CN217700869U - Numerical control pneumatic four-head corner combining production line - Google Patents

Abstract

The utility model relates to an aluminum alloy door and window group angle production technical field, concretely relates to pneumatic four-head group angle production line of numerical control, include loading attachment, four-head group angle machine and discharging device that set gradually along material moving direction. The numerical control pneumatic four-head corner assembling production line is used for corner assembling production of aluminum alloy doors and windows, can be used for simultaneously performing corner assembling processing on four corners of the doors and windows, realizes one-step forming of the doors and windows, is efficient and quick, and has good corner assembling quality; the preassembled door and window is automatically input and processed, is automatically output after being formed into a window, has high automation degree, saves manpower, can realize foolproof operation, and greatly improves the production efficiency.

Description

Numerical control pneumatic four-head corner assembling production line

Technical Field

The utility model relates to an al-alloy door & window group angle production technical field, concretely relates to pneumatic four-head group angle production line of numerical control.

Background

Along with the continuous improvement of living standard of people, the requirements on living conditions are higher and higher, and the requirements of doors and windows on heat preservation, energy conservation, elegant appearance, firmness and reliability are also required to be met besides the basic functional requirements, so that the requirements on the assembly precision of aluminum alloy doors and windows are higher and higher.

In the production process of doors and windows, corner combining is an important ring. And the corner assembling is a processing technology that after the section bars are connected and assembled by corner connectors according to the requirements of construction drawings, the section bars and the corner connectors are riveted together by punching and riveting, and finally a finished window is formed. The process mode is the most common processing mode in the production process of the existing doors and windows due to simple processing and high efficiency.

Among the prior art, group angle mostly adopts group angle machine, for example hydraulic pressure group angle machine etc. whole group angle technology degree of automation is lower, and door and window section bar is generally by the manual group angle machine department of taking of technical worker and carry out semi-mechanical positioning, carries out the group angle by group angle machine again, is taken off by technical worker is manual again after accomplishing, and this has seriously influenced aluminum alloy door and window's production efficiency, has caused the extravagant a large amount of examination machine section bars, is unfavorable for the flow of enterprise, automated production.

Disclosure of Invention

The utility model discloses to the lower scheduling problem of present al-alloy door & window group angle production degree of automation, provided a pneumatic four-head group angle production line of numerical control.

In order to achieve the purpose, the utility model firstly provides a numerical control pneumatic four-head corner combining production line, which comprises a feeding device, a four-head corner combining machine and a discharging device which are arranged in sequence along the material moving direction; the feeding device comprises a feeding rack, a feeding fixed cross beam and a feeding movable cross beam, wherein the feeding fixed cross beam and the feeding movable cross beam are arranged on the feeding rack at intervals in parallel, and the extending direction of the feeding fixed cross beam and the feeding movable cross beam is the same as the moving direction of materials; the discharging device comprises a discharging rack, a discharging fixed cross beam and a discharging movable cross beam, wherein the discharging fixed cross beam and the discharging movable cross beam are arranged on the discharging rack at intervals in parallel, and the extending direction of the discharging fixed cross beam and the discharging movable cross beam is the same as the moving direction of materials; the four-head corner combining machine comprises a machine base, a conveying mechanism and four corner combining machine heads, wherein the four corner combining machine heads are all arranged on the machine base and can form four corners of a rectangle, the conveying mechanism is arranged on the machine base, two corner combining machine heads are respectively positioned on two sides of the conveying mechanism, and two ends of the conveying mechanism are respectively connected with the feeding device and the discharging device; the group angle aircraft nose including the installation base and install in the group angle mechanism, interior positioning mechanism, outer positioning mechanism, the side positioning mechanism of installation base, interior positioning mechanism with outer positioning mechanism sets up relatively, the installation base have the installation face and be located installation cavity under the installation face, the intercommunication has been seted up to the installation face interior location removal hole of installation cavity, interior positioning mechanism has interior positioning plate, interior positioning mechanism install in the installation cavity, interior positioning plate can the up-and-down motion in order to stretch out interior location removal hole and can follow the extending direction motion of interior location removal hole.

Preferably, the installation base includes the mounting bracket and is located first arrangement area, second arrangement area and the installation cavity of mounting bracket up end, the up end of installation cavity does the installation face, two group angle mechanism mounting holes have been seted up to the installation face, two group angle mechanism mounting holes for interior location shift hole symmetry sets up, the both sides of group angle mechanism mounting hole are provided with rectangular form fixed deflector.

