CN111618803B - Window frame production device and production method of window - Google Patents

Abstract

The invention relates to a window frame production device and a production method thereof for a window, which comprise a rack, an operating platform arranged on the rack, four bearing plates arranged on the operating platform and used for placing frame rods forming a window frame, and a locking mechanism arranged on the bearing plates and used for clamping and fixing the frame rods; the bearing plates can slide on the operating platform, the four bearing plates are respectively positioned at four ends of the operating platform, two bearing plates positioned in the same direction of the operating platform are set as first bearing plates, and the other two bearing plates are set as second bearing plates; a first driving mechanism for driving the two first bearing plates to move oppositely is arranged between the two first bearing plates; and a second driving mechanism for driving the two second bearing plates to oppositely move is arranged between the two second bearing plates. It is convenient for splice the window frame to carry out the centre gripping to four frame poles that constitute the window frame and fix, improve the production efficiency to the window frame, reduce workman's intensity of labour.

Description

Window frame production device and production method of window

Technical Field

The invention relates to the technical field of window production and manufacturing, in particular to a window frame production device and a production method thereof.

Background

At present, most window frames of windows are rectangular frames made of plastic steel or bridge-cut aluminum, and the window frame has the advantages of high strength, good sealing performance and the like. Referring to fig. 1, the window frame generally comprises four frame rods 11 made of plastic steel or bridge-cut aluminum, the four frame rods 11 are connected end to form a rectangular frame, and two ends of each frame rod 11 are respectively provided with a 45 ° chamfer, so that two adjacent frame rods form a 90 ° included angle after being connected.

In addition, referring to fig. 2, the splicing positions of two adjacent frame rods 11 are provided with corner connectors 12, the corner connectors 12 are arranged in an L shape, and two ends of the corner connectors 12 extend into the two frame rods 11 respectively and then are connected with the frame rods 11 by bolts, so that the two adjacent frame rods 11 are connected together stably.

In the prior art, when a worker splices a window frame, the worker can usually connect two frame rods and corner connectors in sequence and then use bolts to connect the frame rods and the corner connectors, the window frame is spliced by using the method, multiple persons are often required to cooperate together, the efficiency is low, the stability of the frame rods during splicing cannot be guaranteed, and the production efficiency of the window frame is influenced.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a window frame production device which is convenient for splicing a window frame and clamping and fixing four frame rods forming the window frame, so that the production efficiency of the window frame is improved, and the labor intensity of workers is reduced.

The above object of the present invention is achieved by the following technical solutions:

a window frame production device of a window comprises a rack, an operating platform arranged on the rack, four bearing plates arranged on the operating platform and used for placing frame rods forming a window frame, and a locking mechanism arranged on the bearing plates and used for clamping and fixing the frame rods;

the bearing plates can slide on the operating platform, the four bearing plates are respectively positioned at four ends of the operating platform, two bearing plates positioned in the same direction of the operating platform are set as first bearing plates, and the other two bearing plates are set as second bearing plates;

a first driving mechanism for driving the two first bearing plates to move oppositely is arranged between the two first bearing plates;

and a second driving mechanism for driving the two second bearing plates to oppositely move is arranged between the two second bearing plates.

By adopting the technical scheme, when a worker splices the window frame, the four frame rods are respectively placed on the four bearing plates, so that the four frame rods correspond to one another one by one, and the locking mechanism is used for clamping the frame rods on the bearing plates; and finally, after the angle codes are connected with the frame rods by using bolts, sealant is smeared at the joints of two adjacent frame rods, and the production and manufacturing of the window can be finished. The window frame is in the concatenation in-process, receives locking mechanism centre gripping stable, improves the stability of window frame concatenation in-process to the concatenation process is simple convenient, has improved the production efficiency to the window frame, reduces workman's intensity of labour.

The invention in a preferred example may be further configured to: the loading plate is characterized in that a sliding rail is arranged between the loading plate and the operating platform, the sliding rail is perpendicular to a frame rod on which the loading plate is to be placed, and the loading plate is clamped on the sliding rail to slide.

