CN113600865A - Production process of anti-settling aluminum alloy door and window - Google Patents

Abstract

The invention discloses a production process of an anti-settling aluminum alloy door and window. This can prevent aluminum alloy door and window's that subsides production technology, bilateral symmetry that lies in the door and window body through preventing that the frame that subsides is provided with four, and four are prevented that the inside of frame that subsides all passes through connecting bolt fixed connection with the inside of door and window body, utilize four to prevent that the frame that subsides effectively solves can be because the problem that can take place to subside in wall body pouring construction and the installation of later stage door and window body when installing the door and window body, and compare in the comparison document, adopt enhancement connecting bolt to be connected between door and window body and the frame that prevents subsides in this scheme, the inside of having avoided spacing ball at the spacing groove takes place to warp, lead to aluminum alloy door and window comparatively difficult problem on the dismouting with preventing the settlement device, door and window prevents the problem of subsiding has been solved, and then can effectively avoid the wall body to appear the fracture and have the poor problem of sealing performance.

Description

Production process of anti-settling aluminum alloy door and window

Technical Field

The invention relates to the technical field of aluminum alloy doors and windows, in particular to a production process of an anti-settling aluminum alloy door and window.

Background

An aluminum alloy door and window is a door and window made of aluminum alloy extruded sections as frames, stiles and sash materials, and is called an aluminum alloy door and window, and is called an aluminum door and window for short. The door and window comprises a wood and plastic composite door and window which takes aluminum alloy as a base material of a stress rod (a rod for bearing and transmitting self weight and load), and is called an aluminum-wood composite door and window and an aluminum-plastic composite door and window for short.

The anti-settling aluminum alloy door and window is provided with an anti-settling device in reference to Chinese patent publication No. CN107288485B, wherein the door and window body is provided with the anti-settling device in an inserted manner, the anti-settling device comprises a limiting plate, the limiting plate is internally designed with a cavity, a sliding plate is arranged on the limiting plate in a sliding limiting manner, limiting balls are uniformly welded on the sliding plate at equal intervals, one end of the limiting plate, which is far away from the sliding plate, is welded with a pull rod through a connecting ball, and the pull rod is symmetrically welded with a locking rod through a cross rod; adopt the mode of spacing ball and spacing groove to prevent subsiding in this scheme and be connected between device and the door and window body, can be because the wall body pouring construction can take place to subside in with later stage door and window body installation when installing door and window body, make spacing ball take place to warp in the inside of spacing groove easily, lead to aluminum alloy door and window comparatively difficult in the dismouting with preventing subsiding the device, and still can lead to the problem that wall body fracture and sealing performance are poor, for solving above problem, technical personnel in the field have provided a can prevent subsiding aluminum alloy door and window's production technology.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a production process of an anti-settling aluminum alloy door and window, which solves the problems that the anti-settling device and the door and window body are connected in a mode of adopting a limiting ball and a limiting groove in a comparison scheme, and the limiting ball is easy to deform in the limiting groove due to the fact that the anti-settling device and the door and window body settle in the later door and window body installation when the door and window body is installed, so that the aluminum alloy door and window are difficult to assemble and disassemble with the anti-settling device, and the wall is cracked and poor in sealing performance.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: a production process of an anti-settling aluminum alloy door and window comprises the following steps:

firstly, manufacturing and processing a door and window body and an anti-settling frame according to a process drawing;

secondly, processing aluminum alloy doors and windows by using drilling processing equipment, putting the door and window body into the discharging frame from the front side of the discharging frame, enabling two sides of the bottom surface of the door and window body to be in contact with the surface of the feeding roller, enabling the feeding roller to rotate in the rotating groove, completely feeding the door and window body into the discharging frame, starting the four electric push rod three working switches at the top of the discharging frame, enabling the four electric push rod three driving shafts to extend out, pushing the limiting frame two to move from the inside of the discharging frame to the top surface of the door and window body until the bottom surface of the limiting frame two is in contact with the top surface of the door and window body, then starting the two electric push rod two working switches of the displacement assembly, enabling the two electric push rod two driving shafts to drive the connecting block to slide in the frame, enabling the two movable frames to move to one side of the discharging frame, starting the electric push rod one working switches in the two movable frames, and enabling the limiting frame to move towards one side of the door and window body, the two limiting frames and a pair of door and window bodies are utilized to complete limiting treatment in the material placing frame;

