CN110743966A

CN110743966A - Automatic change aluminium tripe production facility

Info

Publication number: CN110743966A
Application number: CN201911168901.0A
Authority: CN
Inventors: 徐成; 蒋旭云; 陈奎
Original assignee: Dongguan Hongqi Automation Technology Co Ltd
Current assignee: Dongguan Hongqi Automation Technology Co Ltd
Priority date: 2019-11-25
Filing date: 2019-11-25
Publication date: 2020-02-04

Abstract

The invention discloses automatic aluminum shutter production equipment which comprises an aluminum sheet automatic discharging assembly, an aluminum shutter forming and blanking assembly and an aluminum shutter ladder rope threading assembly which are sequentially arranged from left to right; the aluminum shutter forming and blanking assembly comprises a forming and blanking mounting frame, and a forming and blanking mounting plate of the forming and blanking mounting frame is provided with a forming conveying mechanism and a punching and cutting mechanism; the forming conveying mechanism comprises a forming conveying driving motor, a forming conveying driving roller and a forming conveying driven roller, the forming conveying driving roller is provided with a forming bulge, and the forming conveying driven roller is provided with a forming groove; the punching and cutting mechanism comprises a cylinder mounting plate, a positioning block mounting plate, a punching driving cylinder, a cutting driving cylinder, a punching punch and a cutting punch; the aluminum louver ladder rope threading assembly comprises a threading installation frame, and at least two threading machine heads which are sequentially arranged at intervals are installed at the upper end part of the threading installation frame. Through the structural design, the automatic feeding device has the advantages of novel structural design, high automation degree and high working efficiency.

Description

Automatic change aluminium tripe production facility

Technical Field

The invention relates to the technical field of shutter production equipment, in particular to automatic aluminum shutter production equipment.

Background

In the family life, a curtain is needed to be used on a window; among them, the louver window is widely used due to its various functions, simple appearance and beautiful appearance. In particular, the shutter curtain is formed by connecting and folding a plurality of sheets, not only has the purposes of ventilation, shading and sound insulation, but also can shade sun, cool and decorate rooms. The blind structure generally includes a louver blade having an upper arc-shaped cross section, a lifting rope (lift cord), a ladder cord, a rotary driver having a self-locking function, a rotating shaft, a cord winder, a holder, a head rail, a bottom rail, and the like.

The louver structure generally comprises two ladder ropes which are arranged at intervals left and right and are opposite to each other, each ladder rope comprises two warps which are arranged at intervals in parallel and wefts which are transversely arranged between the two warps and are sequentially and uniformly arranged at intervals, two end parts of each louver blade penetrate between the two warps of the corresponding side ladder rope respectively, and the two end parts of each louver blade are lapped on the wefts of the corresponding side ladder rope respectively; the louver blades are provided with at least two rope penetrating holes which are arranged at intervals, lifting ropes are respectively penetrated into the rope penetrating holes, and the lifting ropes vertically penetrate through the louver blades of the louver; wherein, for carrying on spacingly and avoiding the shutter plate to deviate from the ladder rope to the ladder rope effectively, the lifting rope generally aligns with the ladder rope and arranges, and the crisscross distribution of weft in the left and right sides of lifting rope of ladder rope. When the blind window is used, the angle adjustment of the blind slats is generally realized through the matching of the ladder ropes and the ladder rope fixer; the ladder rope fixer is generally arranged in an upper beam top rail of the blind, a rotating shaft is arranged in the fixer in a penetrating way to enable the fixer to rotate, two ladder ropes which respectively penetrate through the blind blades are connected to the fixer, and when the fixer rotates, the ladder ropes can move upwards or downwards to drive the blind blades to open or close.

As one type of louver, aluminum louvers are widely used; in the production and processing process of the aluminum shutter, an aluminum sheet is required to be formed into an arc aluminum shutter, and then the aluminum shutter is arranged on the ladder rope in a penetrating manner. In the prior art, the aluminum shutter forming and aluminum shutter ladder rope threading operation are two independent processes, and the defect of low efficiency exists in the actual production process.

Disclosure of Invention

The invention aims to provide automatic aluminum shutter production equipment aiming at the defects of the prior art, and the automatic aluminum shutter production equipment is novel in structural design, high in automation degree and high in working efficiency.

In order to achieve the above object, the present invention is achieved by the following technical solutions.

An automatic aluminum shutter production device comprises an aluminum sheet automatic discharging assembly, an aluminum shutter forming and blanking assembly and an aluminum shutter ladder rope threading assembly which are sequentially arranged from left to right;

the aluminum shutter forming blanking assembly comprises a forming blanking mounting frame, the upper end of the forming blanking mounting frame is provided with a forming blanking mounting plate which is vertically arranged, and the forming blanking mounting plate is provided with a forming conveying mechanism and a punching and cutting mechanism positioned on the right end side of the forming conveying mechanism; the forming and conveying mechanism comprises a forming and conveying driving motor which is spirally arranged on the rear surface of a forming and blanking mounting plate, a power output shaft of the forming and conveying driving motor penetrates through the forming and blanking mounting plate and extends to the front end side of the forming and blanking mounting plate, a forming and conveying driving roller which synchronously rotates along with the power output shaft of the forming and conveying driving motor and is positioned on the front end side of the forming and blanking mounting plate is arranged on the power output shaft of the forming and conveying driving motor, a forming and conveying driven roller is arranged right above the forming and conveying driving roller in a relatively rotating mode, a forming bulge which protrudes outwards and extends annularly along the outer circumference of the forming and conveying driving roller is arranged in the middle of the outer circumference of the forming and conveying driven roller, a forming groove which extends annularly along the outer circumference of the forming and conveying driven roller is arranged in an up-and-down alignment mode on the forming bulge of the forming;

the punching and cutting mechanism comprises a cylinder mounting plate and a positioning block mounting plate which are respectively screwed on the front surface of the formed blanking mounting plate, the cylinder mounting plate is positioned on the upper end side of the positioning block mounting plate, the cylinder mounting plate is screwed with a punching driving cylinder and a cutting driving cylinder which respectively move up and down, the punching driving cylinder is positioned on the front end side of the cutting driving cylinder, the extending end part of a piston rod of the punching driving cylinder is provided with a punching punch, and the extending end part of the piston rod of the cutting driving cylinder is provided with a cutting punch; the positioning block mounting plate is provided with a punching positioning block and a cutting positioning block in a threaded manner, the punching positioning block is provided with a punching positioning hole which is completely penetrated left and right and has the cross section shape consistent with the cross section shape of the aluminum shutter, and a punching avoidance hole which is completely penetrated up and down and is used for inserting a punching punch, and the punching positioning hole is communicated with the punching avoidance hole; the cutting positioning block is provided with a cutting positioning hole which is completely penetrated left and right, a cutting avoidance hole which is completely penetrated up and down and is used for inserting the cutting punch, and the cutting positioning hole is communicated with the cutting avoidance hole;

