Anti-offset and rotatable aluminum alloy door and window angle assembling fixing machine
Technical Field
The invention relates to the field of aluminum alloy door and window angle assembly, in particular to an anti-offset angle assembly fixing machine capable of rotating the angle of an aluminum alloy door and window.
Background
The aluminum alloy door and window is made of aluminum alloy building materials, has the characteristics of attractive appearance, sealing and high strength, is widely applied to the field of building engineering, and can enable indoor light to be sufficiently bright and enable a living room to be more hierarchical, so that a plurality of owners in decoration adopt the aluminum alloy door and window, and the quality of the aluminum alloy door and window is generally determined by the surface treatment and the internal processing quality of raw materials and aluminum materials.
At present, more and more users use aluminum alloy doors and windows, in order to increase the corner strength of the doors and windows in the process of processing the aluminum alloy doors and windows, the aluminum alloy doors and windows are usually punched to form corners, the existing corner forming machine cannot automatically punch four corners on the aluminum alloy to form corners, and for convenient carrying, the workpiece supporting device is detachably connected with the corner forming machine subject through connecting pieces such as bolts, but the dismounting process is more troublesome, and the dismounted parts are easy to lose in the carrying process.
Disclosure of Invention
Based on the above, it is necessary to provide a corner assembling machine capable of automatically punching and assembling corners of an aluminum alloy door and window, capable of automatically rotating the aluminum alloy door and window so as to prevent deviation of the four corners of the aluminum alloy door and window and capable of rotating the aluminum alloy door and window, so as to solve the problems that the disassembly is troublesome and the four corners of the aluminum alloy door and window cannot be automatically punched and assembled in the prior art.
The technical proposal is as follows: the utility model provides an anti-deflection and rotatable aluminum alloy door and window angle's group angle fixing machine, including swash plate one, swash plate two, the slide rail strip, abnormal shape trompil fluting support frame, N font link, push forward mechanism, hold-down mechanism, stamping mechanism and rotatory skew mechanism, be equipped with swash plate one on other supporting facilities, be equipped with swash plate two on other supporting facilities, the common hookup has the slide rail strip on swash plate one and the swash plate two, the common hookup has abnormal shape trompil fluting support frame on swash plate one and the swash plate two, N font link links on abnormal shape trompil fluting support frame, push forward mechanism locates on the slide rail strip, hold-down mechanism locates on the N font link, stamping mechanism locates on the abnormal shape trompil fluting support frame, rotatory skew mechanism locates on the push forward mechanism.
Further, the forward pushing mechanism comprises a special-shaped grooved sliding plate, a first reset spring, an electric push rod, a round head connecting frame, a fixing plate, a first rotating shaft and a special-shaped grooved placing plate, wherein the special-shaped grooved sliding plate is connected to the bottom of a sliding rail, a round hole is formed in the special-shaped grooved sliding plate, the first reset spring is connected to the special-shaped grooved sliding plate, the other end of the first reset spring is connected with a second inclined plate, the electric push rod is arranged on the special-shaped grooved sliding plate, the round head connecting frame is welded to one end of the electric push rod, the fixing plate is arranged on the round head connecting frame, the first rotating shaft is connected to the fixing plate in a rotating mode, and the first rotating shaft is connected with the special-shaped grooved placing plate.
The pressing mechanism comprises a rectangular slotting frame, a special-shaped belt wedge pushing frame, a second reset spring, a six-sided rod with a wedge, a third reset spring, a second rotating shaft, a T-shaped swing rod frame, a first torsion spring, a pressing rod, a sixth reset spring and a special-shaped connecting plate, wherein the rectangular slotting frame is connected to the N-shaped connecting frame, the special-shaped belt wedge pushing frame is connected to the rectangular slotting frame in a sliding mode, the second reset spring is connected between the rectangular slotting frame and the special-shaped belt wedge pushing frame, the six-sided rod with the wedge is connected to the special-shaped slotted supporting frame in a sliding mode, the six-sided rod with the wedge longitudinally penetrates through the special-shaped slotted supporting frame, the six-sided rod with the wedge is in contact with the special-shaped belt wedge pushing frame, the six-sided rod with the special-shaped slotted supporting frame is connected with the third reset spring, the second rotating shaft is connected to the special-shaped slotted supporting frame, the T-shaped swing rod frame is connected to the second rotating shaft, a pair of first torsion springs is connected between the T-shaped swing rod frame and the special-shaped slotted supporting frame, the special-shaped slotted supporting frame is connected with the three pressing rods in a sliding mode, the pressing rods are distributed in a triangle mode, the pressing rods are connected between the pressing rods and the special-shaped slotted supporting frame, the special-shaped slotted supporting frame is in a contact with the special-shaped connecting plate, and the special-shaped swing rod is in a contact with the joint type.