step three, starting two servo electric cylinder working switches in the positioning assembly, resetting two servo electric cylinder driving shafts in the cylinder body, and driving one end of each driving shaft to drive the positioning frame to move to one side of the rack until the back surface of a positioning plate in the positioning frame is contacted with the front surface of the door and window body, so that the door and window body is positioned around the inside of the material placing frame;

fourthly, starting linear motor working switches inside the two movable frames, enabling the linear motors to slide on the linear tracks, adjusting the drilling positions of the drill bits relative to the door and window bodies, then controlling a driving shaft of the electric push rod II to drive the movable frames to be close to the discharging frame, simultaneously resetting a driving shaft of the electric push rod I inside the movable frames inside the cylinder body, starting servo motor working switches inside the fixed frames, driving the drill bits to rotate by the driving shaft of the servo motors, enabling the movable frames to be close to the discharging frame, and utilizing the drill bits to drill the door and window bodies inside the discharging frame;

and step five, synchronously drilling the two sides of the door and window body by using the drill bits in the two movable frames, finishing the drilling processing treatment of the door and window body, and fixedly connecting the two sides of the door and window body with the four anti-settling frames by using connecting bolts through threads to finish the processing production of the anti-settling aluminum alloy door and window.

Preferably, the anti-settling frame is symmetrically arranged at two sides of the door and window body, and the four anti-settling frames are fixedly connected with the inside of the door and window body through connecting bolts.

Preferably, the drilling processing equipment comprises a rack, a drilling mechanism, a discharging mechanism and a positioning assembly, wherein the drilling mechanism is arranged on each of two sides of the top of the rack, the discharging mechanism is arranged in the middle of the top of the rack, the positioning assembly is arranged on the front face of the rack, and displacement assemblies are arranged on two sides of the rack.

Preferably, drilling mechanism includes adjustable shelf, electric push rod one, spacing frame one, linear rail, linear electric motor, mount, servo motor, drill bit, the both sides at frame top all are provided with the adjustable shelf, and just two relative one sides of adjustable shelf all are provided with spacing frame one, the inside front and back of adjustable shelf is provided with two electric push rod one, and the one end of two electric push rod drive shafts all with one side fixed connection of spacing frame one, the activity groove has been seted up to the inside of adjustable shelf, and one side fixedly connected with linear rail of activity inslot wall, linear rail's surface is provided with linear electric motor, and one side fixedly connected with mount of linear electric motor, the inside fixedly connected with servo motor of mount, and the drill bit is installed through the connector to the one end of servo motor output shaft.

Preferably, a through hole is formed in the first limiting frame, and rubber cushion blocks are arranged in the front and at the back of the first limiting frame, which is close to one side of the discharging mechanism.

Preferably, the displacement assembly comprises a second electric push rod and a connecting block, the second electric push rod is fixedly connected to the upper portions of the two sides in the rack, the connecting block is fixedly connected to one end of a driving shaft of the second electric push rod, the top of the connecting block penetrates through the rack and extends to the upper portion of the rack, and the top of the connecting block is fixedly connected with the bottom of the movable frame.

Preferably, the discharging mechanism comprises a discharging frame, a feeding roller, a third electric push rod and a second limiting frame, the discharging frame is fixedly connected to the top of the rack, the third electric push rod and the fourth electric push rod are fixedly connected to the periphery of the top of the discharging frame, one end of the three driving shafts of the electric push rods all penetrate through the discharging frame and extend to the inside of the discharging frame, the second limiting frame is arranged inside the discharging frame, the periphery of the top of the second limiting frame respectively extends to one end of the inside of the discharging frame through the three driving shafts of the four electric push rods, a rotating groove is formed in the lower portion of the inside of the discharging frame, and the feeding roller is connected to the inside of the rotating groove in a rotating mode.

Preferably, locating component includes servo electric jar, locating rack, locating plate, spring, the equal fixedly connected with servo electric jar in both sides of the inside top of frame, and two servo electric jar drive shafts all run through the frame and extend to the front of frame, the front of frame is provided with the locating rack, and the both sides at the locating rack back extend to the positive one end fixed connection of frame with two servo electric jar drive shafts respectively, the inside of locating rack is provided with the locating plate, the inside below fixedly connected with a plurality of spring of locating rack, and the top of a plurality of spring all with the bottom fixed connection of locating plate.