the aluminum shutter ladder rope threading assembly comprises a threading mounting frame, and the upper end part of the threading mounting frame is provided with at least two threading machine heads which are sequentially arranged from left to right at intervals; the penetrating machine head comprises a penetrating support frame, the penetrating support frame comprises a support frame bottom plate which is horizontally and transversely arranged, a left supporting plate which is screwed to the left end part of the support frame bottom plate and vertically extends upwards, a right supporting plate which is screwed to the right end part of the support frame bottom plate and vertically extends upwards, and a guiding mounting plate which is screwed to the front end part of the support frame bottom plate and vertically extends downwards, a left through groove which is used for allowing aluminum shutters to pass through from left to right and is opened upwards is formed in the left supporting plate, a right through groove which is used for allowing the aluminum shutters to pass through from left to right and is opened upwards is formed in the right supporting plate, the left through groove and the right through groove are arranged in a left-right alignment manner, and an aluminum shutter; the upper end part of the left supporting plate is screwed with two ladder rope hooks which are arranged at intervals in a front-back manner and are opposite to each other, one of the ladder rope hooks is positioned at the front end side of the left through groove, and the other ladder rope hook is positioned at the rear end side of the left through groove;

the upper surface of the bottom plate of the support frame is provided with a motor mounting seat in a threaded manner, the motor mounting seat is provided with a stepping motor in a threaded manner, the upper end side of the bottom plate of the support frame can be provided with a lifting mounting seat in a relatively up-down movable manner, and the stepping motor is in driving connection with the lifting mounting seat; the rope threading plate is horizontally and transversely arranged and is positioned between the left side supporting plate and the right side supporting plate, the rope threading plate is provided with a rope threading hole which is completely penetrated up and down and is used for a ladder rope to pass through, the upper surface of the rope threading plate is provided with a deflection driving air cylinder which horizontally moves left and right at the side of the rope threading hole in a threaded manner, the extending end part of a piston rod of the deflection driving air cylinder is provided with a deflection driving block which is embedded in the rope threading hole of the rope threading plate in a threaded manner, the deflection driving block is provided with a ladder rope positioning hole which is completely penetrated up and down and is used for the ladder rope to pass through, and the edge of the deflection driving block is provided with a driving block avoiding notch which is completely penetrated up and down and is; but guide mounting panel installs the ladder rope guide pulley of arranging in proper order along ladder rope direction of delivery relatively rotating, and two warp constant head tanks of interval arrangement around each ladder rope guide pulley is seted up respectively.

The penetrating installation frame is arranged at the rightmost end, a blocking induction assembly is arranged on the right end side of the penetrating installation machine head and comprises an aluminum shutter baffle which is fastened at the upper end of the penetrating installation frame through a locking screw in a screwed mode, the aluminum shutter baffle is aligned with the left through groove of the left side supporting plate and the right through groove of the right side supporting plate, and a proximity induction sensor is mounted at the lower end of the aluminum shutter baffle in a screwed mode.

The aluminum shutter bearing mechanism comprises a front movable bearing block, a rear movable bearing block, a front fixed cover plate, a rear fixed cover plate, a front spring and a rear spring;

the right side supporting plate is provided with a front end accommodating groove at the front end side of the right side through groove, the front side movable bearing block is embedded in the front end accommodating groove, the front side fixed cover plate is screwed on the right side supporting plate and covers the front end accommodating groove, the lower end part of the front side movable bearing block is hinged on the front side fixed cover plate through a pivot, the upper end part of the front side movable bearing block is provided with a front side mounting hole which is opened forwards, the front side spring is embedded in the front side mounting hole of the front side movable bearing block, and the front end part of the front side spring extends out of the front side mounting hole and is abutted against the right side supporting plate; under the action of the elastic force of the front side spring, the upper end part of the front side movable bearing block extends into the right side through groove;

the rear end side of the right side through groove of the right side supporting plate is provided with a rear end containing groove, the rear side movable bearing block is embedded in the rear end containing groove, the rear side fixed cover plate is screwed on the right side supporting plate, the rear side fixed cover plate covers the rear end containing groove, the lower end part of the rear side movable bearing block is hinged on the rear side fixed cover plate through a pivot, the upper end part of the rear side movable bearing block is provided with a rear side mounting hole which is opened towards the rear, a rear side spring is embedded in the rear side mounting hole of the rear side movable bearing block, and the rear end part of the rear side spring extends out of the rear side mounting hole and is abutted against the right side supporting plate; under the action of the elastic force of the rear side spring, the upper end part of the rear side movable bearing block extends into the right side through groove.

And two aluminum shutter supporting mechanisms which are arranged at intervals up and down are arranged on the right side supporting plate beside the right through groove.

The aluminum shutter supporting mechanism of the left supporting plate and the aluminum shutter supporting mechanism of the lower end of the right supporting plate are arranged in a left-right alignment mode.

The upper end of the right supporting plate is screwed with a fixed ejecting block, a power output shaft of the stepping motor is provided with a driving synchronous pulley, the fixed ejecting block is provided with a driven synchronous pulley right above the driving synchronous pulley, a transmission synchronous belt is wound between the driving synchronous pulley and the driven synchronous pulley, and the lifting mounting seat is tightly connected with the transmission synchronous belt through a pressing plate.

The guide mounting plate is hinged with a counterweight mounting part at the side of the ladder rope guide wheel through a pivot, and the counterweight mounting part is provided with a movable counterweight which is used for downwards abutting against the weft of the ladder rope.

The aluminum shutter guide block is provided with an aluminum shutter guide groove for allowing aluminum shutters to pass through from left to right and is opened upwards;

the aluminum shutter guide block is hinged with a pressure lever mounting piece at the side of the aluminum shutter guide groove through a pivot, the pressure lever mounting piece is provided with an aluminum shutter pressure lever, one end of the aluminum shutter pressure lever extends into the aluminum shutter guide groove, and the end of the aluminum shutter pressure lever extending into the aluminum shutter guide groove is provided with an aluminum shutter pressure roller.

The upper end of the penetrating mounting frame is provided with two guide rails which are arranged at intervals in a front-back mode and horizontally extend along the left-right direction respectively in a threaded mode, a bottom plate of the supporting frame of each penetrating machine head is provided with sliding blocks corresponding to the guide rails in a threaded mode, and the sliding blocks are matched with the guide rails on the corresponding sides respectively.

The automatic aluminum sheet discharging assembly comprises a discharging mounting frame, a discharging driving motor is screwed at the upper end of the discharging mounting frame, and an aluminum sheet discharging disc used for placing a bundle aluminum sheet is installed on a power output shaft of the discharging driving motor.