Further, the stamping mechanism comprises a round rod, a first wedge-shaped frame, a fourth reset spring, a grooved frame with a rod, a stamping rod, a second wedge-shaped frame and a fifth reset spring, wherein two round rods are connected to the grooved frame with the special-shaped opening in a sliding mode, one end of each round rod is in contact with the special-shaped connecting plate, the other end of each round rod is connected with the first wedge-shaped frame, the first wedge-shaped frame is matched with the grooved frame with the special-shaped opening in a sliding mode, the fourth reset spring is connected between the first wedge-shaped frame and the grooved frame with the special-shaped opening in a sliding mode, the grooved frame with the rod is symmetrically connected to the rectangular grooved frame, the stamping rod is connected to the grooved frame with the rod in a sliding mode, the second wedge-shaped frame is connected to the grooved frame with the first wedge-shaped frame in a contact mode, and the fifth reset spring is connected between the second wedge-shaped frame and the grooved frame with the rod.
Further, the rotary offset mechanism comprises an I-shaped swing rod, a gear, a rack, a support with a limiting rod, a rotating shaft III, a pawl and a second torsion spring, wherein the rotating shaft I is connected with a pair of I-shaped swing rods, the gear is rotationally connected to the rotating shaft I, the gear is in contact with the I-shaped swing rod, the rack is connected to a special-shaped grooved sliding plate, the support with the limiting rod is connected to the rotating shaft I, the rotating shaft III is rotationally connected to the support with the limiting rod, the pawl is connected to the rotating shaft III, and the second torsion spring is connected between the pawl and the support with the limiting rod.
The beneficial effects are that:
through the hold-down bar, the hold-down bar compresses tightly the aluminum alloy door and window on the board is placed to the abnormal shape fluting, prevents that the aluminum alloy door and window on the board from taking place to squint to the abnormal shape fluting, is favorable to punching press group angle to it more accurately, has reached the effect that can prevent that the aluminum alloy door and window on the board is placed to the abnormal shape fluting squint in order to carry out punching press group angle to it more accurately.
Through the cooperation of gear and last device, the gear can drive through the pawl and take gag lever post support and last device to rotate 90, and one I type pendulum rod of swash plate extrusion and last device are moved towards the direction that is close to swash plate two for the stamping rod carries out the punching press group angle to the other angles of aluminum alloy door and window on the special-shaped slotting placement board, has reached the effect that can carry out the punching press to four angles of aluminum alloy door and window on the special-shaped slotting placement board in proper order and organize the angle.
Drawings
Fig. 1 is a schematic perspective view of a first embodiment of the present invention.
Fig. 2 is a schematic perspective view of a second embodiment of the present invention.
Fig. 3 is a schematic view of a partial perspective structure of the present invention.
Fig. 4 is a schematic perspective view of the push-forward mechanism of the present invention.
Fig. 5 is a schematic perspective view of a first part of the compressing mechanism of the present invention.
Fig. 6 is a schematic perspective view of a second part of the compressing mechanism of the present invention.
Fig. 7 is a schematic perspective view of a press mechanism according to the present invention.
Fig. 8 is a schematic perspective view of a first part of the rotary offset mechanism of the present invention.
Fig. 9 is a schematic perspective view of a second part of the rotary offset mechanism of the present invention.