Preferably, the working method of the drilling processing equipment is as follows:

the door and window body is placed into the discharging frame from the front side of the discharging frame, two sides of the bottom surface of the door and window body are contacted with the surface of the feeding roller, the feeding roller rotates in the rotating groove, the door and window body is completely fed into the discharging frame, the four electric push rod three-working switches at the top of the discharging frame are started, the four electric push rod three-driving shafts extend out, the second limiting frame is pushed to move towards the top surface of the door and window body from the inside of the discharging frame until the bottom surface of the second limiting frame is contacted with the top surface of the door and window body, then starting two electric push rod two working switches of the displacement assembly, wherein two electric push rod two driving shafts drive the connecting block to slide in the rack, so that the two movable frames move towards one side of the discharging frame;

starting two servo electric cylinder working switches in the positioning assembly, resetting two servo electric cylinder driving shafts in the cylinder body, and driving one end of each driving shaft to drive the positioning frame to move to one side of the rack until the back of a positioning plate in the positioning frame is contacted with the front of the door and window body, so that the door and window body is positioned around the inside of the material placing frame;

starting linear motor working switches inside the two movable frames, enabling the linear motors to slide on the linear tracks, adjusting the drilling positions of the drill bits relative to the door and window bodies, then controlling two driving shafts of the electric push rods to drive the movable frames to be close to the material discharging frame, simultaneously resetting a first driving shaft of the electric push rod inside the movable frames inside the cylinder body, starting the servo motor working switches inside the fixed frames, driving the drill bits to rotate by the aid of the driving shafts of the servo motors, enabling the movable frames to be close to the material discharging frame, and drilling the door and window bodies inside the material discharging frame by the aid of the drill bits;

the drill bits in the two movable frames synchronously drill the two sides of the door and window body to complete the drilling processing of the door and window body.

(III) advantageous effects

The invention provides a production process of an anti-settling aluminum alloy door and window. Compared with the prior art, the method has the following beneficial effects: the anti-settling frames are symmetrically arranged on two sides of the door and window body, the interiors of the four anti-settling frames are fixedly connected with the interior of the door and window body through the connecting bolts, the problem that the door and window body can settle due to wall pouring construction and later door and window body installation when the door and window body is installed is effectively solved by the four anti-settling frames, and compared with a comparison file, the anti-settling frame is connected between the door and window body and the anti-settling frames through the reinforced connecting bolts, so that the problem that the aluminum alloy door and window are difficult to assemble and disassemble with the anti-settling device due to the fact that the limiting ball is deformed in the limiting groove is avoided, the problem of anti-settling of the door and window is solved, and the problems that the wall body cracks and the sealing performance is poor can be effectively avoided;

the door and window body is positioned by using drilling processing equipment, four electric push rod three-working switches at the top of the material placing frame are started, four electric push rod three-driving shafts extend out to push a second limiting frame to move from the interior of the material placing frame to the top surface of the door and window body until the bottom surface of the second limiting frame is contacted with the top surface of the door and window body, then two electric push rod two-working switches of a displacement assembly are started, two electric push rod two-driving shafts drive a connecting block to slide in the frame, so that the two movable frames move to one side of the material placing frame, the electric push rod one-driving shafts push the limiting frames to move to one side of the door and window body, a pair of door and window bodies of the two limiting frames are used for completing limiting treatment in the interior of the material placing frame, the two movable frames at two sides of the material placing frame, and a servo motor and a drill bit which are arranged in the two movable frames are used, carry out the processing of driling in step to the both sides of door and window body, effectively improve aluminum alloy door and window's production machining efficiency to the drilling accuracy to aluminum alloy door and window both sides can obtain certain promotion, and then the convenience is to the door and window body and prevent the erection joint between the frame that sinks.

Drawings

FIG. 1 is a schematic view of the construction of the drilling apparatus of the present invention;

FIG. 2 is a top view of the frame and positioning assembly configuration of the present invention;

FIG. 3 is a top view of the internal structure of the drilling mechanism of the present invention;

FIG. 4 is a side view of a structure of the spacing frame of the present invention;

FIG. 5 is a side view of the internal structure of the discharge mechanism of the present invention;

FIG. 6 is a top view of the three structures of the discharging frame and the electric pushing rod of the present invention;

FIG. 7 is an enlarged view of the structure of FIG. 1 at A in accordance with the present invention;

FIG. 8 is an enlarged view of the structure of FIG. 1 at B in accordance with the present invention;

FIG. 9 is a schematic view of the door/window body and the anti-sinking frame structure of the present invention.