Preferably, the mounting surface is further provided with two side positioning moving holes, the two side positioning moving holes are symmetrically arranged relative to the inner positioning moving holes, and the side positioning moving holes are long-strip-shaped.

Preferably, the side positioning mechanism is provided with a side positioning plate, the side positioning mechanism is installed in the installation cavity, and the side positioning plate extends out of the side positioning moving hole and can move along the extending direction of the side positioning moving hole.

Preferably, side positioning mechanism includes side direction mounting panel, preceding backup pad, back backup pad, motor, lead screw, screw seat, linear guide and connecting plate, preceding backup pad with back backup pad is fixed in side direction mounting panel sets up along its major axis direction interval, the one end of lead screw rotate set up in preceding backup pad, the other end rotate set up in back backup pad, the screw seat with lead screw threaded connection, the motor is fixed in back backup pad and with the end connection of lead screw, linear guide follows the major axis direction of side direction mounting panel is fixed in side direction mounting panel, the connecting plate slide set up in linear guide, the one end of connecting plate with the screw seat is connected, the other end with side direction plate connects.

Preferably, the inner positioning mechanism comprises an inner positioning mounting seat, a fixing plate, a guide rod and a lifting cylinder, and the inner positioning plate is arranged on the upper end surface of the inner positioning mounting seat; the interior location mount pad is provided with the uide bushing of vertical direction, the one end of guide bar stretches into in the uide bushing, and the other end is fixed with the fixed plate, the fixed plate is kept away from the one side of guide bar is fixed with the lift cylinder, the drive end of lift cylinder is connected interior location mount pad.

Preferably, the inner positioning mechanism further comprises a horizontal driving assembly, a sliding groove is formed above the inner positioning mounting seat, the inner positioning plate is arranged in the sliding groove in a sliding mode, the horizontal driving assembly comprises a gas-liquid converter, a hydraulic pipe and a hydraulic cylinder which are connected in sequence, the pneumatic cylinder is fixed to one side of the inner positioning mounting seat, and high-pressure liquid in the gas-liquid converter can flow into the pneumatic cylinder through the hydraulic pipe so that the pneumatic cylinder drives the inner positioning plate to slide in the sliding groove.

Preferably, the sliding groove is a dovetail sliding groove, an adjusting pressing strip is further arranged in the dovetail sliding groove and located between the dovetail sliding groove and the inner positioning plate, a plurality of adjusting screws are rotatably arranged on the outer side of the inner positioning mounting seat, and the end portions of the adjusting screws extend into the dovetail sliding groove and are abutted to the adjusting pressing strip.

Preferably, the first arrangement area is provided with a machine head electric box, the second arrangement area is internally provided with a plurality of arrangement plates, and a plurality of parts are fixed on the arrangement plates.

Preferably, the numerical control pneumatic four-head corner-combining production line is further provided with an operation table and a main electrical box.

The beneficial effects of the utility model are that:

the numerical control pneumatic four-head corner assembling production line is used for corner assembling production of aluminum alloy doors and windows, can be used for simultaneously performing corner assembling processing on four corners of the doors and windows, realizes one-step forming of the doors and windows, is efficient and quick, and has good corner assembling quality; the preassembled door and window is automatically input and processed, is automatically output after being formed into a window, has high automation degree, saves manpower, can realize fool operation, and greatly improves the production efficiency.

Drawings

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

Fig. 1 is a schematic view of a three-dimensional structure of a numerical control pneumatic four-head corner combining production line according to an embodiment of the present invention.

Fig. 2 is a schematic perspective view of the angle forming machine head according to the embodiment of the present invention.

Fig. 3 is a schematic perspective view of an installation base according to an embodiment of the present invention.

Fig. 4 is a schematic view of a three-dimensional structure of a side positioning mechanism according to an embodiment of the present invention.

Fig. 5 is a schematic view of a three-dimensional structure of an inner positioning mechanism according to an embodiment of the present invention.