Reference numerals: the first, 11, second, 2 slide rail, 3, profiled open slotted support, 4_N link, 5 forward push mechanism, 51 profiled slotted slide, 52 first return spring, 53 electric push rod, 54 head link, 55 fixed plate, 56 spindle one, 57 profiled slotted landing plate, 6 hold down mechanism, 61 rectangular slotted rack, 62 profiled wedge push rack, 63 second return spring, 64 wedge six-sided bar, 65 third return spring, 66 spindle two, 67T pendulum bar rack, 68 first torsion spring, 69 hold down bar, 610 sixth return spring, 611 profiled link, 7 ram mechanism, 71 round bar, 72 wedge rack one, 73 fourth return spring, 74 bar slotted rack, 75 ram bar, 76 wedge rack two, 77 fifth return spring, 8 rotary offset mechanism, 81_I pendulum bar, 82 gear, 83 ram, 84 bar, 87 ratchet rack, 86 torsion bar, 86 pawl rack, and 86 spindle two.
Detailed Description
Embodiments of the present invention are described in further detail below with reference to the accompanying drawings and examples. The following examples are illustrative of the invention but are not intended to limit the scope of the invention.
Examples: an anti-offset and rotatable angle assembling fixing machine for aluminum alloy doors and windows comprises an inclined plate 1, an inclined plate two 11, a sliding rail 2, a special-shaped open-pore grooving support frame 3, an N-shaped connecting frame 4, a front pushing mechanism 5, a pressing mechanism 6, a punching mechanism 7 and a rotary offset mechanism 8, wherein the inclined plate 1 is arranged on other support equipment, the inclined plate two 11 is arranged on other support equipment, the sliding rail 2 is jointly connected to the inclined plate 1 and the inclined plate two 11, the special-shaped open-pore grooving support frame 3 is jointly connected to the inclined plate 1 and the inclined plate two 11, the N-shaped connecting frame 4 is connected to the special-shaped open-pore grooving support frame 3, the front pushing mechanism 5 is arranged on the sliding rail 2, the pressing mechanism 6 is arranged on the N-shaped connecting frame 4, the pressing mechanism 6 is used for pressing the aluminum alloy doors and windows on the special-shaped grooving support frame 57 to prevent the offset, the punching mechanism 7 is arranged on the special-shaped open-pore grooving support frame 3, the punching mechanism 7 is used for punching an angle assembling for the aluminum alloy doors and windows on the special-shaped grooving support plate 57, the rotary offset mechanism 8 is arranged on the front pushing mechanism 5, and the rotary offset mechanism 8 is used for enabling the special-shaped grooving support plate 57 to rotate by 90 degrees.
The forward pushing mechanism 5 comprises a special-shaped grooved sliding plate 51, a first reset spring 52, an electric push rod 53, a round head connecting frame 54, a fixing plate 55, a rotating shaft one end 56 and a special-shaped grooved placing plate 57, wherein the special-shaped grooved sliding plate 51 is connected to the bottom of the sliding rail strip 2 in a sliding mode, a round hole is formed in the special-shaped grooved sliding plate 51, the first reset spring 52 is connected to the special-shaped grooved sliding plate 51, the other end of the first reset spring 52 is connected with the inclined plate two 11, the first reset spring 52 is used for driving the special-shaped grooved sliding plate 51 to reset with an upper device of the special-shaped grooved sliding plate, the electric push rod 53 is mounted on the special-shaped grooved sliding plate 51, the electric push rod 53 is used for driving the round head connecting frame 54 to reciprocate with the upper device, the round head connecting frame 54 is welded to one end of the electric push rod 53, the fixing plate 55 is arranged on the round head connecting frame 54, the rotating shaft one end 56 is connected to the fixing plate 55 in a rotating mode, and the special-shaped grooved placing plate 57 is connected to the rotating shaft one end 56.
