CN110682390A - Frame assembling machine - Google Patents

Abstract

The invention provides a frame assembling machine, and belongs to the technical field of woodworking processing equipment. It has solved current group frame machine and has got material technical problem such as slow. This group frame machine includes the frame, is provided with workstation one in the frame, sets up the blanking mouth that supplies timber to pass through on the workstation one, and the periphery of blanking mouth has a plurality of storage mechanisms that are used for blocking or putting down timber, and sliding connection has the slide in the frame, is provided with a plurality of clamp material subassemblies one on the slide, and the frame still includes driving source one, and driving source one drive slide removes and can make clamp material subassembly one be located the below of blanking mouth. This group frame machine passes through storage mechanism and stores or releases timber, puts down timber after, makes timber carry out the free fall motion, just can place feeding mechanism with timber on, and timber is fixed on storage mechanism, can get the material at any time as required, reduces latency, and feeding mechanism can be swift more after getting the material carries, improves machining efficiency.

Description

Frame assembling machine

Technical Field

The invention belongs to the technical field of woodworking processing equipment, and relates to a frame assembling machine.

Background

The horizontal frame and the vertical frame need to be assembled in the production process of wooden doors, cabinets, bed boards, photo frames and the like; before assembly, cold glue is manually coated on the assembly part by a brush, then the transverse frame and the vertical frame coated with the cold glue are assembled, and the assembled door frame and the like are shaped and solidified by equipment such as a pressing machine and the like, so that the production efficiency is low, and the labor intensity is high.

In the prior art, the door frame assembling machine can automatically assemble a horizontal frame and a vertical frame. The working principle of the automatic corner nailing machine is disclosed in the following patent documents, such as a four-corner nailing framing machine disclosed in application No. 201520028798.0 and a full-automatic corner nailing machine disclosed in application No. 201520019675.0, wherein the full-automatic corner nailing machine comprises four sets of corner nailing devices which are respectively slidably mounted on a movable frame, the movable frame at least comprises a diagonal moving mechanism, and the four sets of corner nailing devices are respectively mounted on the diagonal moving mechanism. The diagonal moving mechanism can automatically move the four groups of nail angle devices according to the size of the photo frame, so that the frame edges of the photo frame are automatically spliced, then the four groups of nail angle devices realize the process of simultaneously completing the nail angles at the four corners of the frame, and the process can be automatically completed only by placing the four frame edges in the equipment during use.

Before the group frame, need get material and pay-off to the timber of constituteing the frame, in current group frame machine, often include a plurality of feeding mechanism, after first feeding mechanism carries timber to target in place, the material can be got to second feeding mechanism just then, later carries out subsequent pay-off again, gets like this and just slow, consequently influences machining efficiency.

Disclosure of Invention

The invention provides a frame assembling machine aiming at the problems in the prior art, and the technical problems to be solved by the invention are as follows: how to get the material fast convenient.

The purpose of the invention can be realized by the following technical scheme:

the utility model provides a group frame machine, includes the frame, be provided with workstation I in the frame, its characterized in that, set up the blanking mouth that supplies timber to pass through on the workstation I, the periphery of blanking mouth has a plurality of storage mechanisms that are used for blocking or put down timber, sliding connection has the slide in the frame, be provided with a plurality of clamp material subassemblies one on the slide, the frame still includes driving source one, driving source drive the slide removes and can make clamp material subassembly one is located the below of blanking mouth.

The working principle is as follows: in this group frame machine, press from both sides material subassembly one and slide constitution feeding mechanism, storage mechanism is located the periphery of blanking mouth, timber is placed on storage mechanism, when timber needs to be transferred, the drive source one drives the slide and removes and make and press from both sides the below that material subassembly one is located the blanking mouth, later storage mechanism releases timber, timber makes the free fall motion under the action of gravity, after timber falls down, press from both sides the material subassembly and press from both sides tightly a pair of timber, later the drive source one drives the slide and removes and transfer the position that needs with timber. This group frame machine passes through storage mechanism and stores or releases timber, puts down timber after, makes timber carry out the free fall motion, just can place feeding mechanism with timber on, convenient operation, and in addition, timber is fixed on storage mechanism, can get the material at any time as required, reduces latency, and feeding mechanism can be swift transport after getting the material more, improves machining efficiency.

