, the transport supporting component comprises a transport table, a plurality of rollers and a handle, the rollers are fixedly connected with the transport table and positioned at one side of the transport table, the handle is fixedly connected with the transport table and positioned at one side of the transport table far away from the rollers, the vibration reduction component comprises a ring-shaped rubber pad, a plurality of vibration reduction springs, a sealing plate and a sliding column, the sliding column is in sliding connection with the transport table and positioned at one side of the transport table near the handle, the sealing plate is fixedly connected with the sliding column and positioned at one side of the sliding column, the ring-shaped rubber pad is provided with an air hole, the ring-shaped rubber pad is fixedly connected with the sealing plate and the transport table and positioned between the sealing plate and the transport table, the vibration reduction springs are fixedly connected with the sealing plate and positioned between the support column and the transport table and the sealing plate and the rotating and the adjusting screw rod, the vibration reduction springs are positioned at one side of the transport table and the side of the sealing plate and the sealing plate is far away from the screw rod and the adjusting screw rod, the adjusting screw rod is in high-down position, the adjusting screw rod is connected with the adjusting screw rod is in high-down position and is in the screw rod is in the adjusting position far from the side of the screw rod, and the pressing rod is connected with the discharging table in a sliding manner and is positioned on one side of the discharging table.

The transfer discharging assembly further comprises two transfer protection plates and two protection pads, wherein the two transfer protection plates are fixedly connected with the discharging table and are positioned on two sides of the discharging table, and the two protection pads are fixedly connected with the two transfer protection plates and are positioned on one side of the transfer protection plates.

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

The transferring and discharging 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.

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

The assembling machine comprises an assembling supporting component, an assembling rotating component and a gluing component, wherein the assembling supporting component comprises an assembling base, an assembling bracket and an assembling foot rest, the assembling base is provided with an assembling through hole, the assembling bracket is fixedly connected with the assembling base and is positioned at one side of the assembling base, the assembling foot rest is fixedly connected with the assembling base and is positioned at one side of the assembling base far away from the assembling bracket, the assembling rotating component comprises a window frame mold, a fixed frame, an assembling rotating rod, an assembling motor and an assembling baffle plate, the number of the assembling rotating rod is two, the two assembling rotating rods are rotatably connected with the assembling bracket and are positioned at two sides of the assembling base, the fixed frame is fixedly connected with the assembling rotating rod and is positioned in the assembling through hole, the window frame mold is detachably connected with a fixed frame shell and is positioned at one side of the fixed frame, the assembling motor is rotatably connected with the assembling rotating rod and is positioned at one side of the assembling rotating rod, the assembling baffle plate is fixedly connected with the fixed frame and is positioned at one side of the fixed frame, the gluing bracket comprises a glue gun, a longitudinal support rod, a lateral support rod and a lateral support rod are connected with the glue gun, a lateral support rod is connected with the glue gun, the lateral support rod is connected with the glue rod is positioned at one side of the glue gun, the lateral support rod is connected with the glue rod, the glue rod is connected with the glue rod is longitudinally by the glue rod, and is positioned on one side of the sliding block close to the assembly base.

The assembly rotating assembly further comprises a positioning column and a buffer plate, wherein the positioning column is fixedly connected with the assembly rotating rod and is located at one side of the assembly rotating rod, and the buffer plate is fixedly connected with the assembly support and is located at one side of the positioning column.

The fixing frame comprises a frame body, a fixing rod, a fixing plate and a fixing spring, wherein the fixing rod is in sliding connection with the frame body and is located on one side of the frame body, the fixing plate is fixedly connected with the fixing rod and is located in the frame body, and the fixing spring is fixedly connected with the fixing rod and is located between the fixing rod and the frame body.

The fixing frame further comprises a sliding through hole, and the sliding through hole is located on one side of the fixing frame.

The assembly support assembly further comprises an anti-slip pad, wherein the anti-slip pad is fixedly connected with the assembly foot rest and is located at one side, far away from the assembly base, of the assembly foot rest.