In the figure: 1. the automatic angle assembling device comprises a feeding device, 2, a four-head angle assembling machine, 3, a discharging device, 4, an operation table, 5, a main electric box, 6, a feeding rack, 7, a feeding fixed cross beam, 8, a feeding movable cross beam, 9, a discharging rack, 10, a discharging fixed cross beam, 11, a discharging movable cross beam, 12, a machine base, 13, a conveying mechanism, 14, an angle assembling machine head, 15, an installation base, 16, an angle assembling mechanism, 17, an inner positioning mechanism, 18, an outer positioning mechanism, 19, a side positioning mechanism, 20, an installation surface, 21, an installation cavity, 22, an inner positioning moving hole, 23, an inner positioning plate, 24, an installation frame, 25 and a first arrangement area, 26, a second arrangement area, 27, a machine head electric box, 28, a corner combining mechanism mounting hole, 29, a fixed guide plate, 30, a side positioning plate, 31, a side mounting plate, 32, a front support plate, 33, a rear support plate, 34, a motor, 35, a lead screw, 36, a screw base, 37, a linear guide rail, 38, a connecting plate, 39, a side positioning moving hole, 40, an inner positioning mounting seat, 41, a fixing plate, 42, a guide rod, 43, a lifting cylinder, 44, a gas-liquid converter, 45, a hydraulic pipe, 46, a gas-liquid cylinder, 47, a guide sleeve, 48, a sliding groove, 49, an adjusting pressing strip, 50 and an adjusting screw.

Detailed Description

In order to make the objects, features and advantages of the present invention more obvious and understandable, the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments, and obviously, the embodiments described below are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments in this patent without making creative efforts, shall fall within the protection scope of this patent.

As shown in fig. 1, fig. 2, fig. 3, fig. 4, and fig. 5, in this embodiment, the present invention firstly provides a numerically controlled pneumatic four-head corner combining production line, which includes a feeding device 1, a four-head corner combining machine 2, a discharging device 3, an operation console 4, and a main electrical box 5, which are sequentially arranged along a material moving direction; the feeding device 1 comprises a feeding frame 6, a feeding fixed cross beam 7 and a feeding movable cross beam 8, the feeding fixed cross beam 7 and the feeding movable cross beam 8 are arranged on the feeding frame 6 at intervals in parallel, the extending directions of the feeding fixed cross beam 7 and the feeding movable cross beam 8 are the same as the material moving direction, and the feeding movable cross beam 8 can move towards the direction far away from or close to the feeding fixed cross beam 7 on the feeding frame 6; the discharging device 3 comprises a discharging rack 9, a discharging fixed cross beam 10 and a discharging movable cross beam 11, the discharging fixed cross beam 10 and the discharging movable cross beam 11 are arranged on the discharging rack 9 at intervals in parallel, the extending direction of the discharging fixed cross beam 10 and the discharging movable cross beam 11 is the same as the moving direction of materials, and the discharging movable cross beam 11 can move towards the direction far away from or close to the discharging fixed cross beam 10 on the discharging rack 9; the four-head corner combining machine 2 comprises a machine base 12, a conveying mechanism 13 and four corner combining machine heads 14, wherein the four corner combining machine heads 14 are all arranged on the machine base and can form four corners of a rectangle, the conveying mechanism is arranged on the machine base, two corner combining machine heads 14 are respectively arranged on two sides of the conveying mechanism 13, and two ends of the conveying mechanism 13 are respectively connected with a feeding device 1 and a discharging device 3; the group angle machine head 14 comprises a mounting base 15 and a group angle mechanism 16 mounted on the mounting base 15, an inner positioning mechanism 17, an outer positioning mechanism 18 and a side positioning mechanism 19, the inner positioning mechanism 18 and the outer positioning mechanism 18 are oppositely arranged, the mounting base 15 is provided with a mounting surface 20 and a mounting cavity 21 positioned below the mounting surface, the mounting surface 20 is provided with an inner positioning moving hole 22 communicated with the mounting cavity 21, the inner positioning mechanism 17 is provided with an inner positioning plate 23, the inner positioning mechanism 17 is mounted in the mounting cavity 21, and the inner positioning plate 23 can move up and down to stretch out the inner positioning moving hole 22 and can move along the extension direction of the inner positioning moving hole 22. The operation table 4 and the main electric box 5 can be used for automatically controlling each structure, the flow process of the production line is realized, the mounting surface 20 is used as an operation surface of a corner assembly, doors and windows can be positioned and corner assembled, meanwhile, in order to ensure the automatic transportation of the doors and windows, the movement of the doors and windows cannot be blocked, the inner positioning plate 23 can extend out of the mounting surface 20 to perform positioning action, and can also be hidden below the mounting surface 20, so that the doors and windows can smoothly enter or leave the corner assembly position, and the requirements of the corner assembly production line are flexibly met.