As an embodiment, the first driving source comprises a first motor, two first belt wheels and a first belt, the two first belt wheels are arranged on the rack and can rotate around a self-axis, the first belt is connected to the two first belt wheels, the first motor is fixed on the rack, the first belt wheel is connected with an output shaft of the first motor, and the sliding seat is fixed above the first belt.

In foretell group frame machine, press from both sides material subassembly one and include mounting panel one, mounting panel one sets up on the slide, is fixed with horizontal cylinder one on the mounting panel one, sliding connection has piston rod one and piston rod two that can be in opposite directions and reverse movement on the horizontal cylinder one, be fixed with clamp splice one on the tip of piston rod one and piston rod two respectively, clamp splice one sets up relatively. When timber falls between the two clamping blocks I, the horizontal cylinder I drives the two clamping blocks I to move in opposite directions through the piston rod I and the piston rod II, when the piston rod I and the piston rod II abut against one side of the timber respectively, the clamping blocks I clamp the timber, the driving source I drives the sliding seat to move to a required position, the clamping assembly I moves along with the sliding seat to achieve feeding, and then the horizontal cylinder I drives the two clamping blocks I to move in opposite directions, so that the timber is loosened.

In foretell group frame machine, press from both sides material subassembly one still includes vertical cylinder one, sliding connection has piston rod three on vertical cylinder one, mounting panel one is fixed the top of piston rod three. The vertical cylinder I drives the mounting plate I to move up and down through the piston rod III, so that the clamping assembly I moves up and down, the height of the clamping assembly I can be adjusted more by the structure, and the adaptability is improved.

In the above frame assembling machine, the number of the first clamping assemblies is more than three, the first mounting plates on the adjacent first clamping assemblies are perpendicular to each other, and the extending directions of the first clamping blocks on the first clamping assemblies are consistent with the extending directions of the corresponding first mounting plates.

The first clamping assemblies are more than three, as the preferred embodiment, the first clamping assemblies are four, the mounting plates on the first adjacent clamping assemblies are perpendicular to each other, in the structure, the first clamping assemblies respectively clamp a piece of wood around the sliding seat, the four pieces of wood are enclosed to form a rough shape like a Chinese character 'hui', but the end parts of the wood are not connected, so that the convenient assembly can be carried out through subsequent material moving, and the processing efficiency is further improved.

In foretell group frame machine, the top of frame is provided with the crossbeam, be provided with vertical cylinder two on the crossbeam, sliding connection has piston rod six on vertical cylinder two, the bottom of piston rod six is fixed with the charging tray that moves, be provided with the drive on the crossbeam vertical cylinder two is followed the length direction removal driving source two of crossbeam, it presss from both sides material subassembly two to be provided with on the charging tray to move.

After the first clamping assembly loosens the wood, the second vertical cylinder drives the material moving disc to move downwards, the second clamping assembly descends along with the material moving disc and clamps the wood, and then the material moving disc moves along with the second vertical cylinder along the length direction of the cross beam under the driving of the second driving source, so that secondary feeding is realized.

In foretell group frame machine, press from both sides material subassembly two and include mounting panel two, mounting panel two is fixed on the moving plate, be fixed with horizontal cylinder two on the mounting panel two, sliding connection has piston rod four and piston rod five that can move with reverse in opposite directions on the horizontal cylinder two, be fixed with clamp splice two respectively on the tip of piston rod four and piston rod five, clamp splice two sets up relatively.

When the wood is located between the two clamping blocks II, the horizontal cylinder II drives the two clamping blocks to move in the opposite direction through the piston rod IV and the piston rod V, when the piston rod IV and the piston rod V abut against one side of the wood respectively, the clamping blocks II clamp the wood tightly, the driving source I drives the material moving disc to move to the frame assembling mechanism, then the horizontal cylinder II drives the two clamping blocks to move in the opposite direction, the wood falls onto the frame assembling mechanism after being loosened, and the frame assembling mechanism performs frame assembling on the wood.

As an embodiment, the second driving source comprises a second motor, a second belt wheel and a second belt, the second belt wheel is arranged on the cross beam and can rotate around the self-axis, the second belt is connected to the second belt wheel, the second motor is fixed to the cross beam, the second belt wheel is connected with two output shafts of the second motor, and the second vertical cylinder is fixed below the second belt.