The invention relates to a glass window system convenient to transport, which comprises a transport table, a plurality of idler wheels and a handle, wherein the idler wheels are fixedly connected with the transport table and positioned on one side of the transport table, so that the transport table can conveniently move, the handle is fixedly connected with the transport table and positioned on one side of the transport table far away from the idler wheels, so that a user can conveniently push the transport table, 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 in sliding connection with the transport table and positioned on one side of the transport table close to the handle, the sealing plate is fixedly connected with the sliding column and positioned on one side of the sliding column, the sliding column is used for supporting the sealing plate to slide up and down relative to the transport table, the annular rubber pad is provided with an air hole, the annular rubber pad is fixedly connected with the sealing plate and the transport table and positioned between the sealing plate and the idler wheels, the annular rubber pad is provided with elasticity, the vibration reduction assembly can allow the sealing plate to move up and down in a short distance and can be adjusted by the vibration reduction springs, the vibration reduction springs are positioned on one side of the transport table close to the handle, the vibration reduction springs are adjusted to be connected with the sealing plate and positioned on one side of the transport table, the sealing plate is further positioned on one side of the sealing plate is far away from the transport table, the sealing plate is high-down, the sealing plate can conveniently slides the sealing plate is adjusted, the sealing plate can be moved up and the sealing plate is positioned between the sealing plate, and the sealing plate can be conveniently moves between the sealing plate and the sealing glass window system. The rotation the height-adjusting screw can be made the closing plate reciprocates to can change the height according to different transfer chain, make can carry out material loading and unloading more conveniently, the blowing platform with adjust screw threaded connection, and be located adjust one side of screw rod, a plurality of the roller with the blowing platform rotates to be connected, and is located the blowing platform is kept away from one side of closing plate, the blowing platform is used for supporting the roller, through the roller friction when can reduce putting into the glass window, make the putting into more smooth, adjust the gear with transfer platform rotates to be connected, and with adjust the screw engagement, adjust the hand with adjust gear fixed connection, and be located one side of adjust the gear, through adjust the hand can drive adjust the gear rotates, thereby can pass through adjust the gear drives adjust the screw rod rotates, thereby can conveniently adjust the height of blowing platform, compress tightly the pole with the blowing platform, and slide connection is located the blowing platform is used for compressing tightly one side of the pole. Through the closing plate with set up on the transfer table annular rubber pad, and be provided with the gas pocket on the annular rubber pad, make when receiving external vibration, the closing plate is in can reciprocate under damping spring's the support, through the gas pocket is inhaled and is discharged, simultaneously can pass through the air with damping spring absorbs vibration, makes can make glass window on the blowing table is placed more stably, thereby solves current transfer device and produces easily and rocks and collide with, influences the problem of the production quality of product.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a front block diagram of a conveyor for a quick-clean glazing system of the present invention;

FIG. 2 is a rear block diagram of a conveyor of a quick-clean glazing system of the present invention;

FIG. 3 is a schematic cross-sectional view of a conveyor of a quick-clean glazing system of the present invention;

FIG. 4 is a front block diagram of an assembly machine for a quick-clean glazing system of the present invention;

FIG. 5 is a rear block diagram of an assembly machine for a quick-clean glazing system of the present invention;

FIG. 6 is a top block diagram of an assembly machine for a quick-clean glazing system of the present invention;

FIG. 7 is a front block diagram of a cutting machine of a quick-clean glazing system of the present invention;

fig. 8 is a rear block diagram of a cutter of the quick-clean glazing system of the present invention.

1-cutter, 3-transfer machine, 4-assembly machine, 11-cutting support assembly, 12-cutting positioning assembly, 13-cutting assembly, 111-cutting base, 112-cutting support plate, 113-profile conveyor belt, 121-cutting guide plate, 122-cutting limit plate, 123-stop plate, 124-cutting bracket, 125-pinch roller, 131-cutting motor, 132-cutting blade, 133-cutting cylinder, 134-return spring, 135-cutting slide, 136-guard plate, 137-viewing window, 138-cutting press plate, 1121-blanking hole, 1122-scale mark, 1231-plate body, 1232-second support plate, 1233-cutting adjustment screw, 31-transfer support assembly, 32-vibration damping assembly 33-transferring and discharging assembly, 311-transferring table, 312-roller, 313-handle, 314-rolling stop lever, 321-annular rubber pad, 322-damping spring, 323-sealing plate, 324-slide column, 331-discharging table, 332-round roller, 333-height adjusting screw, 334-adjusting hand, 335-pressing rod, 336-supporting column, 337-adjusting gear, 338-transferring and protecting plate, 339-protecting pad, 340-pressing pad, 341-control rod, 3211-air hole, 3121-protrusion, 41-assembling supporting assembly, 42-assembling and rotating assembly, 43-gluing assembly, 411-assembling base, 412-assembling bracket, 413-assembling foot rest, 414-anti-skid pad, 421-window frame die, 422-fixed frame, 423-assembled rotating rod, 424-assembled motor, 425-assembled baffle, 426-locating column, 427-buffer plate, 431-glue gun, 432-horizontal slide bar, 433-longitudinal support bar, 434-slide block, 435-glue coating bracket, 4111-assembled through hole, 4221-frame, 4222-fixed rod, 4223-fixed plate, 4224-fixed spring, 4225-slide out through hole.