The invention has the beneficial effects that: the invention relates to automatic aluminum shutter production equipment which comprises an aluminum sheet automatic discharging assembly, an aluminum shutter forming and blanking assembly and an aluminum shutter ladder rope threading assembly which are sequentially arranged from left to right; the aluminum shutter forming blanking assembly comprises a forming blanking mounting frame, the upper end of the forming blanking mounting frame is provided with a forming blanking mounting plate which is vertically arranged, and the forming blanking mounting plate is provided with a forming conveying mechanism and a punching and cutting mechanism positioned on the right end side of the forming conveying mechanism; the forming and conveying mechanism comprises a forming and conveying driving motor which is spirally arranged on the rear surface of a forming and blanking mounting plate, a power output shaft of the forming and conveying driving motor penetrates through the forming and blanking mounting plate and extends to the front end side of the forming and blanking mounting plate, a forming and conveying driving roller which synchronously rotates along with the power output shaft of the forming and conveying driving motor and is positioned on the front end side of the forming and blanking mounting plate is arranged on the power output shaft of the forming and conveying driving motor, a forming and conveying driven roller is arranged right above the forming and conveying driving roller in a relatively rotating mode, a forming bulge which protrudes outwards and extends annularly along the outer circumference of the forming and conveying driving roller is arranged in the middle of the outer circumference of the forming and conveying driven roller, a forming groove which extends annularly along the outer circumference of the forming and conveying driven roller is arranged in an up-and-down alignment mode on the forming bulge of the forming; the punching and cutting mechanism comprises a cylinder mounting plate and a positioning block mounting plate which are respectively screwed on the front surface of the formed blanking mounting plate, the cylinder mounting plate is positioned on the upper end side of the positioning block mounting plate, the cylinder mounting plate is screwed with a punching driving cylinder and a cutting driving cylinder which respectively move up and down, the punching driving cylinder is positioned on the front end side of the cutting driving cylinder, the extending end part of a piston rod of the punching driving cylinder is provided with a punching punch, and the extending end part of the piston rod of the cutting driving cylinder is provided with a cutting punch; the positioning block mounting plate is provided with a punching positioning block and a cutting positioning block in a threaded manner, the punching positioning block is provided with a punching positioning hole which is completely penetrated left and right and has the cross section shape consistent with the cross section shape of the aluminum shutter, and a punching avoidance hole which is completely penetrated up and down and is used for inserting a punching punch, and the punching positioning hole is communicated with the punching avoidance hole; the cutting positioning block is provided with a cutting positioning hole which is completely penetrated left and right, a cutting avoidance hole which is completely penetrated up and down and is used for inserting the cutting punch, and the cutting positioning hole is communicated with the cutting avoidance hole; the aluminum shutter ladder rope threading assembly comprises a threading mounting frame, and the upper end part of the threading mounting frame is provided with at least two threading machine heads which are sequentially arranged from left to right at intervals; the penetrating machine head comprises a penetrating support frame, the penetrating support frame comprises a support frame bottom plate which is horizontally and transversely arranged, a left supporting plate which is screwed to the left end part of the support frame bottom plate and vertically extends upwards, a right supporting plate which is screwed to the right end part of the support frame bottom plate and vertically extends upwards, and a guiding mounting plate which is screwed to the front end part of the support frame bottom plate and vertically extends downwards, a left through groove which is used for allowing aluminum shutters to pass through from left to right and is opened upwards is formed in the left supporting plate, a right through groove which is used for allowing the aluminum shutters to pass through from left to right and is opened upwards is formed in the right supporting plate, the left through groove and the right through groove are arranged in a left-right alignment manner, and an aluminum shutter; the upper end part of the left supporting plate is screwed with two ladder rope hooks which are arranged at intervals in a front-back manner and are opposite to each other, one of the ladder rope hooks is positioned at the front end side of the left through groove, and the other ladder rope hook is positioned at the rear end side of the left through groove; the upper surface of the bottom plate of the support frame is provided with a motor mounting seat in a threaded manner, the motor mounting seat is provided with a stepping motor in a threaded manner, the upper end side of the bottom plate of the support frame can be provided with a lifting mounting seat in a relatively up-down movable manner, and the stepping motor is in driving connection with the lifting mounting seat; the rope threading plate is horizontally and transversely arranged and is positioned between the left side supporting plate and the right side supporting plate, the rope threading plate is provided with a rope threading hole which is completely penetrated up and down and is used for a ladder rope to pass through, the upper surface of the rope threading plate is provided with a deflection driving air cylinder which horizontally moves left and right at the side of the rope threading hole in a threaded manner, the extending end part of a piston rod of the deflection driving air cylinder is provided with a deflection driving block which is embedded in the rope threading hole of the rope threading plate in a threaded manner, the deflection driving block is provided with a ladder rope positioning hole which is completely penetrated up and down and is used for the ladder rope to pass through, and the edge of the deflection driving block is provided with a driving block avoiding notch which is completely penetrated up and down and is; but guide mounting panel installs the ladder rope guide pulley of arranging in proper order along ladder rope direction of delivery relatively rotating, and two warp constant head tanks of interval arrangement around each ladder rope guide pulley is seted up respectively. Through the structural design, the automatic feeding device has the advantages of novel structural design, high automation degree and high working efficiency.

Drawings

The invention will be further described with reference to the drawings to which, however, the embodiments shown in the drawings do not constitute any limitation.

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of another view angle of the present invention.

Fig. 3 is a schematic structural diagram of the aluminum sheet automatic discharging assembly of the invention.

Fig. 4 is a schematic structural view of an aluminum louver forming and blanking assembly of the present invention.

Fig. 5 is a schematic structural view of another perspective of the aluminum louver forming and blanking assembly of the present invention.

Fig. 6 is an exploded view of the piercing and blanking mechanism of the present invention.

FIG. 7 is a schematic structural view of an aluminum blind cord threading assembly of the present invention.

Fig. 8 is a schematic structural view of the piercing machine head of the present invention.

Fig. 9 is a partial structural schematic view of the piercing nose of the present invention.

Fig. 10 is a schematic structural view of a deflection driving portion in the piercing-fitting head of the present invention.

Fig. 11 is a schematic structural view of the wearing support frame of the present invention.

Fig. 12 is a schematic structural view of another perspective of the wearing support frame of the present invention.

Figure 13 is an exploded view of the aluminum shutter support mechanism of the present invention.

Fig. 1 to 13 include:

1-aluminum sheet automatic discharging component 11-discharging mounting rack

12-discharge driving motor 13-aluminum sheet discharge tray

2-aluminum shutter forming blanking assembly 21-forming blanking mounting frame

211-forming blanking mounting plate 22-forming conveying mechanism

221-forming conveying driving motor 222-forming conveying driving roller

2221-Forming projection 223-Forming conveying follower roller

2231 forming groove 23 punching and cutting mechanism

231-cylinder mounting plate 232-positioning block mounting plate

233 punching driving cylinder 234 cutting driving cylinder

235-punching punch 236-cutting punch

237-punching location block 2371-punching location hole

2372 punching avoiding hole 238 cutting positioning block

2381 cutting positioning holes 2382 cutting avoiding holes

3-aluminum shutter ladder rope threading assembly 311-threading mounting frame

312-guide rail 313-slide block

32-threading machine head 321-threading support frame

3211 supporting frame bottom plate 3212 left side supporting plate

32121 left through groove 3213 right supporting plate

32131 right through groove 32132 front end accommodating groove

32133 rear end containing groove 3214 guide mounting plate

33 aluminum shutter supporting mechanism 331 front side movable supporting block

332-rear movable support block 333-front fixed cover plate

334-rear side fixed cover plate 34-ladder rope hook

351-Motor mounting base 352-stepping motor

353-fixed top block 354-driving synchronous pulley

355 driven synchronous pulley 356 driving synchronous belt

36-lifting mounting seat 371-threading plate

3711-rope-threading hole 372-deflection driving cylinder

373-deflection driving block 3731-ladder rope positioning hole

3732-driving block avoiding gap 381-ladder rope guide wheel

3811 warp positioning slot 382 counterweight block mounting piece

383-Movable balancing weight 391-aluminium shutter guide block

3911 aluminum shutter guide groove 392 compression bar mounting piece

393-aluminum shutter pressure bar 394-aluminum shutter pressure roller

4-block induction component 41-aluminum shutter block

42-proximity sensor.