In the figure, 1, a drilling mechanism; 11. a movable frame; 12. an electric push rod I; 13. a first limiting frame; 14. a linear track; 15. a linear motor; 16. a fixed mount; 17. a servo motor; 18. a drill bit; 19. a movable groove; 2. a displacement assembly; 21. an electric push rod II; 22. connecting blocks; 3. a discharging mechanism; 31. a material placing frame; 32. a feed roller; 33. an electric push rod III; 34. a second limiting frame; 35. a rotating groove; 4. a positioning assembly; 41. a servo electric cylinder; 42. a positioning frame; 43. positioning a plate; 44. a spring; 5. a frame; 6. a door and window body; 7. prevent the frame that sinks.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-9, the present invention provides a technical solution: a production process of an anti-settling aluminum alloy door and window comprises the following steps:

firstly, a door and window body 6 and an anti-settling frame 7 are produced and processed according to a process drawing;

secondly, processing aluminum alloy doors and windows by using drilling processing equipment, putting the door and window body 6 into the discharging frame 31 from the front side of the discharging frame 31, enabling two sides of the bottom surface of the door and window body 6 to be in contact with the surface of the feeding roller 32, enabling the feeding roller 32 to rotate in the rotating groove 35, completely feeding the door and window body 6 into the discharging frame 31, starting four electric push rod three 33 working switches at the top of the discharging frame 31, enabling the driving shafts of the four electric push rod three 33 to extend out, pushing the limiting frame two 34 to displace from the inside of the discharging frame 31 to the top surface of the door and window body 6 until the bottom surface of the limiting frame two 34 is in contact with the top surface of the door and window body 6, then starting the two electric push rod two 21 working switches of the displacement assembly 2, enabling the two electric push rod two 21 driving shafts to drive the connecting block 22 to slide in the inside of the rack 5, enabling the two movable racks 11 to move to one side of the discharging frame 31, and starting the electric push rod one 12 working switches in the two movable racks 11, the first electric push rod 12 drives the first limiting frame 13 to move towards one side of the door and window body 6, and the door and window body 6 is limited in the material placing frame 31 by the first two limiting frames 13;

step three, starting the working switches of the two servo electric cylinders 41 in the positioning assembly 4, resetting the driving shafts of the two servo electric cylinders 41 in the cylinder body, and driving one end of the driving shaft to drive the positioning frame 42 to move towards one side of the rack 5 until the back of the positioning plate 43 in the positioning frame 42 is contacted with the front of the door and window body 6, so that the door and window body 6 is positioned around the inside of the material placing frame 31;

fourthly, starting working switches of linear motors 15 in the two movable frames 11, enabling the linear motors 15 to slide on the linear tracks 14, adjusting the positions of drill bits 18 corresponding to the drill holes in the door and window bodies 6, then controlling driving shafts of electric push rods two 21 to drive the movable frames 11 to be close to the discharging frame 31, enabling driving shafts of electric push rods one 12 in the movable frames 11 to reset in the cylinder body, starting working switches of servo motors 17 in the fixed frames 16, driving the drill bits 18 to rotate by the driving shafts of the servo motors 17, enabling the movable frames 11 to be close to the discharging frame 31, and drilling the door and window bodies 6 in the discharging frame 31 by the drill bits 18;

and step five, synchronously drilling the two sides of the door and window body 6 by the drill bits 18 in the two movable frames 11, finishing the drilling processing of the door and window body 6, and fixedly connecting the two sides of the door and window body 6 with the four anti-settling frames 7 by using connecting bolts in a threaded manner respectively to finish the processing production of the anti-settling aluminum alloy door and window.

The two sides of the anti-settling frame 7, which are located on the door and window body 6, are symmetrically provided with four, and the four interiors of the anti-settling frame 7 are fixedly connected with the interior of the door and window body 6 through connecting bolts.