Through adopting above-mentioned technical scheme, under the effect of slide rail, make the loading board with can slide on operation platform to frictional force when the loading board removes is less, and is more smooth and easy when making the loading board slide.

The present invention in a preferred example may be further configured to: limiting plates are respectively arranged at two ends of the sliding rail, and the bearing plate is located between the two limiting plates.

Through adopting above-mentioned technical scheme, the limiting plate can prevent that the loading board from deviating from the slide rail.

The invention in a preferred example may be further configured to: the locking mechanism comprises a top plate arranged above the bearing plate, a connecting plate arranged between the top plate and the bearing plate and a screw rod connected to the top plate in a threaded manner;

one end of the screw rod is located between the top plate and the bearing plate and is provided with a pressure head, and one end, far away from the pressure head, of the screw rod is provided with a handle.

Through adopting above-mentioned technical scheme, place the frame pole back on the loading board, use the handle to rotate the screw rod, make the screw rod drive the pressure head and move down, make the pressure head compress tightly the frame pole downwards, make the frame pole stable as to on the loading board through the packing force to the use is simple and convenient, is applicable to not unidimensional frame pole.

The present invention in a preferred example may be further configured to: the first driving mechanism comprises a main shaft arranged on the bottom surface of the operating platform, a rotating rod rotatably connected to the main shaft, two connecting rods respectively hinged to two ends of the rotating rod, a first transmission rod hinged to one end of the connecting rod far away from the rotating rod and a first air cylinder arranged on the bottom surface of the operating platform;

the rotating rod is arranged along the radial direction of the main shaft, and the main shaft is positioned in the middle of the rotating rod in the length direction;

the two connecting rods are equal in length and parallel to each other, one end of the first transmission rod, which is far away from the connecting rods, penetrates through the operating platform and is fixedly connected with the corresponding first bearing plate, and the first transmission rod can move on the operating platform;

a first driving rod capable of driving the first bearing plate to move is arranged between the piston rod of the first cylinder and one of the first bearing plates.

Through adopting above-mentioned technical scheme, when the piston rod of first cylinder stretches out or withdraws in its cylinder body, can drive the first loading board rather than being connected through first actuating lever and move on operation platform, the first transfer line of being connected with this first loading board also can move thereupon, thereby drive the dwang through the connecting rod of being connected with this first transfer line and rotate along the axis of main shaft, can drive another connecting rod and move when the dwang rotates, because two connecting rods are parallel to each other, so the displacement distance and the position of two connecting rods are all symmetrical, and then make two first transfer lines and two first loading boards relative sliding on operation platform. .

The invention in a preferred example may be further configured to: the second driving mechanism comprises a gear, two racks, a second transmission rod and a second air cylinder, wherein the gear is sleeved on the main shaft and is rotationally connected with the main shaft, the two racks are respectively positioned at two sides of the gear, which are close to the two first bearing plates, the second transmission rod is fixedly arranged between the racks and the second bearing plates, and the second air cylinder is arranged on the rack;

the gear is meshed with the two racks at the same time, the racks can slide on the rack in the direction far away from or close to the second bearing plate, and the second transmission rod penetrates through the operating platform and can move along with the racks;

and a second driving rod capable of driving the second bearing plate to move is arranged between the piston rod of the second cylinder and one of the second bearing plates.

By adopting the technical scheme, when the piston rod of the second cylinder extends out of or retracts into the cylinder body of the second cylinder, the second driving rod connected with the second cylinder and the second bearing plate can be driven to slide on the operating platform, the second driving rod can also drive the rack connected with the second cylinder to move on the rack, and the rack can drive the gear to rotate when moving, so that the other rack is driven to move in the opposite direction, and then the two second driving rods and the two second bearing plates move relatively on the operating platform. .

The present invention in a preferred example may be further configured to: the bearing plate is provided with positioning scales used for aligning the two opposite frame rods.

By adopting the technical scheme, a worker can mark and line the middle part of the side frame rod along the length direction of the side frame rod and then place the side frame rod on the bearing plate, and the mark position of the side frame rod is aligned with the positioning scale, so that two corresponding side frame rods are aligned conveniently.