Detailed Description

Embodiments of the present invention are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative and intended to explain the present invention and should not be construed as limiting the invention.

In the description of the present invention, it should 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 orientation or positional relationships shown in the drawings, merely to facilitate describing the present invention and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present invention. Furthermore, in the description of the present invention, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

Referring to fig. 1 to 8, the present invention provides a glass window system with convenient transportation, comprising:

the transfer machine 3, the assembly machine 4 and the cutting machine 1, the transfer machine 3 comprises a transfer supporting component 31, a vibration reduction component 32 and a transfer discharging component 33, the transfer supporting component 31 comprises a transfer table 311, a plurality of rollers 312 and a handle 313, the rollers 312 are fixedly connected with the transfer table 311 and positioned on one side of the transfer table 311, the handle 313 is fixedly connected with the transfer table 311 and positioned on one side of the transfer table 311 far away from the rollers 312, the vibration reduction component 32 comprises 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 in sliding connection with the transfer table 311 and positioned on one side of the transfer table 311 close to the handle 313, the sealing plate 323 is fixedly connected with the sliding column 324 and positioned on one side of the sliding column 324, the annular rubber pad 321 is provided with an air hole 3211, the annular rubber pad 321 is fixedly connected with the sealing plate 323 and the transfer table 311, and is positioned between the sealing plate 323 and the transfer table 311, the damping springs 322 are fixedly connected with the sealing plate 323, and are positioned between the sealing plate 323 and the transfer table 311, the transfer discharging assembly 33 comprises 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 with the sealing plate 323, and is positioned on one side of the sealing plate 323 far from the damping spring 322, the discharging table 331 is in threaded connection with the height adjusting screw 333, and is positioned on one side of the height adjusting screw 333, the round rollers 332 are rotatably connected with the discharging table 331, and are positioned on one side of the discharging table 331 far from the sealing plate 323, the adjusting gear 337 is rotatably connected with the transfer table 311, and is engaged with the height-adjusting 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 with 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 table 311, a plurality of rollers 312 and a handle 313, the plurality of rollers 312 are fixedly connected with the transferring table 311 and located at one side of the transferring table 311, so that the transferring table 311 can be moved conveniently, the handle 313 is fixedly connected with the transferring table 311 and located at one side of the transferring table 311 away from the rollers 312, so that a user can push the transferring table 311 conveniently, 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 with the transferring table 311 and located at one side of the transferring table 311 near the handle 313, the sealing plate 323 is fixedly connected with 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 table 311, the annular rubber pad 321 is provided with an air hole 3211, the annular rubber pad 321 is fixedly connected with the sealing plate 323 and the transferring table 311 and is positioned between the sealing plate 323 and the transferring table 311, the annular rubber pad 321 is provided with elasticity, can allow the sealing plate 323 to move up and down for a short distance, and sucks in and discharges air in the process of moving up and down through the air hole 3211 and buffers the air, a plurality of damping springs 322 are fixedly connected with the sealing plate 323 and are positioned between the sealing plate 323 and the transferring table 311, the damping springs 322 are used for enhancing the damping effect and simultaneously support the sealing plate 323 at a certain height so as to facilitate the up and down movement, the transferring discharging assembly 33 comprises 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 with the sealing plate 323 and is positioned on one side of the sealing plate 323 far away from the damping spring 322, the height-adjusting screw 333 is rotated to enable the sealing plate 323 to move up and down, so that the height of the sealing plate 323 can be changed according to different conveying lines, the height-adjusting screw 333 can be more conveniently used for feeding and discharging, the discharging table 331 is in threaded connection with the height-adjusting screw 333 and is positioned on one side of the height-adjusting screw 333, a plurality of round rollers 332 are rotatably connected with the discharging table 331 and are positioned on one side of the discharging table 331 far away from the sealing plate 323, the discharging table 331 is used for supporting the round rollers 332, friction during glass window placing can be reduced through the round rollers 332, the discharging is more smooth, the adjusting gear 337 is rotatably connected with the transferring table 311 and is meshed with the height-adjusting screw 333, the adjusting hand 334 is fixedly connected with the adjusting gear 337 and is positioned on one side of the adjusting gear 337, the adjusting hand 334 can drive the adjusting gear 337 to rotate the adjusting table 335, so that the height-adjusting hand 337 can be used for pressing the discharging table 331 to conveniently rotate, and can be used for pressing the discharging table 331. Through be in closing plate 323 with transfer table 311 is last to be provided with air pocket 3211 on the annular rubber pad 321, make when receiving external vibration, closing plate 323 is in under damping spring 322's support can reciprocate, through air pocket 3211 breathes in the exhaust, can pass through the air with damping spring 322 absorbs vibration simultaneously, makes can make glass window on the blowing table 331 is placed more stably, thereby solves current transfer device and produces easily and rocks and bump with, influences the problem of the production quality of product.