Detailed Description

The present invention will be described below with reference to specific embodiments.

As shown in fig. 1 and 2, an automatic aluminum louver production device comprises an aluminum sheet automatic discharging assembly 1, an aluminum louver forming blanking assembly 2 and an aluminum louver rope threading assembly 3 which are sequentially arranged from left to right.

As shown in fig. 4 and 5, the aluminum louver forming and blanking assembly 2 includes a forming and blanking mounting bracket 21, a forming and blanking mounting plate 211 vertically disposed is disposed at an upper end of the forming and blanking mounting bracket 21, and the forming and blanking mounting plate 211 is provided with a forming and conveying mechanism 22 and a punching and cutting mechanism 23 located at a right end side of the forming and conveying mechanism 22; the forming and conveying mechanism 22 includes a forming and conveying driving motor 221 screwed on the rear surface of the forming and blanking mounting plate 211, a power output shaft of the forming and conveying driving motor 221 passes through the forming and blanking mounting plate 211 and extends to the front end side of the forming and blanking mounting plate 211, a forming and conveying driving roller 222 which rotates synchronously with the power output shaft of the forming and conveying driving motor 221 and is positioned on the front end side of the forming and blanking mounting plate 211 is provided on the power output shaft of the forming and conveying driving motor 221, a forming and conveying driven roller 223 is relatively rotatably provided right above the forming and conveying driving roller 222, a forming protrusion 2221 which protrudes outwards and extends annularly along the outer circumferential surface of the forming and conveying driving roller 222 is provided in the middle position of the outer circumferential surface of the forming and conveying driven roller 223, a forming groove 2231 which extends annularly along the outer circumferential surface of the forming and conveying driven roller 223 is provided in the middle, the forming projection 2221 of the forming conveying drive roller 222 is arranged in upper and lower alignment with the forming groove 2231 of the forming conveying driven roller 223.

Further, as shown in fig. 4 and 6, the punching and cutting mechanism 23 includes a cylinder mounting plate 231 and a positioning block mounting plate 232 which are respectively screwed to the front surface of the forming and cutting mounting plate 211, the cylinder mounting plate 231 is located at the upper end side of the positioning block mounting plate 232, the cylinder mounting plate 231 is screwed with a punching driving cylinder 233 and a cutting driving cylinder 234 which respectively move up and down, the punching driving cylinder 233 is located at the front end side of the cutting driving cylinder 234, the extending end of the piston rod of the punching driving cylinder 233 is provided with a punching punch 235, and the extending end of the piston rod of the cutting driving cylinder 234 is provided with a cutting punch 236; the positioning block mounting plate 232 is provided with a punching positioning block 237 and a cutting positioning block 238 in a threaded manner, the punching positioning block 237 is provided with a punching positioning hole 2371 which completely penetrates from left to right and has the same cross-sectional shape as the aluminum shutter, and a punching avoidance hole 2372 which completely penetrates from top to bottom and into which the punching punch 235 is inserted, and the punching positioning hole 2371 is communicated with the punching avoidance hole 2372; the cutting positioning block 238 is provided with a cutting positioning hole 2381 which completely penetrates left and right, a cutting avoiding hole 2382 which completely penetrates up and down and is used for inserting the cutting punch 236, and the cutting positioning hole 2381 is communicated with the cutting avoiding hole 2382.

Further, as shown in fig. 7 to 13, the aluminum venetian blind rope threading assembly 3 includes a threading mounting frame 311, and the upper end of the threading mounting frame 311 is provided with at least two threading machine heads 32 arranged from left to right at intervals; the assembling machine head 32 comprises an assembling support frame 321, the assembling support frame 321 comprises a support frame bottom plate 3211 which is horizontally and transversely arranged, a left supporting plate 3212 which is screwed to the left end of the support frame bottom plate 3211 and vertically extends upwards, a right supporting plate 3213 which is screwed to the right end of the support frame bottom plate 3211 and vertically extends upwards, and a guide mounting plate 3214 which is screwed to the front end of the support frame bottom plate 3211 and vertically extends downwards, the left supporting plate 3212 is provided with a left through groove 32121 through which aluminum louvers pass from left to right and opens upwards, the right supporting plate 3213 is provided with a right through groove 32131 through which the aluminum louvers pass from left to right and open upwards, the left through groove 32121 and the right through groove 32131 are arranged in a left-right alignment manner, and the right supporting mechanism 33 for stacking and supporting the aluminum louvers is arranged beside the right through groove 32131; two ladder rope hooks 34 which are arranged in a front-back interval and opposite to each other are arranged at the upper end of the left supporting plate 3212 in a threaded manner, one ladder rope hook 34 is positioned at the front end side of the left through groove 32121, and the other ladder rope hook 34 is positioned at the rear end side of the left through groove 32121.

In addition, a motor mounting seat 351 is screwed on the upper surface of the support frame bottom plate 3211, a stepping motor 352 is screwed on the motor mounting seat 351, the lifting mounting seat 36 is movably mounted on the upper end side of the support frame bottom plate 3211 up and down relatively, and the stepping motor 352 is in driving connection with the lifting mounting seat 36; a rope threading plate 371 which is horizontally and transversely arranged and is positioned between the left supporting plate 3212 and the right supporting plate 3213 is screwed on the lifting mounting seat 36, a rope threading hole 3711 which is completely penetrated up and down and is used for a ladder rope to pass through is formed in the rope threading plate 371, a deflection driving cylinder 372 which horizontally moves left and right is screwed on the upper surface of the rope threading plate 371 at the side of the rope threading hole 3711, a deflection driving block 373 which is embedded in the rope threading hole 3711 of the rope threading plate 371 is screwed on the extending end part of a piston rod of the deflection driving cylinder 372, a ladder rope positioning hole 3731 which is completely penetrated up and down and is used for the ladder rope to pass through is formed in the deflection driving block 373, and a driving block avoiding notch 3732 which is completely penetrated up and down and is communicated with the ladder rope positioning hole 3731 is formed in the edge of the deflection driving; the guide mounting plate 3214 is relatively rotatably provided with ladder cord guide wheels 381 arranged in sequence along the conveying direction of the ladder cords, and each ladder cord guide wheel 381 is provided with two warp positioning grooves 3811 arranged at intervals in the front-back direction.