The invention also aims to provide a window frame production method, in the production process of the window frame, four frame rods forming the window frame are kept stable in the splicing process without being supported by workers, and the production efficiency of the window frame is improved.

The above object of the present invention is achieved by the following technical solutions:

a production method of a window outer frame comprises the window frame production device, and the splicing steps are as follows:

s1, blanking four frame rods according to the required window size, and cutting two ends of each frame rod into 45-degree chamfers;

s2, placing the corresponding frame rod on the corresponding bearing plate, locking and clamping the frame rod on the bearing plate by using a locking mechanism, and mounting corner connectors at two ends of the frame rod on the first bearing plate;

s3, starting a second driving mechanism to enable the two second bearing plates to move oppositely, and enabling the two ends of the frame rod on the second bearing plates to be aligned to the corner connectors on the two sides;

s4, starting a second driving mechanism to enable the two first bearing plates to move oppositely until the corner brace enters the upper frame rods of the second bearing plate, and enabling the four frame rods to be connected end to form a window frame;

and S5, connecting the corner connectors with the frame rods by using bolts, smearing sealing elements at the joints of the two adjacent frame rods, opening the locking mechanism after the sealing elements are dried, and taking down the spliced window frame to finish the production work of the window frame.

Through adopting above-mentioned technical scheme, make the window frame at the concatenation in-process, the frame pole receives locking mechanism's effect centre gripping stable, is difficult for appearing rocking etc. at the concatenation in-process, and the sealed gluey smearing of the corner sign indicating number and the connection of frame pole and two adjacent frame pole junctions of being convenient for improves the efficiency of window frame production to reduce workman's intensity of labour.

In summary, the present invention includes at least one of the following beneficial effects:

1. the four frame rods are driven to move and are spliced into the window frame through the mutual movement of the four bearing plates, so that the positioning and clamping effects on the frame rods are realized, the stability of the frame rods during splicing is ensured, the production efficiency of the window frame is improved, and the labor intensity of workers is reduced;

2. the movement of the four bearing plates drives the four bearing plates to move under the control of the first air cylinder and the second air cylinder, so that the control mode is simple and convenient, and the manufacturing cost is low;

3. the bearing plate is provided with the positioning scales, a worker can mark and mark on the frame rods and then place the frame rods on the bearing plate, and the marking lines are aligned with the positioning scales, so that the frame rods on two sides are aligned, and the positioning accuracy of the frame rods is improved.

Drawings

FIG. 1 is a schematic view of a prior art window frame construction;

FIG. 2 is a schematic view of a partial explosion of the window frame structure;

FIG. 3 is a schematic structural view of a window frame producing apparatus in the present embodiment;

FIG. 4 is a bottom view of the bottom of the operation platform;

FIG. 5 is a schematic view of a window frame production apparatus for splicing a window frame;

fig. 6 is an enlarged view of a portion a in fig. 3.

In the figure, 11, a frame rod; 12. carrying out corner connection; 2. a frame; 21. an operating platform; 3. a carrier plate; 31. a first bearing plate; 32. a second carrier plate; 4. a locking mechanism; 41. a top plate; 42. a connecting plate; 43. a screw; 44. a pressure head; 45. a handle; 5. a slide rail; 51. a limiting plate; 6. a first drive mechanism; 61. a main shaft; 62. rotating the rod; 63. a connecting rod; 64. a first drive lever; 65. a first cylinder; 66. a first drive lever; 7. a second drive mechanism; 71. a gear; 72. a rack; 73. a fixed block; 74. a second transmission rod; 75. a second cylinder; 76. a second drive lever; 8. and (5) positioning scales.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 3, the window frame production device disclosed by the invention comprises a rack 2, wherein an operating platform 21 is fixedly arranged at the top end of the rack 2, the operating platform 21 is arranged in a horizontally placed rectangular plate, four bearing plates 3 are arranged above the top surface of the operating platform 21, the four bearing plates 3 are respectively positioned at four ends of the operating platform 21, and the four bearing plates 3 are respectively used for placing four frame rods 11 forming a window frame.