The compressing mechanism 6 comprises a rectangular slotted frame 61, a special-shaped belt wedge pushing frame 62, a second restoring spring 63, a six-sided rod with wedge 64, a third restoring spring 65, a second rotating shaft 66, a T-shaped swing rod frame 67, a first torsion spring 68, a compressing rod 69, a sixth restoring spring 610 and a special-shaped connecting plate 611, wherein the rectangular slotted frame 61 is connected to the N-shaped connecting frame 4, the special-shaped belt wedge pushing frame 62 is slidably connected to the rectangular slotted frame 61, the special-shaped belt wedge pushing frame 62 is used for pushing the six-sided rod with wedge 64 to move upwards, a second restoring spring 63 is connected between the rectangular slotted frame 61 and the special-shaped belt wedge pushing frame 62, the six-sided rod with wedge 64 is slidably connected to the special-shaped perforated slotted supporting frame 3, the six-sided rod with wedge 64 is used for pushing the T-shaped swing rod frame 67 and the device thereon to rotate, the six-sided rod with wedge 64 longitudinally penetrates through the special-shaped perforated slotted supporting frame 3, the six-sided rod with wedge 64 contacts with the pushing frame 62 with wedge, a third reset spring 65 is connected between the six-sided rod with wedge 64 and the grooved support frame 3 with shaped opening, the third reset spring 65 is used for driving the six-sided rod with wedge 64 to reset, the second rotating shaft 66 is rotationally connected with the grooved support frame 3 with shaped opening, the T-shaped swing rod frame 67 is connected with the second rotating shaft 66, a pair of first torsion springs 68 are connected between the T-shaped swing rod frame 67 and the grooved support frame 3 with shaped opening, the first torsion springs 68 are used for driving the T-shaped swing rod frame 67 to reset, the grooved support frame 3 with shaped opening is slidingly connected with a three-pressing rod 69, the pressing rod 69 is used for pressing the aluminum alloy door and window on the grooved placing plate 57 to prevent the deviation, the pressing rod 69 is in triangle distribution, a sixth reset spring 610 is connected between the pressing rod 69 and the grooved support frame 3 with shaped opening, the sixth return spring 610 is used for driving the compression rod 69 to return, the three compression rods 69 are fixedly connected with a special-shaped connecting plate 611, the special-shaped connecting plate 611 is used for extruding the round rod 71 and the device thereon to move downwards, and the special-shaped connecting plate 611 is contacted with the T-shaped swing rod frame 67.
The stamping mechanism 7 comprises a round rod 71, a first wedge-shaped frame 72, a fourth reset spring 73, a slotted support frame 74 with a rod, a stamping rod 75, a second wedge-shaped frame 76 and a fifth reset spring 77, wherein two round rods 71 are connected to the slotted support frame 3 with a special-shaped opening in a sliding mode, one end of each round rod 71 is contacted with a special-shaped connecting plate 611, the other end of each round rod 71 is connected with the first wedge-shaped frame 72, the first wedge-shaped frame 72 is used for pushing the second wedge-shaped frame 76 and devices on the second wedge-shaped frame 76 to move along the sliding grooves of the slotted support frame 74 with the wedge-shaped frame in the directions close to each other, the first wedge-shaped frame 72 is matched with the slotted support frame 3 with the special-shaped opening in a sliding mode, the fourth reset spring 73 is connected between the first wedge-shaped frame 72 and the slotted support frame 3 with the special-shaped opening, the fourth reset spring 73 is used for driving the first wedge-shaped frame 72 to reset, the slotted support frame 74 with the special-shaped opening is symmetrically connected to the slotted support frame 61, the stamping rod 75 is connected to the slotted support frame 74 in a sliding mode, the stamping rod 75 is used for conducting stamping corner sets on the special-shaped slotted support 57, the wedge-shaped alloy door and window is connected to the second wedge-shaped frame 76, the second wedge-shaped frame 76 is contacted with the wedge-shaped frame 76.
The rotary offset mechanism 8 comprises an I-shaped swing rod 81, a gear 82, a rack 83, a support 84 with a limiting rod, a rotating shaft III 85, a pawl 86 and a second torsion spring 87, wherein the first rotating shaft 56 is connected with the pair of I-shaped swing rods 81, the gear 82 is rotationally connected to the first rotating shaft 56, the gear 82 is used for driving the pawl 86 to rotate, the gear 82 is in contact with the I-shaped swing rod 81, the rack 83 is connected to the special-shaped grooved slide plate 51, the gear 82 rotates under the action of the rack 83, the support 84 with the limiting rod is connected to the first rotating shaft 56, the third rotating shaft 85 is rotationally connected to the support 84 with the limiting rod, the pawl 86 is connected to the third rotating shaft 85, the pawl 86 rotates through the cooperation of the support 84 with the third rotating shaft 85 with the pawl 86, the second torsion spring 87 is connected between the pawl 86 and the support 84 with the limiting rod, and the second torsion spring 87 is used for driving the pawl 86 to reset.