Preferably, the stepping motor 352 of the present invention can drive the lifting mounting base 36 to move up and down by adopting the following structure: the upper end of the right supporting plate 3213 is screwed with a fixed top block 353, the power output shaft of the stepping motor 352 is provided with a driving synchronous pulley 354, the fixed top block 353 is provided with a driven synchronous pulley 355 right above the driving synchronous pulley 354, a transmission synchronous belt 356 is wound between the driving synchronous pulley 354 and the driven synchronous pulley 355, and the lifting mounting seat 36 is tightly connected with the transmission synchronous belt 356 through a pressing plate. Of course, the above driving manner is not a limitation of the present invention, that is, the stepping motor 352 of the present invention may also use a worm gear transmission mechanism to drive the lifting mount 36 to move up and down.

It should be further noted that, as shown in fig. 1 and fig. 2, the threading mounting frame 311 is provided with a blocking sensing component 4 at the right end side of the threading head 32 at the rightmost end, the blocking sensing component 4 includes an aluminum shutter baffle fastened to the upper end of the threading mounting frame 311 by a locking screw, the aluminum shutter baffle is aligned with the left through groove 32121 of the left supporting plate 3212 and the right through groove 32131 of the right supporting plate 3213, and the lower end of the aluminum shutter baffle is screwed with the proximity sensor 42.

As shown in fig. 1 to 3, the automatic aluminum sheet feeding assembly 1 includes a feeding mounting bracket 11, a feeding driving motor 12 is screwed on an upper end of the feeding mounting bracket 11, and an aluminum sheet feeding tray 13 for placing the bundled and rolled aluminum sheets is installed on a power output shaft of the feeding driving motor 12.

For the aluminum shutter supporting mechanism 33 installed on the right supporting plate 3213, the following structural design can be adopted, specifically: the aluminum shutter supporting mechanism 33 comprises a front movable supporting block 331, a rear movable supporting block 332, a front fixed cover plate 333, a rear fixed cover plate 334, a front spring and a rear spring; a front end accommodating groove 32132 is formed in the front end side of the right through groove 32131 of the right supporting plate 3213, the front movable supporting block 331 is embedded in the front end accommodating groove 32132, the front fixed cover plate 333 is screwed to the right supporting plate 3213, the front fixed cover plate 333 covers the front end accommodating groove 32132, the lower end of the front movable supporting block 331 is hinged to the front fixed cover plate 333 through a pivot, a front mounting hole opened forward is formed in the upper end of the front movable supporting block 331, a front spring is embedded in the front mounting hole of the front movable supporting block 331, and the front end of the front spring extends out of the front mounting hole and abuts against the right supporting plate 3213; under the action of the elastic force of the front side spring, the upper end part of the front side movable bearing block 331 extends into the right side through groove 32131; a rear end accommodating groove 32133 is formed in the rear end side of the right through groove 32131 of the right supporting plate 3213, the rear movable bearing block 332 is embedded in the rear end accommodating groove 32133, the rear fixed cover plate 334 is screwed on the right supporting plate 3213, the rear fixed cover plate 334 covers the rear end accommodating groove 32133, the lower end of the rear movable bearing block 332 is hinged to the rear fixed cover plate 334 through a pivot, a rear mounting hole opened towards the rear is formed in the upper end of the rear movable bearing block 332, a rear spring is embedded in the rear mounting hole of the rear movable bearing block 332, and the rear end of the rear spring extends out of the rear mounting hole and abuts against the right supporting plate 3213; under the action of the elastic force of the rear spring, the upper end of the rear movable bearing block 332 extends into the right through groove 32131. Preferably, the right supporting plate 3213 is provided with two aluminum louver supporting mechanisms 33 arranged at intervals up and down beside the right through groove 32131, and the two aluminum louver supporting mechanisms 33 arranged at intervals up and down adopt the same mounting structure. Further preferably, the left supporting plate 3212 is also provided with an aluminum louver supporting mechanism 33 at a side of the left through slot 32121, and the aluminum louver supporting mechanism 33 of the left supporting plate 3212 and the aluminum louver supporting mechanism 33 at the lower end of the right supporting plate 3213 are arranged in a left-right alignment; to installing in the aluminium tripe supporting mechanism 33 of left side layer board 3212, its structure and the aluminium tripe supporting mechanism 33 type of installing in right side layer board 3213, it is specific: the aluminum shutter supporting mechanism 33 mounted on the left supporting plate 3212 also includes a front movable supporting block 331, a rear movable supporting block 332, a front fixed cover 333, a rear fixed cover 334, a front spring, and a rear spring; a front end accommodating groove 32132 is formed in the front end side of the left through groove 32121 of the left supporting plate 3212, the front movable supporting block 331 is embedded in the front end accommodating groove 32132, the front fixed cover plate 333 is screwed to the left supporting plate 3212, the front fixed cover plate 333 covers the front end accommodating groove 32132, the lower end of the front movable supporting block 331 is hinged to the front fixed cover plate 333 through a pivot, a front mounting hole opened forward is formed in the upper end of the front movable supporting block 331, a front spring is embedded in the front mounting hole of the front movable supporting block 331, and the front end of the front spring extends out of the front mounting hole and abuts against the left supporting plate 3212; under the action of the elastic force of the front side spring, the upper end part of the front side movable bearing block 331 extends into the left side through groove 32121; a rear end accommodating groove 32133 is formed in the rear end side of the left through groove 32121 of the left supporting plate 3212, the rear movable supporting block 332 is embedded in the rear end accommodating groove 32133, the rear fixed cover plate 334 is screwed to the left supporting plate 3212, the rear fixed cover plate 334 covers the rear end accommodating groove 32133, the lower end of the rear movable supporting block 332 is hinged to the rear fixed cover plate 334 through a pivot, a rear mounting hole opened towards the rear is formed in the upper end of the rear movable supporting block 332, a rear spring is embedded in the rear mounting hole of the rear movable supporting block 332, and the rear end of the rear spring extends out of the rear mounting hole and abuts against the left supporting plate 3212; under the action of the elastic force of the rear spring, the upper end of the rear movable bearing block 332 extends into the left through groove 32121.

For the automatic aluminum shutter production equipment, a PLC controller is assembled, and the discharging driving motor 12, the forming conveying driving motor 221, the punching driving cylinder 233, the cutting driving cylinder 234, the stepping motor 352, the deflection driving cylinder 372 and the proximity induction sensor 42 are respectively and electrically connected with the PLC controller; when the device works, the PLC controls the discharging driving motor 12, the forming and conveying driving motor 221, the punching driving cylinder 233, the cutting driving cylinder 234, the stepping motor 352 and the deflection driving cylinder 372 to act.