Referring to fig. 3, a plurality of locking mechanisms 4 are arranged on the bearing plate 3, the plurality of locking mechanisms 4 are distributed at intervals along the length direction of the frame rod 11, and the frame rod 11 can be clamped and fixed on the bearing plate 3 through the plurality of locking mechanisms 4 after the frame rod 11 is placed on the bearing plate 3.

Referring to fig. 3, two slide rails 5 are disposed between each bearing plate 3 and the operating platform 21, the slide rails 5 are disposed along a direction perpendicular to the bearing plate 3, the two slide rails 5 are disposed along a length direction of the bearing plate 3, and the bottom surface of the bearing plate 3 is connected to the slide rails 5 in a clamping manner and is slidably connected with the slide rails. And the two ends of each slide rail 5 are fixedly provided with a limiting plate 51, so that the bearing plate 3 slides between the two limiting plates 51, and the bearing plate 3 is prevented from being separated from the slide rails 5.

Referring to fig. 3, the bearing plates 3 at two ends of the operating platform 21 in the length direction are set as first bearing plates 31, the bearing plates 3 at two ends of the operating platform 21 in the width direction are set as second bearing plates 32, the two first bearing plates 31 are used for placing two frame rods 11 at two ends of the window frame in the length direction, and the two second bearing plates 32 are used for placing two frame rods 11 at two ends of the window frame in the width direction.

Referring to fig. 3 and 4, a first driving mechanism 6 and a second driving mechanism 7 are disposed on the frame 2 below the operation platform 21, the first driving mechanism 6 is configured to drive the two first bearing plates 31 to simultaneously move in opposite directions along the length direction of the operation platform 21, and the second driving mechanism 7 is configured to drive the two second bearing plates 32 to simultaneously move in opposite directions along the width direction of the operation platform 21.

Referring to fig. 5, when a worker splices a window frame, the worker places two frame rods 11 forming two ends of the window frame in the length direction on two first bearing plates 31, places two frame rods 11 forming two ends of the window frame in the width direction on a second bearing plate 32, locks the frame rods 11 on the bearing plates 3 by using a locking mechanism 4, and then installs two corner connectors 12 at two ends of the two frame rods 11 having a shorter length; then, firstly, starting the second driving mechanism 7, enabling the second driving mechanism 7 to drive the two second bearing plates 32 to move towards the center of the operating platform 21 until the frame rods 11 on the second bearing plates 32 are aligned with the corner connectors 12, and then, starting the first driving mechanism 6, enabling the two first bearing plates 31 to move in opposite directions until the corner connectors 12 are inserted into the frame rods 11 on the second bearing plates 32, and enabling the four frame rods 11 to be connected end to form a window frame; and finally, connecting the corner connectors 12 with the frame rods 11 by using bolts, and smearing sealant on the positions of the two adjacent frame rods 11 to finish the processing of the window frame.

Referring to fig. 3, in addition, the middle part of the bottom plate along the length direction is provided with a positioning scale 8, and before a worker places the frame rod 11 on the bearing plate 3, the middle part of the frame rod 11 in the length direction can be marked and marked, so that the marked part of the frame rod 11 is aligned with the positioning scale 8 on the bearing plate 3, the frame rods 11 on the two sides are aligned conveniently, and the positioning accuracy in splicing the window frame is improved.

Referring to fig. 6, the locking mechanism 4 includes a top plate 41, the top plate 41 is located above the bearing plate 3 and is parallel to the bearing plate, a connecting plate 42 is disposed between the top plate 41 and the bearing plate 3, the connecting plate 42 is disposed along a vertical direction, and the top plate 41 is fixedly disposed above the bearing plate 3 through the connecting plate 42. Threaded connection has screw rod 43 on roof 41, and screw rod 43 sets up along operation platform 21's direction of height, and the bottom of screw rod 43 is located between loading board 3 and roof 41 and the swivelling joint has pressure head 44, and the top of screw rod 43 sets firmly handle 45.