As shown in fig. 2 and 3, the mounting base 15 includes a mounting frame 24, and a first arrangement area 25, a second arrangement area 26 and a mounting cavity 21 which are located on an upper end face of the mounting frame 24, the first arrangement area 25 is provided with a handpiece electrical cabinet 27, the second arrangement area 26 has a plurality of placement plates 27 therein, and a plurality of parts, such as parts related to the handpiece electrical cabinet 27 and parts of the corner combining mechanism 16 which cannot be placed in the mounting cavity 21, are fixed on the placement plates 27; the upper end face of the mounting cavity 21 is a mounting face 20, two corner combining mechanism mounting holes 28 are formed in the mounting face 20, the two corner combining mechanism mounting holes 28 are symmetrically arranged relative to the inner positioning moving hole 22, and strip-shaped fixed guide plates 29 are arranged on two sides of the corner combining mechanism mounting holes 28.

As shown in fig. 4, the side positioning mechanism 19 includes a side positioning plate 30, a side mounting plate 31, a front support plate 32, a rear support plate 33, a motor 34, a screw 35, a nut seat 36, a linear guide 37 and a connecting plate 38, wherein the front support plate 32 and the rear support plate 33 are fixed on the side mounting plate 31 and spaced apart from each other along the long axis direction thereof, one end of the screw 35 is rotatably disposed on the front support plate 32, the other end thereof is rotatably disposed on the rear support plate 33, the nut seat 36 is in threaded connection with the screw 35, the motor 34 is fixed on the rear support plate 33 and connected with the end of the screw 35, the linear guide 37 is fixed on the side mounting plate 31 along the long axis direction of the side mounting plate 31, the connecting plate 38 is slidably disposed on the linear guide 37, one end of the connecting plate 38 is connected with the nut seat 36, and the other end is connected with the side positioning plate 30. The mounting surface 20 is further provided with two side positioning moving holes 39, the two side positioning moving holes 39 are symmetrically arranged relative to the inner positioning moving hole 22, and the side positioning moving holes 39 are long-strip-shaped. The side positioning mechanism 19 is mounted in the mounting cavity 21, and the side positioning plate 30 extends out of the side positioning moving hole 39 and is movable in the extending direction of the side positioning moving hole 39. When the motor 34 drives the screw 35 to rotate, the nut seat 36 moves on the screw 35, thereby moving the connecting plate 38 and the side positioning plate 30 back and forth.

As shown in fig. 5, the inner positioning mechanism 17 includes an inner positioning mounting base 40, a fixing plate 41, a guide rod 42, a lifting cylinder 43, and a gas-liquid converter 44, a hydraulic pipe 45 and a gas-liquid cylinder 46 which are connected in sequence, and the inner positioning plate 23 is arranged on the upper end surface of the inner positioning mounting base 40; interior location mount pad 40 is provided with vertical direction's uide bushing 47, and in the one end of guide bar 42 stretched into uide bushing 47, the other end was fixed with fixed plate 41, and the one side that guide bar 42 was kept away from to fixed plate 41 is fixed with lift cylinder 43, and interior location mount pad 40 is connected to lift cylinder 43's drive end. A sliding groove 48 is formed above the inner positioning mounting seat 40, the inner positioning plate 23 is arranged in the sliding groove 48 in a sliding mode, the gas-liquid converter 44, the hydraulic pipe 45 and the gas-liquid cylinder 46 form a horizontal driving assembly together, the gas-liquid cylinder 46 is fixed to one side of the inner positioning mounting seat 40, and high-pressure liquid in the gas-liquid converter 44 can flow into the gas-liquid cylinder 46 through the hydraulic pipe 45 so that the gas-liquid cylinder 46 drives the inner positioning plate 23 to slide in the sliding groove 48. Specifically, the sliding groove 48 may be a dovetail sliding groove, an adjusting pressing strip 49 is further disposed in the dovetail sliding groove, the adjusting pressing strip 49 is located between the dovetail sliding groove and the inner positioning plate 23, a plurality of adjusting screws 50 are rotatably disposed on the outer side of the inner positioning mounting seat 40, and end portions of the adjusting screws 50 extend into the dovetail sliding groove and abut against the adjusting pressing strip 49.