Further, the transferring and discharging assembly 33 further includes two transferring protection plates 338 and two protection mats 339, wherein the two transferring protection plates 338 are fixedly connected with the discharging table 331, and are located at two sides of the discharging table 331, and the two protection mats 339 are fixedly connected with the two transferring protection plates 338, and are located at one side of the transferring protection plates 338.

In this embodiment, two transfer protection plates 338 are located at two sides of the discharging table 331, so as to prevent the glass window from sliding down from the two transfer protection plates, and two protection pads 339 are made of rubber materials, so that the glass window can be protected, and the glass window is prevented from being damaged.

Further, the transferring and discharging assembly 33 further includes a pressing pad 340, where the pressing pad 340 is fixedly connected to the pressing rod 335, and is located at a side of the pressing rod 335 near the discharging 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 makes the contact surface softer, so that the glass window can be prevented from being scratched while being clamped.

Further, the transferring and discharging assembly 33 further includes a control rod 341, where the control rod 341 is fixedly connected to the pressing rod 335, and is located on a side of the pressing rod 335 near the handle 313.

In the present embodiment, the pressing bar 335 can be operated near the handle 313 by the control bar 341, and a locking bar is further provided at one side of the control bar 341, so that the fixing is more stable by locking by the locking bar when the control bar 341 is slid down.

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

In this embodiment, the rolling bar 314 may slide relative to the rotating table, and the roller 312 has a protrusion 3121, so that when the vehicle needs to be parked, by pressing down the rolling bar 314, the rolling bar 314 may be moved to one side of the roller 312, and the roller 312 may be restricted by the protrusion 3121, so that the rotation of the roller 312 may be restricted to achieve the purpose of parking, and in order to enhance the braking effect, the rolling bar 314 may be grooved, so that the protrusion 3121 may enter the groove, thereby enhancing the braking effect.