After the frame rod 11 is placed on the bearing plate 3, the screw 43 is rotated by the handle 45, so that the screw 43 drives the pressing head 44 to press the frame rod 11 downwards, and the frame rod 11 can be fixed on the bearing plate 3.

Referring to fig. 4, the first driving mechanism 6 includes a main shaft 61 fixed to the bottom surface of the operation platform 21, the main shaft 61 is disposed along the height direction of the frame 2, and the main shaft 61 is located at the center of the operation platform 21. The main shaft 61 is fitted with a rotation lever 62, the rotation lever 62 is provided along the radial direction of the main shaft 61, and the main shaft 61 is located at the middle of the rotation lever 62 in the longitudinal direction. The two ends of the rotating rod 62 are respectively hinged with a connecting rod 63, the two connecting rods 63 are identical in length and are parallel to each other, one end, away from the rotating rod 62, of the connecting rod 63 is hinged with a first driving rod 64, the top end of the first driving rod 64 penetrates through the operating platform 21 and is fixedly connected with the first bearing plate 31, and the first driving rod 64 can move along the length direction of the operating platform 21.

Referring to fig. 4, the first driving mechanism 6 further includes a first cylinder 65, the first cylinder 65 is disposed along the length direction of the operation platform 21, a first driving rod 66 is fixedly disposed between a piston rod of the first cylinder 65 and one of the first bearing plates 31, and the first driving rod 66 penetrates through the operation platform 21 and is slidably connected to the operation platform, so that the first cylinder 65 can drive the first bearing plate 31 to move along the length direction of the operation platform 21 through the first driving rod 66.

When the piston rod of the first cylinder 65 extends out of or retracts into the cylinder body of the first cylinder, the first bearing plate 31 connected with the first cylinder is driven to move along the length direction of the operating platform 21, the first transmission rod 64 connected with the first bearing plate 31 also moves along with the first bearing plate, so that the connecting rod 63 connected with the first transmission rod 64 drives the rotating rod 62 to rotate along the axis of the main shaft 61, the rotating rod 62 drives the other connecting rod 63 to move when rotating, and because the two connecting rods 63 are parallel to each other, the moving distance and the positions of the two connecting rods 63 are symmetrical, and the two first transmission rods 64 and the two first bearing plates 31 slide relatively along the length direction of the operating platform 21.

In addition, when the sum of the lengths of the two connecting rods 63 and the length of the rotating rod 62 is greater than the length of the maximum distance between the two first loading plates 31, that is, the distance between the two first loading plates 31 is at the maximum, the connecting rods 63 and the rotating rod 62 are not located on the same straight line, so that the dead point formed between the two connecting rods 63 and the rotating rod 62 is prevented from affecting the operation of the first driving device.

Referring to fig. 4, the second driving mechanism 7 includes a gear 71, the gear 71 is located below the rotating rod 62, and the gear 71 is sleeved on the main shaft 61 and is connected with the main shaft in a rotating manner. The gear 71 is provided with two racks 72 on two sides of the operation platform 21 in the length direction, that is, the number of the racks 72 is two, the racks 72 are arranged along the width direction of the operation platform 21, and the gear 71 is engaged with the two racks 72 at the same time.

Referring to fig. 3 and 4, two fixing blocks 73 are fixedly arranged on the frame 2, the fixing blocks 73 are arranged along the length direction of the rack 72, the two fixing blocks 73 correspond to the two racks 72 one by one, a groove matched with the rack 72 is formed in each fixing block 73, and the rack 72 slides in the groove, so that the rack 72 can slide along the width direction of the operating platform 21.

Referring to fig. 4, the bottom surface of the second bearing plate 32 is fixedly provided with second transmission rods 74, the two second transmission rods 74 correspond to the two racks 72 one by one, one end of the second transmission rod 74 far away from the second bearing plate 32 penetrates through the operation platform 21 and is fixedly connected with the racks 72, and the second transmission rod 74 can move on the operation platform 21 along the width direction thereof.