The invention is described in detail below with reference to specific working processes, and specifically, the automated aluminum louver production process includes the following steps:

a. the aluminum sheet in a roll shape is placed in the aluminum sheet placing tray 13, and the end of the aluminum sheet is pulled out by a worker and inserted between the forming conveying driving roller 222 and the forming conveying driven roller 223;

b. the PLC controls the discharging driving motor 12 and the forming conveying driving motor 221 to start, the discharging driving motor 12 drives the aluminum sheet discharging tray 13 to rotate, and then the coiled aluminum sheet is discharged; the forming and conveying driving motor 221 drives the forming and conveying driving roller 222 to rotate, the forming and conveying driving roller 222 is matched with the forming and conveying driven roller 223 to realize the transfer of the aluminum sheet towards the right side, and in the process, the forming protrusions 2221 of the forming and conveying driving roller 222 are matched with the forming grooves 2231 of the forming and conveying driven roller 223 to enable the aluminum sheet to be extruded and formed into an arc shape, namely the forming and conveying driving roller 222 and the forming and conveying driven roller 223 are used for realizing the conveying and forming functions at the same time;

c. under the driving action of the forming and conveying driving roller 222 and the forming and conveying driven roller 223, an aluminum sheet extruded into an arc shape sequentially passes through the punching positioning hole 2371 of the punching positioning block 237 and the cutting positioning hole 2381 of the cutting positioning block 238, in the process, the PLC controls the actions of the punching driving cylinder 233 and the cutting driving cylinder 234 according to a program, when the aluminum sheet is punched, the punching driving cylinder 233 drives the punching punch 235 to move downwards, and the downwards-moved punching punch 235 is inserted into the punching avoiding hole 2372 of the punching positioning block 237 and punches the aluminum sheet so as to realize the punching operation of the aluminum sheet; when an aluminum sheet is cut, the cutting driving cylinder 234 drives the cutting punch 236 to move downwards, the cutting punch 236 moving downwards is inserted into the cutting avoiding hole 2382 of the cutting positioning block 238 and cuts the aluminum sheet, and the continuous aluminum sheet is cut to form aluminum shutters;

d. the aluminum shutter formed after the aluminum sheet is cut off sequentially penetrates into the left through groove 32121 and the right through groove 32131 of each penetrating machine head 32, when the right end of the aluminum shutter touches and abuts against the aluminum shutter stopper 41, the proximity sensor 42 obtains an aluminum shutter proximity signal, the proximity sensor 42 feeds the signal back to the PLC controller, and then the PLC controller controls the emptying driving motor 12 and the forming conveying driving motor 221 to stop operating; before the aluminum shutter penetrates into the threading machine head 32, a worker hangs wefts at the end parts of the ladder ropes on the two ladder rope hooks 34, the ladder ropes sequentially pass around the ladder rope guide wheels 381, two warps of the ladder ropes are located in the warp locating grooves 3811 on the corresponding sides, and in the process that the subsequent ladder ropes are pulled upwards, the two warps of the ladder ropes are kept in the warp locating grooves 3811 on the corresponding sides, namely the ladder rope guide wheels 381 can achieve the function of supplying, guiding and locating the ladder ropes; before the weft at the end part of the ladder cord is hung on the ladder cord hook 34, the ladder cord is inserted into the ladder cord positioning hole 3731 through the driving block avoiding notch 3732 of the deflection driving block 373; in addition, in the process that the aluminum shutter sequentially penetrates into each threading machine head 32, the aluminum shutter penetrates between two wefts of each ladder rope, and then the threading operation of the first aluminum shutter is realized;

e. after the first aluminum louver is completely threaded, the PLC controller controls the stepping motor 352 to be started, the stepping motor 352 drives the lifting mounting seat 36 to move upwards by one position, in the process, the lifting mounting seat 36 drives the stringing plate 371, the deflection driving cylinder 372 and the deflection driving block 373 to synchronously move upwards by one position, and the stringing plate 371 drives the first aluminum louver to move upwards when the stringing plate 371 moves upwards by one position because the first aluminum louver is positioned above the stringing plate 371; in the process of moving the first aluminum louver upwards, the aluminum louver can press each front movable bearing block 331 and each rear movable bearing block 332, and the front movable bearing blocks 331 and the rear movable bearing blocks are retracted into the corresponding front end accommodating grooves 32132 and the corresponding rear end accommodating grooves 32133, and when the first aluminum louver moves upwards to the positions above the front movable bearing blocks 331 and the rear movable bearing blocks 332, the front movable bearing blocks 331 and the rear movable bearing blocks 332 extend into the through grooves again under the elastic force action of the corresponding front springs and the rear springs; after the stepping motor 352 drives the stringing plate 371 to move upwards to the position, the stepping motor 352 moves reversely to make the stringing plate 371 move downwards to the initial position, in the process, the stringing plate 371 is separated from the first aluminum shutter and the first aluminum shutter is supported by the aluminum shutter supporting mechanism 3333;

f. after the first aluminum shutter is lifted, the approach signal of the approach sensor 42 disappears, at this time, the PLC controller controls the discharging driving motor 12 and the forming conveying driving motor 221 to be started again to complete the processing of the second aluminum shutter through the aluminum shutter forming blanking assembly 2, and then the penetrating installation and lifting operation of the second aluminum shutter is completed according to the steps d and e; before the second aluminum shutter penetrates into the penetrating machine head 32, the PLC controls the deflection driving cylinder 372 to act, the deflection driving cylinder 372 drives the deflection driving block 373 to move, and the deflection driving block 373 drives the ladder rope to horizontally move, so that wefts of the ladder rope are staggered, and the wefts of the ladder rope are conveniently distributed on the left side and the right side of the lifting rope in a staggered manner when the lifting rope is installed;

g. after the second aluminum shutter is lifted, finishing the penetrating and lifting operation of the third aluminum shutter according to the step f; before the third aluminum shutter penetrates into the penetrating machine head 32, the PLC controls the deflection driving cylinder 372 to act, and the deflection driving cylinder 372 drives the deflection driving block 373 to move so that the deflection driving block 373 is reset to the initial position;

f. sequentially completing the penetrating operation of all the aluminum shutters of the shutter according to the mode; after the aluminum shutter of one shutter is completely threaded, the PLC controller controls the step motor 352 to move and enable the aluminum shutter of the whole shutter to be lifted upwards, and finally the aluminum shutter of the whole shutter is lifted to be above the upper end aluminum shutter supporting mechanism 33 of the right supporting plate 3213, and the threaded aluminum shutter is supported by the upper end aluminum shutter supporting mechanism 33 of the right supporting plate 3213, and in the process, the ladder cord weft originally hung on the ladder cord hook 34 can automatically separate from the ladder cord hook 34; after the aluminum shutter of the window blind which is completely inserted is supported by the upper end aluminum shutter supporting mechanism 33, the stepping motor 352 drives the lifting mounting seat 36 to move down to the working position so as to continue the aluminum shutter inserting operation of the subsequent window blind.

According to the above situation, the aluminum shutter and ladder rope threading operation can be automatically and efficiently completed through the structural design, namely the aluminum shutter and ladder rope threading operation has the advantages of novel structural design, high automation degree and high working efficiency.