The drilling processing equipment comprises a rack 5, a drilling mechanism 1, a discharging mechanism 3 and a positioning component 4, wherein the drilling mechanism 1 is arranged on each of two sides of the top of the rack 5, the discharging mechanism 3 is arranged in the middle of the top of the rack 5, the positioning component 4 is arranged on the front surface of the rack 5, the displacement components 2 are arranged on each of two sides of the rack 5, the drilling mechanism 1 comprises a movable frame 11, a first electric push rod 12, a first limiting frame 13, a linear track 14, a linear motor 15, a fixed frame 16, a servo motor 17 and a drill bit 18, the movable frames 11 are arranged on each of two sides of the top of the rack 5, one sides of the two movable frames 11 opposite to each other are provided with a first limiting frame 13, two first electric push rods 12 are arranged on the front and back of the inner part of the movable frame 11, one ends of driving shafts of the two first electric push rods 12 are fixedly connected with one side of the first limiting frame 13, a movable groove 19 is formed in the movable frame 11, a linear rail 14 is fixedly connected to one side of the inner wall of the movable groove 19, a linear motor 15 is arranged on the surface of the linear rail 14, a fixing frame 16 is fixedly connected to one side of the linear motor 15, a servo motor 17 is fixedly connected to the inside of the fixing frame 16, a drill bit 18 is mounted at one end of an output shaft of the servo motor 17 through a connector, a through hole is formed in the limiting frame 13, rubber cushion blocks are arranged at the front and rear parts of the limiting frame 13, which are close to one side of the discharging mechanism 3, the displacement assembly 2 comprises two electric push rods 21 and connecting blocks 22, the electric push rods 21 are fixedly connected to the upper parts of the two sides in the rack 5, one ends of driving shafts of the two electric push rods 21 are fixedly connected with the connecting blocks 22, the tops of the two connecting blocks 22 penetrate through the rack 5 and extend to the upper part of the rack 5, and the tops of the connecting blocks 22 are fixedly connected with the bottom of the movable frame 11, the discharging mechanism 3 comprises a discharging frame 31, a feeding roller 32, three electric push rods 33 and two limiting frames 34, the top of the rack 5 is fixedly connected with the discharging frame 31, the periphery of the top of the discharging frame 31 is fixedly connected with the three electric push rods 33, one ends of four driving shafts of the three electric push rods 33 penetrate through the discharging frame 31 and extend into the discharging frame 31, the two limiting frames 34 are arranged inside the discharging frame 31, the periphery of the top of the two limiting frames 34 is fixedly connected with one ends of the four driving shafts of the three electric push rods 33 extending into the discharging frame 31, a rotating groove 35 is formed below the inside of the discharging frame 31, the feeding roller 32 is rotatably connected inside the rotating groove 35, the positioning component 4 comprises a servo electric cylinder 41, a positioning frame 42, a positioning plate 43 and a spring 44, two servo electric cylinders 41 are fixedly connected to two sides above the inside of the rack 5, and the two driving shafts of the servo electric cylinders 41 penetrate through the rack 5 and extend to the front of the rack 5, the front of frame 5 is provided with locating rack 42, and the both sides at the locating rack 42 back extend to the positive one end fixed connection of frame 5 with two servo electric jar 41 drive shafts respectively, the inside of locating rack 42 is provided with locating plate 43, the inside below fixedly connected with a plurality of spring 44 of locating rack 42, and the top of a plurality of spring 44 all with the bottom fixed connection of locating plate 43.

The working method of the drilling machining equipment comprises the following steps:

the door and window body 6 is put into the discharging frame 31 from the front of the discharging frame 31, two sides of the bottom surface of the door and window body 6 are contacted with the surface of the feeding roller 32, the feeding roller 32 rotates in the rotating groove 35, the door and window body 6 is completely sent into the discharging frame 31, the four electric push rod three 33 working switches on the top of the discharging frame 31 are started, the four electric push rod three 33 driving shafts extend out, the limit frame two 34 is pushed to displace from the inside of the discharging frame 31 to the top surface of the door and window body 6 until the bottom surface of the limit frame two 34 is contacted with the top surface of the door and window body 6, then the two electric push rod two 21 working switches of the displacement assembly 2 are started, the two electric push rod two driving shafts 21 drive the connecting block 22 to slide in the frame 5, the two movable frames 11 move to one side of the discharging frame 31, the electric push rod one 12 working switches in the two movable frames 11 are started, the electric push rod one 12 driving shaft pushes the limit frame one 13 to move to one side of the door and window body 6, the door and window body 6 is limited in the material placing frame 31 by the two limiting frames I13;