Referring to fig. 4, the second driving mechanism 7 further includes a second cylinder 75 installed on the frame 2, the second cylinder 75 is disposed along the width direction of the operation platform 21, a second driving rod 76 is fixedly disposed between a piston rod of the second cylinder 75 and one of the second bearing plates 32, and the second driving rod 76 penetrates through the operation platform 21, so that the second driving rod 76 can move along the width direction of the operation platform 21.

When the piston rod of the second cylinder 75 extends out of or retracts into the cylinder body, the second driving rod 76 and the second bearing plate 32 connected thereto are driven to slide along the width direction of the operating platform 21, the second driving rod 76 also drives the rack 72 connected thereto to move, and the rack 72 drives the gear 71 to rotate when moving, so as to drive the other rack 72 to move in the direction opposite to that of the other rack, and further, the two second driving rods 76 and the two second bearing plates 32 move relatively along the width direction of the operating platform 21.

A window frame production method comprises the window production device, and the splicing steps are as follows:

s1, blanking four side frame rods 11 forming a window frame according to the size of a window, cutting two ends of each side frame rod 11 into 45-degree chamfers, and marking and scribing middle positions of the side frame rods 11;

s2, respectively placing four frame rods 11 on four bearing plates 3, wherein the two frame rods 11 forming the two ends of the window frame in the length direction are respectively placed on two first bearing plates 31, the two frame rods 11 forming the two ends of the window frame in the length direction are respectively placed on two second bearing plates 32, marking lines on the frame rods 11 are aligned with positioning scales 8 on the bearing plates 3, then rotating a screw 43 through a handle 45, enabling a pressure head 44 to downwards press the frame rods 11, and fixing the frame rods 11 on the bearing plates 3;

s3, dividing the four corner connectors 12 into two groups, installing the two corner connectors 12 of each group at two ends of a short-length frame rod 11, and connecting the corner connectors 12 with the frame rod 11 by using bolts;

s4, starting the second driving mechanism 7 to enable the second driving cylinder to drive the two second bearing plates 32 to move towards one side of the center of the operating platform 21 until the frame rods 11 on the second bearing plates 32 are aligned with the corner connectors 12;

s5, starting the first driving mechanism 6 to enable the first driving cylinder to drive the two first bearing plates 31 to move towards one side of the center of the operating platform 21, and enabling the corner connectors 12 to be inserted into the frame rods 11 on the second bearing plates 32, so that the four frame rods 11 are spliced into a rectangular window frame;

s6, connecting the corner connectors 12 with the frame rods 11 on the second bearing plate 32 through bolts, bonding and sealing the joints of the two adjacent frame rods 11 through sealing pieces, loosening the screw 43 after the sealing pieces are dried, taking down the window frame, and completing the splicing production of the window frame.

The window frame is produced through the production device and the production method of the window frame, the splicing process of the window frame is simple and convenient, the positioning precision of the window frame in splicing is high, the stability of the frame rod 11 in splicing is improved, and the production efficiency of the window frame is improved.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims (6)

1. A window frame production device of window, includes frame (2) and sets up operation platform (21) on frame (2), its characterized in that: the window frame is characterized by further comprising four bearing plates (3) which are arranged on the operating platform (21) and used for placing the frame rods (11) forming the window frame, and locking mechanisms (4) which are arranged on the bearing plates (3) and used for clamping and fixing the frame rods (11);

the bearing plates (3) can slide on the operating platform (21), the four bearing plates (3) are respectively positioned at four ends of the operating platform (21), two bearing plates (3) positioned in the same direction of the operating platform (21) are set as a first bearing plate (31), and the other two bearing plates (3) are set as a second bearing plate (32);