The working principle of the utility model is as follows:

the initial state before machining is as follows:

1) Inputting a window size according to the machining window type in the operating system of the operating table 4;

2) The equipment automatically sets the initial positions of the feeding device 1, the four-head corner combining machine 2 and the discharging device 3 according to the size of a window frame (sash) to be combined;

3) Adjusting the height of the corner combining knife to a proper position according to the sectional dimension of the sectional material;

the processing process is as follows:

1) The window frame (sash) to be assembled is placed on the loading device 1.

2) The pedal switch is stepped on, the supporting rod of the part of the feeding device 1 and the supporting rod of the conveying mechanism in the four-head corner combining machine 2 are simultaneously lifted, the supporting rod of the feeding device 1 moves forwards under the driving of the cylinder, the conveying motor is started at the moment, and the window frame (fan) to be processed is driven by the synchronous belt to be forwards conveyed.

3) When the detection switch of the transportation mechanism in the four-head corner combining machine 2 detects that the window frame (sash) reaches a set position, the transportation motor stops, and meanwhile, the support rod of the transportation mechanism falls down, and the window frame (sash) to be processed is placed on the installation surface 20 of the four-head corner combining machine 2.

4) The servo motor drives the four corner assembling machine heads 14 to move towards the middle to the set position when assembling corners, and the side positioning mechanism 19 of each machine head pushes the window frame (fan) to be processed to the corner assembling position, which is rough positioning.

5) The servo motor of the outer positioning mechanism of each group of angle machine heads 14 drives the positioning block of the outer positioning mechanism 18 to move forward to clamp the window frame (sash) to be processed at the processing position, and the step is precise positioning.

6) The cylinder of the outer positioning mechanism 18 pushes the auxiliary positioning block to extend forwards to press the outer corner of the window frame (sash), and the pressing cylinder extends downwards to press the window frame (sash) from the upper side.

7) The gas-liquid pressure cylinder acts to drive the angle-assembling knife of the angle-assembling mechanism 16 to extend forwards, the angle-assembling (punching and riveting) is carried out on the window frame (sash) to be processed, and after the angle-assembling action is finished (through time delay setting), the angle-assembling knife retreats.

8) Each aircraft nose is withdrawn, arrives transport mechanism and discharging device 3's bracing piece after the initial position and rises, and gear motor drives window frame (fan) after the hold-in range will finish processing and carries to discharging device 3, treats that discharging device 3's detection switch detects window frame (fan), and gear motor stops, and transport mechanism bracing piece and discharging device 3's bracing piece falls, and a duty cycle is accomplished this moment.

The utility model has the advantages that:

the numerical control pneumatic four-head corner assembling production line is used for corner assembling production of aluminum alloy doors and windows, can be used for simultaneously performing corner assembling processing on four corners of the doors and windows, realizes one-step forming of the doors and windows, is efficient and quick, and has good corner assembling quality; the preassembled door and window is automatically input and processed, is automatically output after being formed into a window, has high automation degree, saves manpower, can realize fool operation, and greatly improves the production efficiency.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A numerical control pneumatic four-head corner combining production line is characterized by comprising a feeding device, a four-head corner combining machine and a discharging device which are sequentially arranged along the moving direction of materials;

the feeding device comprises a feeding rack, a feeding fixed cross beam and a feeding movable cross beam, wherein the feeding fixed cross beam and the feeding movable cross beam are arranged on the feeding rack at intervals in parallel, and the extending direction of the feeding fixed cross beam and the feeding movable cross beam is the same as the material moving direction; the discharging device comprises a discharging rack, a discharging fixed cross beam and a discharging movable cross beam, wherein the discharging fixed cross beam and the discharging movable cross beam are arranged on the discharging rack at intervals in parallel, and the extending direction of the discharging fixed cross beam and the discharging movable cross beam is the same as the moving direction of materials;

the four-head corner combining machine comprises a machine base, a conveying mechanism and four corner combining machine heads, wherein the four corner combining machine heads are all arranged on the machine base and can form four corners of a rectangle, the conveying mechanism is arranged on the machine base, two corner combining machine heads are respectively positioned on two sides of the conveying mechanism, and two ends of the conveying mechanism are respectively connected with the feeding device and the discharging device; the group angle aircraft nose including the installation base and install in the group angle mechanism, interior positioning mechanism, outer positioning mechanism, the side positioning mechanism of installation base, interior positioning mechanism with outer positioning mechanism sets up relatively, the installation base has the installation face and is located the installation cavity under the installation face, the intercommunication has been seted up to the installation face interior location of installation cavity removes the hole, interior positioning mechanism has interior locating plate, interior positioning mechanism install in the installation cavity, interior locating plate can the up-and-down motion in order to stretch out interior location removes the hole and can follow the extending direction motion of interior location removal hole.