Further, the assembling machine 4 includes an assembling supporting component 41, an assembling rotating component 42 and a glue coating component 43, the assembling supporting component 41 includes an assembling base 411, an assembling bracket 412 and an assembling foot stool 413, the assembling base 411 has an assembling through hole 4111, the assembling bracket 412 is fixedly connected with the assembling base 411 and located at one side of the assembling base 411, the assembling foot stool 413 is fixedly connected with the assembling base 411 and located at one side of the assembling base 411 away from the assembling bracket 412, the assembling rotating component 42 includes a window frame mold 421, a fixing frame 422, an assembling rotating rod 423, an assembling motor 424 and an assembling baffle 425, the assembling rotating rod 423 has two numbers, the two assembling rotating rods 423 are rotatably connected with the assembling bracket 412 and located at two sides of the assembling base 411, the fixing frame 422 is fixedly connected with the assembling rotating rod 423 and located in the assembling through hole 4111, the window frame mold 421 is detachably connected with the fixing frame 422 and located at one side of the fixing frame 422, the assembling motor 424 is rotatably connected with the assembling bracket 422 and located at one side of the fixing frame 422, the assembling motor 424 is rotatably connected with the fixing frame 435 and located at one side of the fixing frame 433, the side of the assembling motor is connected with the glue coating bracket 433 and the glue coating rod is located at one side of the assembling bracket 433 and the glue coating frame is transversely connected with the glue coating frame 433, the glue coating component is located at one side of the glue coating frame is connected with the glue coating frame is formed by the glue coating side by the glue coating frame is formed by the glue coating, the sliding block 434 is slidably connected with the longitudinal supporting rod 433, and is located at one side of the longitudinal supporting 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, which is close to the assembly base 411.

In this embodiment, the assembly support assembly 41 includes an assembly base 411, an assembly bracket 412 and an assembly foot stool 413, the assembly base 411 has an assembly through hole 4111, the assembly bracket 412 is fixedly connected with the assembly base 411 and is 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 is located at one side of the assembly base 411 away from the assembly bracket 412 for allowing 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 fixing 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 bracket 412 and are located at both sides of the assembly base 411, the window frame mold 421 is detachably connected with the fixed frame 422 shell and is located at one side of the fixed frame 422, the window frame mold 421 is used for supporting a window frame, so that the window frame can be transported along with the window frame mold 421 and fixed by the fixed frame 422, the fixed frame 422 can be turned over under the support of the rotating rod, so that two sides of the window frame can be glued in the same direction, the assembly motor 424 is rotationally connected with the assembly rotating rod 423 and is located at one side of the assembly rotating rod 423, the rotating rod can be driven to rotate, the assembly baffle 425 is fixedly connected with the fixed frame 422 and is located at one side of the fixed frame 422, and after the fixed frame 422 is turned over 180 degrees, the position of the fixed frame 422 can be fixed by contacting the assembly baffle 425 and the assembly base 411, so that gluing can be performed. The glue coating assembly 43 comprises a glue gun 431, a horizontal slide bar 432, a longitudinal support bar 433, a sliding block 434 and a glue coating support 435, wherein the glue coating support 435 is fixedly connected with the assembly base 411 and is positioned on one side of the assembly base 411, the horizontal slide bar 432 is in sliding connection with the glue coating support 435 and is positioned on one side of the glue coating support 435, the horizontal slide bar 432 can be supported to slide up and down through the glue coating support 435, the longitudinal support bar 433 is in sliding connection with the horizontal slide bar 432 and is positioned on one side of the horizontal slide bar 432, the horizontal slide bar 432 supports the longitudinal slide bar to slide longitudinally, the sliding block 434 is in sliding connection with the longitudinal support bar 433 and is positioned on one side of the longitudinal support bar 433, the glue gun 431 is fixedly connected with the sliding block 434 and is positioned on one side of the sliding block 434 close to the assembly base 411, and the horizontal slide bar 432, the longitudinal slide bar 434 and the sliding block 434 can be driven by a screw motor, so that the glue gun 431 can be in contact with a window glass frame 422, and the window can be manually turned over, and the quality of the window can be conveniently processed, and the existing window glass can be conveniently lowered.

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

In this embodiment, the positioning post 426 is disposed on one side of the assembly rotating rod 423 and can rotate along with the assembly rotating rod 423, and the buffer plate 427 is disposed on the assembly bracket 412, so that the support can be provided when the rotating rod is turned 180 ° or returns to the original position, and meanwhile, the buffer plate 427 is supported by rubber material, so that the buffer effect can be further achieved, and the vibration is reduced.

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

In this embodiment, the frame 4221 is used to support the window frame mold 421, the fixing plate 4223 may slide relative to the frame 4221 under the support of the fixing rod 4222, and the window frame mold 421 may be conveniently fixed under the support of the fixing spring 4224.

Further, the fixing frame 422 further includes a sliding through hole 4225, and the sliding through hole 4225 is located at one side of the fixing frame 422.