a first driving mechanism (6) for driving the two first bearing plates (31) to move oppositely is arranged between the two first bearing plates (31); the first driving mechanism (6) comprises a main shaft (61) arranged on the bottom surface of the operating platform (21), a rotating rod (62) rotatably connected to the main shaft (61), two connecting rods (63) respectively hinged to two ends of the rotating rod (62), a first driving rod (64) hinged to one end, far away from the rotating rod (62), of the connecting rod (63), and a first air cylinder (65) arranged on the bottom surface of the operating platform (21); the rotating rod (62) is arranged along the radial direction of the main shaft (61), and the main shaft (61) is positioned in the middle of the rotating rod (62) in the length direction; the two connecting rods (63) are equal in length and are parallel to each other, one end, far away from the connecting rods (63), of the first transmission rod (64) penetrates through the operating platform (21) to be fixedly connected with the corresponding first bearing plate (31), and the first transmission rod (64) can move on the operating platform (21); a first driving rod (66) which can drive the first bearing plate (31) to move is arranged between the piston rod of the first air cylinder (65) and one of the first bearing plates (31);

a second driving mechanism (7) for driving the two second bearing plates (32) to move oppositely is arranged between the two second bearing plates (32); the second driving mechanism (7) comprises a gear (71) which is sleeved on the main shaft (61) and is in rotary connection with the main shaft, two racks (72) which are respectively positioned on the gear (71) and close to two sides of the two first bearing plates (31), a second transmission rod (74) which is fixedly arranged between the racks (72) and the second bearing plates (32), and a second cylinder (75) which is arranged on the rack (2); the gear (71) is meshed with the two racks (72) at the same time, the racks (72) can slide on the rack (2) in the direction away from or close to the second bearing plate (32), and the second transmission rod (74) penetrates through the operating platform (21) and can move along with the racks (72);

and a second driving rod (76) which can drive the second bearing plate (32) to move is arranged between the piston rod of the second cylinder (75) and one of the second bearing plates (32).

2. The apparatus for producing a window frame of a window according to claim 1, wherein: slide rail (5) are arranged between bearing plate (3) and operating platform (21), slide rail (5) and frame pole (11) that bearing plate (3) will be placed set up perpendicularly, bearing plate (3) joint slides on slide rail (5).

3. The apparatus for manufacturing a window frame of a window according to claim 2, wherein: limiting plates (51) are respectively arranged at two ends of the sliding rail (5), and the bearing plate (3) is located between the two limiting plates (51).

4. The apparatus for manufacturing a window frame of a window according to claim 1, wherein: the locking mechanism (4) comprises a top plate (41) arranged above the bearing plate (3), a connecting plate (42) arranged between the top plate (41) and the bearing plate (3) and a screw rod (43) in threaded connection with the top plate (41);

one end of the screw rod (43) is located between the top plate (41) and the bearing plate (3) and is provided with a pressure head (44), and one end, far away from the pressure head (44), of the screw rod (43) is provided with a handle (45).

5. The apparatus for producing a window frame of a window according to any one of claims 1 to 4, wherein: the bearing plate (3) is provided with positioning scales for aligning the two opposite frame rods (11).

6. A method for producing a window frame of a window is characterized in that: an apparatus for producing a window frame comprising a window according to any one of claims 1 to 5, comprising the steps of:

s1, blanking four frame rods (11) according to the size of a window required, and cutting two ends of each frame rod (11) into 45-degree chamfers;

s2, placing the corresponding frame rod (11) on the corresponding bearing plate (3), locking and clamping the frame rod (11) on the bearing plate (3) by using a locking mechanism (4), and mounting corner connectors (12) at two ends of the frame rod (11) on the first bearing plate (31);

s3, starting a second driving mechanism (7) to enable the two second bearing plates (32) to move oppositely, and enabling the two ends of the frame rod (11) on the second bearing plates (32) to be aligned with the corner connectors (12) on the two sides;

s4, starting a second driving mechanism (7), enabling the two first bearing plates (31) to move oppositely until the corner connectors (12) enter the frame rods (11) on the second bearing plates (32), and enabling the four frame rods (11) to be connected end to form a window frame;

s5, connecting the angle code (12) with the frame rods (11) through bolts, smearing sealing elements at the joints of the two adjacent frame rods (11), opening the locking mechanism (4) after the sealing elements are dried, taking down the spliced window frame, and finishing the production work of the window frame.

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