starting the working switches of the two servo electric cylinders 41 in the positioning assembly 4, resetting the driving shafts of the two servo electric cylinders 41 in the cylinder body, and driving one end of the driving shaft to drive the positioning frame 42 to move towards one side of the rack 5 until the back of the positioning plate 43 in the positioning frame 42 is contacted with the front of the door and window body 6, so that the door and window body 6 is positioned around the inside of the material placing frame 31;

starting working switches of linear motors 15 in the two movable frames 11, enabling the linear motors 15 to slide on the linear tracks 14, adjusting the drilling positions of the drill bits 18 relative to the door and window bodies 6, then controlling driving shafts of electric push rods two 21 to drive the movable frames 11 to be close to the material discharging frame 31, enabling driving shafts of electric push rods one 12 in the movable frames 11 to reset in the cylinder body, starting working switches of servo motors 17 in the fixed frames 16, driving the drill bits 18 to rotate by the driving shafts of the servo motors 17, enabling the movable frames 11 to be close to the material discharging frame 31, and drilling the door and window bodies 6 in the material discharging frame 31 by the drill bits 18;

the drill bits 18 in the two movable frames 11 synchronously drill the two sides of the door and window body 6 to complete the drilling processing treatment of the door and window body 6

And those not described in detail in this specification are well within the skill of those in the art.

The working principle of the drilling processing equipment is that when the drilling processing equipment is used, a door and window body 6 is placed into a discharging frame 31 from the front side of the discharging frame 31, two sides of the bottom surface of the door and window body 6 are in contact with the surfaces of feeding rollers 32, the feeding rollers 32 rotate in a rotating groove 35 to completely feed the door and window body 6 into the discharging frame 31, four electric push rod three 33 working switches at the top of the discharging frame 31 are started, driving shafts of the four electric push rod three 33 extend out to push a limiting frame two 34 to move from the inside of the discharging frame 31 to the top surface of the door and window body 6 until the bottom surface of the limiting frame two 34 is in contact with the top surface of the door and window body 6, then two electric push rod two 21 working switches of a displacement assembly 2 are started, the driving shafts of the two electric push rod two 21 drive a connecting block 22 to slide in the inside of a rack 5, so that the two movable frames 11 move to one side of the discharging frame 31, and then the electric push rod one 12 working switches in the two movable frames 11 are started, the first electric push rod 12 drives the first limiting frame 13 to move towards one side of the door and window body 6, and the door and window body 6 is limited in the material placing frame 31 by the first two limiting frames 13;

starting the working switches of the two servo electric cylinders 41 in the positioning assembly 4, resetting the driving shafts of the two servo electric cylinders 41 in the cylinder body, and driving one end of the driving shaft to drive the positioning frame 42 to move towards one side of the rack 5 until the back of the positioning plate 43 in the positioning frame 42 is contacted with the front of the door and window body 6, so that the door and window body 6 is positioned around the inside of the material placing frame 31;

starting working switches of linear motors 15 in the two movable frames 11, enabling the linear motors 15 to slide on the linear tracks 14, adjusting the drilling positions of the drill bits 18 relative to the door and window bodies 6, then controlling driving shafts of electric push rods two 21 to drive the movable frames 11 to be close to the material discharging frame 31, enabling driving shafts of electric push rods one 12 in the movable frames 11 to reset in the cylinder body, starting working switches of servo motors 17 in the fixed frames 16, driving the drill bits 18 to rotate by the driving shafts of the servo motors 17, enabling the movable frames 11 to be close to the material discharging frame 31, and drilling the door and window bodies 6 in the material discharging frame 31 by the drill bits 18;

the drill bits 18 inside the two movable frames 11 synchronously drill holes on two sides of the door and window body 6, and drilling processing of the door and window body 6 is completed.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The production process of the anti-settling aluminum alloy door and window is characterized by comprising the following steps of: the method comprises the following steps:

step one, a door and window body (6) and an anti-settling frame (7) are produced and processed according to a process drawing;