In this embodiment, the sliding through hole 4225 is provided at one side of the fixing frame 422, so that the window frame mold 421 can be pulled out through the sliding through hole 4225 by releasing the fixing rod 4222 after the processing is completed, thereby being more convenient to take out the window frame mold 421.

Further, the assembly support assembly 41 further includes a non-slip pad 414, and the non-slip pad 414 is fixedly connected with the assembly stand 413 and located at a side of the assembly stand 413 away from the assembly base 411.

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

Further, the cutting machine 1 comprises a cutting support assembly 11, a cutting positioning assembly 12 and a cutting assembly 13, wherein the cutting support assembly 11 comprises a cutting base 111, a cutting support plate 112 and a profile conveyer belt 113, the profile conveyer belt 113 is rotationally connected with the cutting base 111 and is positioned at one side of the cutting base 111, the cutting support plate 112 is provided with a blanking hole 1121, the cutting support plate 112 is fixedly connected with the cutting base 111 and is positioned at one side of the profile conveyer belt 113, the cutting positioning assembly 12 comprises a cutting guide plate 121, a cutting limit plate 122, a stop plate 123, a cutting bracket 124 and a pressing roller 125, the cutting guide plate 121 is fixedly connected with the cutting support plate 112 and is positioned at one side of the cutting support plate 112, the stop plate 123 is fixedly connected with the cutting support plate 112 and is positioned at one side of the blanking hole 1121, the cutting bracket 124 is fixedly connected with the cutting support plate 112 and is positioned at one side of the cutting guide plate 125, the pressing roller is rotationally connected with the cutting bracket 124 and is positioned at one side of the cutting bracket 135, the cutting bracket 135 is positioned near the cutting bracket 135, the cutting bracket 131 is fixedly connected with the cutting bracket 131, the cutting slide seat 133 is fixedly connected with the cutting slide seat 133, the cutting slide seat 133 is positioned at one side of the cutting slide seat 133, and is fixedly connected with the cutting slide seat 133, and is positioned at one side of the cutting support seat 133, the return spring 134 is fixedly connected to the cutting slide 135 and is located between the cutting slide 135 and the cutting carriage 124.

In this embodiment, the cutting support assembly 11 includes a cutting base 111, a cutting support plate 112, and a profile conveyor 113, the profile conveyor 113 is rotatably connected to the cutting base 111 and located at one side of the cutting support plate 112 for transporting a profile to be cut, the cutting support plate 112 has a blanking hole 1121, the cut profile can be discharged from the blanking hole 1121, the cutting support plate 112 is fixedly connected to the cutting base 111 and located at one side of the profile conveyor 113, the cutting positioning assembly 12 includes a cutting guide plate 121, a cutting limit plate 122, a stop plate 123, a cutting support 124, and a pinch roller 125, the cutting guide plate 121 is fixedly connected to the cutting support plate 112 and located at one side of the cutting support plate 112 for guiding and restricting the position of the profile so that the cutting accuracy can be improved, the stop plate 123 is fixedly connected to the cutting support plate 112 and located at one side of the blanking hole 1121, the cutting length of the profile can be restricted by the stop plate 123, the cutting support plate 124 is fixedly connected to the cutting support plate 124 and located at one side of the cutting support plate 124 and the pinch roller 125 is rotatably connected to the cutting support plate 124, the pinch roller 125 is rotatably arranged at one side of the cutting support plate 124; the cutting assembly 13 comprises a cutting motor 131, a cutting blade 132, a cutting cylinder 133, a return spring 134 and a cutting slide seat 135135, wherein the slide seat 135 is in sliding connection with the cutting support 124 and is positioned on one side of the cutting support 124, the cutting cylinder 133 is fixedly connected with the cutting support 124, a sliding rod of the cutting cylinder 133 is fixedly connected with the cutting slide seat 135135, the cutting cylinder 133 can drive the cutting slide seat 135 to move up and down, the cutting motor 131 is fixedly connected with the cutting slide seat 135 and is positioned on one side of the cutting slide seat 135, the cutting blade 132 is in rotary connection with the cutting motor 131 and is positioned on one side of the cutting motor 131, the cutting motor 131 is arranged on the cutting slide seat 135 and can drive the cutting blade 132 to rotate, so that a cutting action can be performed on a section bar, the return spring 134 is fixedly connected with the slide seat 135 and is positioned between the cutting support 124, after cutting is completed, the cutting blade 132 can be pulled up by the elasticity of the return spring 134, so that the cutting blade 132 can be pulled down, the cutting efficiency can be stably positioned on the section bar, and the cutting efficiency can be stably positioned on one side of the section bar, and the cutting device can be stably positioned.