Firstly, an aluminum alloy door and window is placed on the special-shaped slotting placement plate 57, the electric push rod 53 is manually controlled to start, the electric push rod 53 starts to drive the round head connecting frame 54 and the upper device thereof to reciprocate, when the round head connecting frame 54 and the upper device thereof move towards the direction close to the rectangular slotting frame 61, the aluminum alloy door and window on the special-shaped slotting placement plate 57 can push the special-shaped belt wedge pushing frame 62 to move, the second return spring 63 can be compressed along with the special-shaped belt wedge pushing frame 62 can push the belt wedge six-face rod 64 to move upwards, the third return spring 65 can be compressed along with the special-shaped belt wedge six-face rod 64 can push the T-shaped swing rod frame 67 and the upper device thereof to rotate, the first torsion spring 68 can be compressed along with the special-shaped connecting plate 611 and the upper device thereof to be extruded by the T-shaped swing rod frame 67 to move downwards, and the sixth return spring 610 can be stretched along with the special-shaped swing rod 67 to compress the aluminum alloy door and window on the special-shaped slotting placement plate 57, so that the special-shaped slotting placement plate 57 is prevented from being offset by the aluminum alloy door and window, and window on the special-shaped slotting placement plate 57 can be punched and corner assembling more accurately.
At the same time, the special-shaped connecting plate 611 presses the round rod 71 and the upper device thereof to move downwards, the fourth reset spring 73 is compressed, the first wedge-shaped frame 72 pushes the second wedge-shaped frame 76 and the upper device thereof to move along the sliding groove of the grooved frame 74 with the rod towards each other, and the fifth reset spring 77 is stretched, so that the punching rod 75 punches and groups the first angle of the aluminum alloy door and window on the special-shaped grooved placing plate 57.
When the round-head connecting frame 54 and the device thereon move in a direction approaching to the rectangular slotted frame 61, the gear 82 rotates under the action of the rack 83, the gear 82 drives the pawl 86 to rotate, the second torsion spring 87 is compressed, and then the pawl 86 is reset under the action of the second torsion spring 87.
When the round head connecting frame 54 and the upper device thereof move in a direction away from the rectangular slotting frame 61, the special-shaped belt wedge pushing frame 62 can reset under the reset action of the second reset spring 63, the belt wedge six-face rod 64 can reset under the reset action of the third reset spring 65, the T-shaped swing rod frame 67 can reset under the reset action of the first torsion spring 68, the pressing rod 69 and the upper device thereof can reset under the reset action of the sixth reset spring 610, the first wedge frame 72 and the upper device thereof can reset under the reset action of the fourth reset spring 73, and the second wedge frame 76 and the upper device thereof can reset under the reset action of the fifth reset spring 77.
Simultaneously, under the action of the rack 83, the gear 82 can reversely rotate, under the action of the support 84 with the limiting rod, the pawl 86 can not rotate, the gear 82 can drive the support 84 with the limiting rod and the upper device thereof to rotate 90 degrees through the pawl 86, the first inclined plate 1 can extrude one of the I-shaped swinging rods 81 and the upper device thereof to move towards the direction close to the second inclined plate 11, the first return spring 52 can be compressed, the electric push rod 53 is manually controlled to shrink again, the second angle of the aluminum alloy door and window on the special-shaped slotting placement plate 57 can be contacted with the special-shaped belt wedge pushing frame 62, and similarly, the stamping rod 75 can punch the second angle of the aluminum alloy door and window on the special-shaped slotting placement plate 57.
Then, the electric push rod 53 is manually controlled to reset the round head connecting frame 54 and the upper device thereof, the gear 82 rotates, the bracket 84 with the limiting rod and the upper device thereof rotate through the cooperation of the bracket 84 with the limiting rod, the rotating shaft III 85 and the pawl 86, so that the inclined plate I1 does not press one I-shaped swing rod 81 any more, and the first reset spring 52 resets.
Repeating the above operation can punch the other two corners of the aluminum alloy door and window on the special-shaped slotting placement plate 57 to form corners, and finally, the electric push rod 53 is manually controlled to be closed.
In the description of the present invention, unless otherwise indicated, the meaning of "a plurality" is two or more; the terms "upper," "lower," "left," "right," "inner," "outer," "front," "rear," "head," "tail," and the like are used as an orientation or positional relationship based on that shown in the drawings, merely to facilitate description of the invention and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.