As a preferred embodiment, as shown in fig. 7, 8 and 11, the guide mounting plate 3214 is pivotally hinged to a counterweight mounting member 382 at the side of the rope guide wheel 381, and the counterweight mounting member 382 is provided with a movable counterweight 383 for pressing down against the woof of the rope. When the ladder rope is pulled out upwards, the movable balancing weight 383 can downwards abut against the weft of the ladder rope, so that the ladder rope is in a tensioning state, and the stability of the aluminum shutter penetrating device is improved.

As a preferred embodiment, as shown in fig. 7 and 11, when the aluminum louver penetrates into the left through groove 32121 and the rear through groove of the piercing machine head 32, in order to avoid the problem of the end of the aluminum louver from moving up and down, the present invention adopts the following structural design: the left supporting plate 3212 is screwed with an aluminum shutter guide block 391, and the aluminum shutter guide block 391 is provided with an aluminum shutter guide slot 3911 through which the aluminum shutter passes from left to right and which is open upward; the aluminum shutter guide block 391 is hinged with a pressure lever mounting part 392 at the side of the aluminum shutter guide groove 3911 by a pivot, the pressure lever mounting part 392 is provided with an aluminum shutter pressure lever 393 of which one end extends into the aluminum shutter guide groove 3911, and the end of the aluminum shutter pressure lever 393 extending into the aluminum shutter guide groove 3911 is provided with an aluminum shutter pressure wheel 394. Before the aluminum louver penetrates into the left through groove 32121, the right end of the aluminum louver is pressed by the aluminum louver pressing wheel 394.

As shown in fig. 1, 2 and 7, in a preferred embodiment, two guide rails 312 are screwed on the upper end portion of the mounting frame 311, the guide rails 312 are arranged at intervals in the front-rear direction and horizontally extend along the left-right direction, the slide blocks 313 are screwed on the support frame bottom plate 3211 of each mounting head 32 corresponding to each guide rail 312, and each slide block 313 is matched with the corresponding guide rail 312. In the use process of the invention, the worker can adjust the position of the threading machine head 32 according to the length of the aluminum shutter and the installation position of the ladder rope.

The above description is only a preferred embodiment of the present invention, and for those skilled in the art, the present invention should not be limited by the description of the present invention, which should be interpreted as a limitation.

Claims

1. The utility model provides an automatic change aluminium tripe production facility which characterized in that: comprises an aluminum sheet automatic discharging component (1), an aluminum shutter forming blanking component (2) and an aluminum shutter ladder rope threading component (3) which are sequentially arranged from left to right;

the aluminum shutter forming blanking assembly (2) comprises a forming blanking mounting frame (21), wherein the upper end part of the forming blanking mounting frame (21) is provided with a forming blanking mounting plate (211) which is vertically arranged, and the forming blanking mounting plate (211) is provided with a forming conveying mechanism (22) and a punching and cutting mechanism (23) which is positioned on the right end side of the forming conveying mechanism (22); the forming and conveying mechanism (22) comprises a forming and conveying driving motor (221) which is screwed on the rear surface of the forming and blanking mounting plate (211), a power output shaft of the forming and conveying driving motor (221) penetrates through the forming and blanking mounting plate (211) and extends to the front end side of the forming and blanking mounting plate (211), a forming and conveying driving roller (222) which synchronously rotates along with the power output shaft of the forming and conveying driving motor (221) and is positioned on the front end side of the forming and blanking mounting plate (211) is arranged on the power output shaft of the forming and conveying driving motor (221), a forming and conveying driven roller (223) is arranged on the forming and conveying mounting plate (211) in a relatively rotatable manner right above the forming and conveying driving roller (222), a forming bulge (2221) which protrudes outwards and extends annularly along the outer circumferential surface of the forming and conveying driving roller (222) is arranged in the middle position of the outer, a forming groove (2231) extending annularly along the outer circumferential surface of the forming conveying driven roller (223) is formed in the middle of the outer circumferential surface of the forming conveying driven roller (223), and a forming protrusion (2221) of the forming conveying driving roller (222) and the forming groove (2231) of the forming conveying driven roller (223) are arranged in an up-and-down alignment mode;

the punching and cutting mechanism (23) comprises a cylinder mounting plate (231) and a positioning block mounting plate (232) which are respectively screwed on the front surface of the forming and cutting mounting plate (211), the cylinder mounting plate (231) is positioned at the upper end side of the positioning block mounting plate (232), the cylinder mounting plate (231) is screwed with a punching driving cylinder (233) and a cutting driving cylinder (234) which respectively move up and down, the punching driving cylinder (233) is positioned at the front end side of the cutting driving cylinder (234), the extending end part of a piston rod of the punching driving cylinder (233) is provided with a punching punch (235), and the extending end part of the piston rod of the cutting driving cylinder (234) is provided with a cutting punch; the positioning block mounting plate (232) is provided with a punching positioning block (237) and a cutting positioning block (238) in a threaded manner, the punching positioning block (237) is provided with a punching positioning hole (2371) which completely penetrates from left to right and has the cross section shape consistent with that of the aluminum shutter, and a punching avoidance hole (2372) which completely penetrates from top to bottom and is used for inserting the punching punch (235), and the punching positioning hole (2371) is communicated with the punching avoidance hole (2372); the cutting positioning block (238) is provided with a cutting positioning hole (2381) which completely penetrates from left to right, a cutting avoidance hole (2382) which completely penetrates from top to bottom and is used for inserting the cutting punch (236), and the cutting positioning hole (2381) is communicated with the cutting avoidance hole (2382);

the aluminum shutter ladder rope threading assembly (3) comprises a threading mounting frame (311), and the upper end part of the threading mounting frame (311) is provided with at least two threading machine heads (32) which are sequentially arranged from left to right at intervals; the penetrating machine head (32) comprises a penetrating support frame (321), the penetrating support frame (321) comprises a support frame bottom plate (3211) which is horizontally and transversely arranged, and a left supporting plate (3212) which is screwed at the left end part of the support frame bottom plate (3211) and vertically extends upwards, the aluminum shutter supporting device comprises a right supporting plate (3213) which is screwed at the right end of a supporting frame bottom plate (3211) and vertically extends upwards, and a guiding mounting plate (3214) which is screwed at the front end of the supporting frame bottom plate (3211) and vertically extends downwards, wherein a left through groove (32121) through which aluminum shutters pass from left to right and is opened upwards is formed in the left supporting plate (3212), a right through groove (32131) through which aluminum shutters pass from left to right and is opened upwards is formed in the right supporting plate (3213), the left through groove (32121) and the right through groove (32131) are aligned left and right, and an aluminum shutter supporting mechanism (33) for stacking and supporting the aluminum shutters is arranged beside the right through groove (32131) of the right supporting plate (321; two ladder rope hooks (34) which are arranged in a front-back interval and opposite to each other are screwed at the upper end part of the left supporting plate (3212), one ladder rope hook (34) is positioned at the front end side of the left through groove (32121), and the other ladder rope hook (34) is positioned at the rear end side of the left through groove (32121);