Further, the stop plate 123 includes a plate body 1231, a second support plate 1232 and a cutting adjustment screw rod 1233, the second support plate 1232 is fixedly connected to the cutting support plate 112 and is located at one side of the cutting support plate 112, the plate body 1231 is slidably connected to the cutting support plate 112 and is located at one side of the cutting support plate 112 near the pinch roller 125, and the adjustment screw rod 1233 is rotatably connected to the plate body 1231 and is in threaded connection with the second support plate 1232.

In this embodiment, the adjusting screw 1233 may rotate under the support of the second support plate 1232 to push the plate body 1231 to move, so that the distance between the plate body 1231 and the profile conveyor 113 may be adjusted, and the cutting length may be adjusted to improve the cutting quality.

Further, the cutting support plate 112 has graduations 1122, and the graduations 1122 are uniformly distributed on the cutting support plate 112.

In an embodiment, the position of the plate body 1231 can be conveniently adjusted by the graduation marks 1122, so that the cutting quality can be improved.

Further, the cutting assembly 13 further includes a guard plate 136 and a viewing window 137, the guard plate 136 is fixedly connected with the sliding seat 135 and covers the cutting blade 132, and the viewing window 137 is fixedly connected with the guard plate 136 and penetrates through the guard plate 136.

In this embodiment, the guard plate 136 may cover the cutting blade 132, thereby preventing damage to a person due to cutting scattering, and the observation window 137 may be provided, so that the inside of the guard plate 136 may be conveniently observed.

Further, the cutting assembly 13 further includes a cutting platen 138, where the cutting platen 138 is fixedly connected to the slide 135 and is located on a side of the slide 135 near the cutting support plate 112.

In this embodiment, the cutting press plate 138 is disposed on one side of the slide 135, so that when the slide 135 moves down to cut, the profile can be pressed, so that the cutting quality can be improved.

Through cutting machine 1 cuts the section bar, and the corner cut machine carries out the chamfer to the section bar of appointed length, then can assemble into the window frame, holds through the window frame mould and put into after glass, carries through transfer machine 3, after the kludge 4 carries out the rubber coating, the cleaning machine washs the glass window, then can pack shipment to can improve production efficiency, reduction in production cost makes the benefit better.

The above disclosure is only a preferred embodiment of the present invention, and it should be understood that the scope of the invention is not limited thereto, and those skilled in the art will appreciate that all or part of the procedures described above can be performed according to the equivalent changes of the claims, and still fall within the scope of the present invention.

Claims (8)

1. A glass window system convenient to transport is characterized in that,

the assembly machine is positioned on one side of the transfer machine, the transfer machine comprises a transfer supporting component, a damping component and a transfer discharging component, the transfer supporting component comprises a transfer table, a plurality of rollers and a handle, the rollers are fixedly connected with the transfer table and positioned on one side of the transfer table, the handle is fixedly connected with the transfer table and positioned on one side of the transfer table far away from the rollers, the damping component comprises a ring-shaped rubber pad, a plurality of damping springs, a sealing plate and a sliding column, the sliding column is in sliding connection with the transfer table and positioned on one side of the transfer table close to the handle, the sealing plate is fixedly connected with the sliding column and positioned on one side of the sliding column, the ring-shaped rubber pad is provided with an air hole, the ring-shaped rubber pad is fixedly connected with the transfer table and positioned between the sealing plate and the transfer table, the transfer discharging component comprises a circular rubber pad, a plurality of damping springs, a plurality of adjusting screw rods, a plurality of adjusting screws are connected with one side of the adjusting screws, the adjusting screws are rotatably connected with the adjusting screws, and is positioned at one side of the discharging table;