2. The CNC pneumatic four-head corner combining production line according to claim 1, wherein the mounting base comprises a mounting frame, a first arrangement area, a second arrangement area and a mounting cavity, the first arrangement area, the second arrangement area and the mounting cavity are located on the upper end face of the mounting frame, the upper end face of the mounting cavity is the mounting face, two corner combining mechanism mounting holes are formed in the mounting face, the two corner combining mechanism mounting holes are symmetrically arranged relative to the inner positioning moving hole, and long-strip-shaped fixed guide plates are arranged on two sides of each corner combining mechanism mounting hole.

3. The numerical control pneumatic four-head corner combining production line according to claim 2, wherein the mounting surface is further provided with two side positioning moving holes, the two side positioning moving holes are symmetrically arranged relative to the inner positioning moving holes, and the side positioning moving holes are long-strip-shaped.

4. The CNC pneumatic four-head corner combining production line according to claim 3, wherein the side positioning mechanism is provided with a side positioning plate, the side positioning mechanism is installed in the installation cavity, and the side positioning plate extends out of the side positioning moving hole and can move along the extending direction of the side positioning moving hole.

5. The production line of numerical control pneumatic four-head corner combining according to claim 4, wherein the side positioning mechanism comprises a side mounting plate, a front support plate, a rear support plate, a motor, a screw rod, a screw seat, a linear guide and a connecting plate, the front support plate and the rear support plate are fixed on the side mounting plate and are arranged at intervals along the long axis direction of the side mounting plate, one end of the screw rod is rotatably arranged on the front support plate, the other end of the screw rod is rotatably arranged on the rear support plate, the screw seat is in threaded connection with the screw rod, the motor is fixed on the rear support plate and is connected with the end of the screw rod, the linear guide is fixed on the side mounting plate along the long axis direction of the side mounting plate, the connecting plate is slidably arranged on the linear guide, one end of the connecting plate is connected with the screw seat, and the other end of the connecting plate is connected with the side positioning plate.

6. The numerical control pneumatic four-head corner combining production line according to claim 1, wherein the inner positioning mechanism comprises an inner positioning mounting seat, a fixing plate, a guide rod and a lifting cylinder, and the inner positioning plate is arranged on the upper end face of the inner positioning mounting seat; the interior location mount pad is provided with the uide bushing of vertical direction, the one end of guide bar stretches into in the uide bushing, and the other end is fixed with the fixed plate, the fixed plate is kept away from the one side of guide bar is fixed with the lift cylinder, the drive end of lift cylinder is connected interior location mount pad.

7. The CNC pneumatic four-head corner combining production line according to claim 6, wherein the inner positioning mechanism further comprises a horizontal driving assembly, a sliding groove is formed above the inner positioning installation seat, the inner positioning plate is slidably disposed in the sliding groove, the horizontal driving assembly comprises a gas-liquid converter, a hydraulic pipe and a hydraulic cylinder which are connected in sequence, the pneumatic cylinder is fixed on one side of the inner positioning installation seat, and high-pressure liquid in the gas-liquid converter can flow into the pneumatic cylinder through the hydraulic pipe so that the pneumatic cylinder drives the inner positioning plate to slide in the sliding groove.

8. The numerical control pneumatic four-head corner combining production line according to claim 7, wherein the chute is a dovetail chute, an adjusting pressing strip is further arranged in the dovetail chute and is positioned between the dovetail chute and the inner positioning plate, a plurality of adjusting screws are rotatably arranged on the outer side of the inner positioning mounting seat, and the end portions of the adjusting screws extend into the dovetail chute and abut against the adjusting pressing strip.

9. The numerically controlled pneumatic four-head corner combining production line according to claim 2, wherein the first arrangement area is provided with a head electric box, the second arrangement area is provided with a plurality of arrangement plates, and a plurality of parts are fixed on the arrangement plates.

10. The CNC pneumatic four-head corner combining production line of claim 1, further provided with an operation console and a main electric box.

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