secondly, processing aluminum alloy doors and windows by using drilling processing equipment, putting the door and window body (6) into the discharging frame (31) from the front side of the discharging frame (31), enabling two sides of the bottom surface of the door and window body (6) to be in contact with the surface of the feeding roller (32), enabling the feeding roller (32) to rotate in the rotating groove (35), completely sending the door and window body (6) into the discharging frame (31), starting working switches of four electric push rods III (33) at the top of the discharging frame (31), enabling driving shafts of the four electric push rods III (33) to extend out, pushing a limiting frame II (34) to displace from the inside of the discharging frame (31) to the top surface of the door and window body (6) until the bottom surface of the limiting frame II (34) is in contact with the top surface of the door and window body (6), then starting working switches of two electric push rods II (21) of the displacement assembly (2), and driving shafts of the two electric push rods II (21) to drive the connecting block (22) to slide in the rack (5), the two movable frames (11) move to one side of the material placing frame (31), the first electric push rods (12) in the two movable frames (11) are started to work and switch, the first electric push rods (12) drive shafts push the first limiting frames (13) to move to one side of the door and window body (6), and the first limiting frames (13) are utilized to limit the door and window body (6) in the material placing frame (31);

starting working switches of two servo electric cylinders (41) in the positioning assembly (4), resetting driving shafts of the two servo electric cylinders (41) in the cylinder body, and driving one ends of the driving shafts to drive the positioning frame (42) to move towards one side of the rack (5) until the back of a positioning plate (43) in the positioning frame (42) is contacted with the front of the door and window body (6), so that the door and window body (6) is positioned around the inside of the material placing frame (31);

fourthly, starting working switches of linear motors (15) in the two movable frames (11), enabling the linear motors (15) to slide on a linear track (14), adjusting the positions of drill bits (18) relative to drill holes in the door and window bodies (6), then controlling driving shafts of electric push rods II (21) to drive the movable frames (11) to be close to the discharging frame (31), enabling driving shafts of electric push rods I (12) in the movable frames (11) to reset in the cylinder body, starting working switches of servo motors (17) in the fixed frames (16), driving the drill bits (18) to rotate by using the driving shafts of the servo motors (17), enabling the movable frames (11) to be close to the discharging frame (31), and drilling the door and window bodies (6) in the discharging frame (31) by using the drill bits (18);

and step five, synchronously drilling the two sides of the door and window body (6) by using the drill bits (18) inside the two movable frames (11), finishing the drilling processing treatment of the door and window body (6), and fixedly connecting the two sides of the door and window body (6) with the four anti-settling frames (7) by using connecting bolts through threads to finish the processing production of the anti-settling aluminum alloy door and window.

2. The production process of the anti-settling aluminum alloy door and window according to claim 1, characterized in that: the two sides of the anti-settling frames (7) located on the door and window bodies (6) are symmetrically provided with four, and the interiors of the four anti-settling frames (7) are fixedly connected with the interiors of the door and window bodies (6) through connecting bolts.

3. The production process of the anti-settling aluminum alloy door and window according to claim 1, characterized in that: drilling processing equipment includes frame (5), drilling mechanism (1), drop feed mechanism (3), locating component (4), the both sides at frame (5) top all are provided with drilling mechanism (1), and the middle part at frame (5) top is provided with drop feed mechanism (3), the front of frame (5) is provided with locating component (4), the both sides of frame (5) all are provided with displacement subassembly (2).

4. The production process of the anti-settling aluminum alloy door and window according to claim 3, characterized in that: the drilling mechanism (1) comprises a movable frame (11), electric push rods (12), a limiting frame (13), a linear track (14), a linear motor (15), a fixing frame (16), a servo motor (17) and a drill bit (18), wherein the movable frame (11) is arranged on each of two sides of the top of the rack (5), the limiting frame (13) is arranged on one side, opposite to the two movable frames (11), of each movable frame (11), two electric push rods (12) are arranged on the front side and the rear side of the inside of each movable frame (11), one ends of driving shafts of the two electric push rods (12) are fixedly connected with one side of each limiting frame (13), a movable groove (19) is formed in each movable frame (11), the linear track (14) is fixedly connected to one side of the inner wall of the movable groove (19), the linear motor (15) is arranged on the surface of each linear track (14), and the fixing frame (16) is fixedly connected to one side of the linear motor (15), the inside fixedly connected with servo motor (17) of mount (16), and drill bit (18) are installed through the connector to the one end of servo motor (17) output shaft.

5. The production process of the anti-settling aluminum alloy door and window according to claim 4, characterized in that: through holes are formed in the first limiting frame (13), and rubber cushion blocks are arranged at the front and rear parts of the first limiting frame (13) close to one side of the discharging mechanism (3).