the cutting machine comprises a cutting support assembly, a cutting positioning assembly and a cutting assembly, wherein the cutting support assembly comprises a cutting base, a cutting support plate and a profile conveying belt, the profile conveying belt is rotationally connected with the cutting base and is positioned on one side of the cutting base, the cutting support plate is provided with a blanking hole, the cutting support plate is fixedly connected with the cutting base and is positioned on one side of the profile conveying belt, the cutting positioning assembly comprises a cutting guide plate, a cutting limit plate, a stop plate, a cutting support and a pressure roller, the cutting guide plate is fixedly connected with the cutting support plate and is positioned on one side of the cutting support plate, the stop plate is fixedly connected with the cutting support plate and is positioned on one side of the blanking hole, and the pressure roller is rotationally connected with the cutting support and is positioned on one side of the cutting support, which is close to the cutting guide plate;

the assembly machine comprises an assembly supporting component, an assembly rotating component and a gluing component, wherein the assembly supporting component comprises an assembly base, an assembly bracket and an assembly foot rest, the assembly base is provided with an assembly through hole, the assembly bracket is fixedly connected with the assembly base and is positioned at one side of the assembly base, the assembly foot rest is fixedly connected with the assembly base and is positioned at one side of the assembly base far away from the assembly bracket, the assembly rotating component comprises a window frame mold, a fixed frame, an assembly rotating rod, an assembly motor and an assembly baffle plate, the number of the assembly rotating rod is two, the two assembly rotating rods are rotatably connected with the assembly bracket and are positioned at two sides of the assembly base, the fixed frame is fixedly connected with the assembly rotating rod and is positioned in the assembly through hole, the window frame mold is detachably connected with the fixed frame shell and is positioned at one side of the fixed frame, the assembly motor is rotatably connected with the assembly rotating rod and is positioned at one side of the assembly rotating rod, the assembly baffle plate is fixedly connected with the fixed frame and is positioned at one side of the fixed frame, the gluing component comprises a glue gun, a support, a glue gun and a sliding rod are longitudinally connected with the support, a sliding rod is longitudinally connected with the glue gun and a sliding rod, the glue rod is transversely connected with one side of the glue rod, and is transversely connected with the glue rod, and transversely connected with the sliding rod by the sliding rod, and is positioned at one side of the sliding block close to the assembly base;

the assembly rotating assembly further comprises a positioning column and a buffer plate, wherein the positioning column is fixedly connected with the assembly rotating rod and is positioned on one side of the assembly rotating rod, and the buffer plate is fixedly connected with the assembly support and is positioned on one side of the positioning column.

2. A transit-facilitated glass window system according to claim 1, wherein,

the transfer discharging assembly further comprises two transfer protection plates and two protection pads, wherein the two transfer protection plates are fixedly connected with the discharging table and are positioned on two sides of the discharging table, and the two protection pads are fixedly connected with the two transfer protection plates and are positioned on one side of the transfer protection plates.

3. A transit-facilitated glass window system according to claim 2, wherein,

the transferring and discharging assembly further comprises a pressing pad, wherein the pressing pad is fixedly connected with the pressing rod and is positioned on one side, close to the discharging table, of the pressing rod.

4. A transit-facilitated glass window system as in claim 3 wherein,

the transferring and discharging 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.

5. A transit-facilitated glass window system as in claim 4 wherein,

the transfer support assembly further comprises a rolling stop lever, the roller is provided with a protrusion, and the rolling stop lever is in sliding connection with the transfer table and is positioned on one side of the transfer table, which is close to the protrusion.

6. A transit-facilitated glass window system according to claim 1, wherein,

the fixed frame comprises a frame body, a fixed rod, a fixed plate and a fixed spring, wherein the fixed rod is in sliding connection with the frame body and is positioned on one side of the frame body, the fixed plate is fixedly connected with the fixed rod and is positioned in the frame body, and the fixed spring is fixedly connected with the fixed rod and is positioned between the fixed rod and the frame body.

7. A transit-facilitated glass window system as in claim 6 wherein,

the fixed frame further comprises a sliding through hole, and the sliding through hole is located on one side of the fixed frame.

8. A transit-facilitated glass window system as in claim 7 wherein,

the assembly support assembly further comprises an anti-slip pad, wherein the anti-slip pad is fixedly connected with the assembly foot rest and is positioned on one side, far away from the assembly base, of the assembly foot rest.

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