a motor mounting seat (351) is screwed on the upper surface of the support frame bottom plate (3211), a stepping motor (352) is screwed on the motor mounting seat (351), the lifting mounting seat (36) is movably mounted on the upper end side of the support frame bottom plate (3211) up and down relatively, and the stepping motor (352) is in driving connection with the lifting mounting seat (36); a rope threading plate (371) which is horizontally and transversely arranged and is positioned between the left supporting plate (3212) and the right supporting plate (3213) is arranged in a threaded manner on the lifting mounting seat (36), a rope threading hole (3711) which is completely penetrated up and down and is used for a ladder rope to pass through is formed in the rope threading plate (371), a deflection driving cylinder (372) which horizontally moves left and right is arranged on the upper surface of the rope threading plate (371) in a threaded manner at the side of the rope threading hole (3711), a deflection driving block (373) which is embedded in the rope threading hole (3711) of the rope threading plate (371) is arranged in a threaded manner on the extending end part of a piston rod of the deflection driving cylinder (372), a ladder rope positioning hole (3731) which is completely penetrated up and down and is used for the ladder rope to pass through is formed in the deflection driving block (373), and a driving block avoiding notch (3732) which is completely penetrated up and down and is communicated with the ladder rope positioning hole; the guide mounting plate (3214) can be relatively rotatably provided with ladder rope guide wheels (381) which are sequentially arranged along the conveying direction of the ladder ropes, and each ladder rope guide wheel (381) is respectively provided with two warp positioning grooves (3811) which are arranged at intervals from front to back.

2. An automated aluminum louvre production apparatus as claimed in claim 1, wherein: wear to adorn mounting bracket (311) in the rightmost end wear to adorn aircraft nose (32) right-hand member side dress to be equipped with and block response subassembly (4), block response subassembly (4) including through locking screw spiral shell dress fastening in wearing the aluminium tripe baffle of adorning mounting bracket (311) upper end, aluminium tripe baffle aligns the logical groove (32121) in the left side of left side layer board (3212) and the logical groove (32131) in the right side of right side layer board (3213), the lower tip spiral shell of aluminium tripe baffle is equipped with and is close inductive transducer (42).

3. An automated aluminum louvre production apparatus as claimed in claim 1, wherein: the aluminum shutter supporting mechanism (33) comprises a front side movable supporting block (331), a rear side movable supporting block (332), a front side fixed cover plate (333), a rear side fixed cover plate (334), a front side spring and a rear side spring;

the front end accommodating groove (32132) is formed in the front end side of the right through groove (32131) of the right supporting plate (3213), the front movable bearing block (331) is embedded in the front end accommodating groove (32132), the front fixed cover plate (333) is screwed on the right supporting plate (3213) and the front fixed cover plate (333) covers the front end accommodating groove (32132), the lower end part of the front movable bearing block (331) is hinged on the front fixed cover plate (333) through a pivot, the upper end part of the front movable bearing block (331) is provided with a front mounting hole which is opened towards the front, a front spring is embedded in the front mounting hole of the front movable bearing block (331), and the front end part of the front spring extends out of the front mounting hole and is abutted against the right supporting plate (3213); under the action of the elasticity of the front side spring, the upper end part of the front side movable bearing block (331) extends into the right side through groove (32131);

a rear end accommodating groove (32133) is formed in the rear end side of the right through groove (32131) of the right supporting plate (3213), a rear movable bearing block (332) is embedded in the rear end accommodating groove (32133), a rear fixed cover plate (334) is screwed in the right supporting plate (3213), the rear fixed cover plate (334) covers the rear end accommodating groove (32133), the lower end part of the rear movable bearing block (332) is hinged to the rear fixed cover plate (334) through a pivot, a rear mounting hole which is open towards the rear is formed in the upper end part of the rear movable bearing block (332), a rear spring is embedded in the rear mounting hole of the rear movable bearing block (332), and the rear end part of the rear spring extends out of the rear mounting hole and is abutted to the right supporting plate (3213); under the action of the elastic force of the rear side spring, the upper end part of the rear side movable bearing block (332) extends into the right side through groove (32131).

4. An automated aluminum louvre production apparatus as claimed in claim 3, wherein: and two aluminum shutter supporting mechanisms (33) which are arranged at intervals up and down are arranged beside the right through groove (32131) of the right supporting plate (3213).

5. An automated aluminum louvre production apparatus as claimed in claim 4, wherein: an aluminum shutter supporting mechanism (33) is also arranged beside the left through groove (32121) of the left supporting plate (3212), and the aluminum shutter supporting mechanism (33) of the left supporting plate (3212) and the aluminum shutter supporting mechanism (33) at the lower end of the right supporting plate (3213) are arranged in a left-right alignment manner.

6. An automated aluminum louvre production apparatus as claimed in claim 1, wherein: the upper end of the right supporting plate (3213) is screwed with a fixed ejector block (353), a power output shaft of the stepping motor (352) is provided with a driving synchronous pulley (354), the fixed ejector block (353) is provided with a driven synchronous pulley (355) right above the driving synchronous pulley (354), a transmission synchronous belt (356) is wound between the driving synchronous pulley (354) and the driven synchronous pulley (355), and the lifting mounting seat (36) is tightly connected with the transmission synchronous belt (356) through a pressing plate.

7. An automated aluminum louvre production apparatus as claimed in claim 1, wherein: the guide mounting plate (3214) is hinged with a counterweight mounting member (382) at the side of the ladder rope guide wheel (381) through a pivot, and the counterweight mounting member (382) is provided with a movable counterweight (383) which is used for pressing down the latitude line of the ladder rope.

8. An automated aluminum louvre production apparatus as claimed in claim 1, wherein: the left supporting plate (3212) is provided with an aluminum shutter guide block (391) in a threaded manner, and the aluminum shutter guide block (391) is provided with an aluminum shutter guide slot (3911) through which aluminum shutters pass from left to right and which is opened upwards;

the aluminum shutter guide block (391) is hinged with a pressure lever mounting piece (392) at the side of the aluminum shutter guide groove (3911) through a pivot, the pressure lever mounting piece (392) is provided with an aluminum shutter pressure lever (393) with one end extending into the aluminum shutter guide groove (3911), and the end of the aluminum shutter pressure lever (393) extending into the aluminum shutter guide groove (3911) is provided with an aluminum shutter pressure wheel (394).

9. An automated aluminum louvre production apparatus as claimed in claim 1, wherein: the upper end part of the penetrating installation mounting frame (311) is provided with two guide rails (312) which are arranged at intervals in a front-back mode and horizontally extend along the left-right direction respectively in a threaded mode, sliding blocks (313) are arranged on a supporting frame bottom plate (3211) of each penetrating installation machine head (32) in a threaded mode corresponding to the guide rails (312) respectively, and the sliding blocks (313) are matched with the guide rails (312) on the corresponding sides respectively.

10. An automated aluminum louvre production apparatus as claimed in claim 1, wherein: automatic blowing subassembly of aluminum sheet (1) is including blowing mounting bracket (11), and the upper end spiral shell of blowing mounting bracket (11) is equipped with blowing driving motor (12), and the power output shaft of blowing driving motor (12) installs aluminum sheet blowing dish (13) that are used for placing bundle roll aluminum sheet.