6. The production process of the anti-settling aluminum alloy door and window according to claim 3, characterized in that: the displacement assembly (2) comprises two electric push rods (21) and a connecting block (22), wherein the two electric push rods (21) are fixedly connected to the upper portions of the two sides inside the rack (5), the connecting block (22) is fixedly connected to one end of each of the two electric push rods (21) and the driving shaft, the top of the connecting block (22) penetrates through the rack (5) and extends to the upper portion of the rack (5), and the top of the connecting block (22) is fixedly connected with the bottom of the movable frame (11).

7. The production process of the anti-settling aluminum alloy door and window according to claim 3, characterized in that: drop feed mechanism (3) are including blowing frame (31), feed roller (32), three (33) of electric push rod, spacing frame two (34), the top fixedly connected with blowing frame (31) of frame (5), and all fixedly connected with electric push rod three (33) all around at blowing frame (31) top, four the one end of three (33) drive shafts of electric push rod all runs through blowing frame (31) and extends to the inside of blowing frame (31), the inside of blowing frame (31) is provided with spacing frame two (34), and extends to the inside one end fixed connection of blowing frame (31) with three (33) drive shafts of four electric push rods respectively all around at spacing frame two (34) top, rotation groove (35) have been seted up to the inside below of blowing frame (31), and the inside rotation of rotation groove (35) is connected with feed roller (32).

8. The production process of the anti-settling aluminum alloy door and window according to claim 3, characterized in that: locating component (4) include servo electric jar (41), locating rack (42), locating plate (43), spring (44), the equal fixedly connected with servo electric jar (41) in both sides of the inside top of frame (5), and two servo electric jar (41) drive shafts all run through frame (5) and extend to the front of frame (5), the front of frame (5) is provided with locating rack (42), and the both sides at the back of locating rack (42) extend to the positive one end fixed connection of frame (5) with two servo electric jar (41) drive shafts respectively, the inside of locating rack (42) is provided with locating plate (43), the inside below fixedly connected with a plurality of spring (44) of locating rack (42), and the top of a plurality of spring (44) all with the bottom fixed connection of locating plate (43).

9. The production process of the anti-settling aluminum alloy door and window according to claim 1, characterized in that: the working method of the drilling machining equipment comprises the following steps:

the door and window body (6) is placed into the discharging frame (31) from the front side of the discharging frame (31), two sides of the bottom surface of the door and window body (6) are in contact with the surfaces of the feeding rollers (32), the feeding rollers (32) rotate inside the rotating grooves (35), the door and window body (6) is completely sent into the discharging frame (31), four electric push rod three (33) working switches at the top of the discharging frame (31) are started, driving shafts of the four electric push rod three (33) extend out to push the limiting frame two (34) to move towards the top surface of the door and window body (6) from the inside of the discharging frame (31) until the bottom surface of the limiting frame two (34) is in contact with the top surface of the door and window body (6), then two electric push rod two (21) working switches of the displacement assembly (2) are started, the driving shafts of the two electric push rod two (21) drive the connecting block (22) to slide in the inside of the rack (5), so that the two movable frames (11) move towards one side of the discharging frame (31), starting working switches of first electric push rods (12) in the two movable frames (11), driving shafts of the first electric push rods (12) push first limiting frames (13) to move towards one side of the door and window body (6), and limiting the door and window body (6) in the material placing frame (31) by using the first limiting frames (13);

starting working switches of two servo electric cylinders (41) in the positioning assembly (4), resetting driving shafts of the two servo electric cylinders (41) in the cylinder body, and driving one ends of the driving shafts to drive the positioning frame (42) to move towards one side of the rack (5) until the back of a positioning plate (43) in the positioning frame (42) is contacted with the front of the door and window body (6), so that the door and window body (6) is positioned around the inside of the material placing frame (31);

starting working switches of linear motors (15) in two movable frames (11), enabling the linear motors (15) to slide on linear rails (14), adjusting drill bits (18) to be in positions relative to drill holes in door and window bodies (6), then controlling driving shafts of electric push rods II (21) to drive the movable frames (11) to be close to a material discharging frame (31), enabling driving shafts of electric push rods I (12) in the movable frames (11) to reset in a cylinder body, starting working switches of servo motors (17) in fixed frames (16), driving the drill bits (18) to rotate by using the driving shafts of the servo motors (17), enabling the movable frames (11) to be close to the material discharging frame (31), and drilling the door and window bodies (6) in the material discharging frame (31) by using the drill bits (18);

the drill bits (18) in the two movable frames (11) synchronously drill the two sides of the door and window body (6) to complete the drilling processing of the door and window body (6).

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