In the frame assembling machine, the number of the clamping assemblies two is more than three, the mounting plates on the adjacent clamping assemblies two are perpendicular to each other, the clamping assemblies two can respectively correspond to one clamping assembly one, and the extension directions of the clamping blocks two on the clamping assemblies two are consistent with the extension directions of the clamping blocks one on the corresponding clamping assemblies one.

As an embodiment, when the number of the first clamping assemblies is four, the number of the second clamping assemblies is four, the two mounting plates on the two adjacent clamping assemblies are perpendicular, in the structure, the two clamping assemblies are respectively distributed around the material moving disc, after the sliding seat moves to a certain position, the two clamping assemblies correspond to the first clamping assemblies, namely, each two clamping assemblies are respectively positioned above one first clamping assembly, when the material moving disc descends to a certain position, each two clamping assemblies also respectively clamp one piece of wood, four pieces of wood are enclosed to form a rough shape like a Chinese character 'hui', but the end parts of the pieces of wood are not connected, and the four pieces of wood can be simultaneously moved to the frame assembling mechanism for assembling, so that the processing efficiency is further improved.

In foretell group frame machine, storage mechanism includes the fixed plate, the both sides of fixed plate are fixed with the mount pad, the mount pad includes the main panel, the main panel with the angle of fixed plate is 45, is fixed with horizontal cylinder three on the mount pad, sliding connection has piston rod seven on the horizontal cylinder three, be fixed with the dog on the piston rod seven, the dog can be followed pass on the main panel. Under the driving of the horizontal cylinder III, the stop block extends out of the main plate body along with the piston rod VII, so that wood is blocked, and when the wood needs to be released, the piston rod VII retracts. The end parts of two ends of the wood used as the frame strips are provided with 45-degree chamfers, and the fixing plate and the main panel form a 45-degree shape and are adaptive to the end parts of the wood, so that the wood can be better placed.

In a frame assembling machine of the aforesaid, the main panel has a side, set up on the side and run through the bar groove of side, horizontal cylinder three is installed on the fixed block, set up threaded hole on the lateral wall of fixed block, the threaded hole with the bar groove is relative. In this structure, wear to establish the bolt on the bar groove, make bolt and screw hole screw thread fastening be connected to on the side of the fixed main panel of fixed block, can be convenient install fixedly horizontal cylinder three.

In foretell group frame machine, storage mechanism is more than three, and each storage mechanism follows the circumference of blanking mouth distributes, and the mounting plate on the adjacent storage mechanism is mutually perpendicular. In this structure, the horizontal cylinder three on the adjacent storage mechanism can block the one end of timber respectively, realizes keeping off the material jointly.

As a preferred embodiment, the number of the storage mechanisms is four, in the structure, the four storage mechanisms can simultaneously block four adjacent timbers and can simultaneously release the four timbers, the four frame bars are in different positions, the four timbers are enclosed to form a rough shape like a Chinese character 'hui', but the end parts of the timbers are not connected, and the convenient assembly can be carried out through subsequent material moving and assembly, so that the processing efficiency is further improved.

Compared with the prior art, the invention has the following advantages:

1. this group frame machine passes through storage mechanism and stores or releases timber, puts down timber after, makes timber carry out the free fall motion, just can place feeding mechanism with timber on, and timber is fixed on storage mechanism, can get the material at any time as required, reduces latency, and feeding mechanism can be swift more after getting the material carries, improves machining efficiency.

2. This group frame machine's material clamping component one respectively at slide around a timber of centre gripping respectively, four timber enclose synthetic roughly back font, but the tip of timber does not be connected, moves the material like this and can carry out convenient equipment, further improves machining efficiency.

3. This group frame machine's two timber of clamp material subassembly also centre gripping timber respectively, four timber still enclose synthetic approximate font of returning, but the tip of timber is not connected, and four timber can be moved group frame mechanism department simultaneously and assemble, further improve machining efficiency.

Drawings

Fig. 1 is a schematic structural diagram of the frame assembling machine.

Fig. 2 is a schematic structural diagram of the first clamping assembly.

Fig. 3 is an enlarged view of a portion a in fig. 2.

Fig. 4 is a schematic structural diagram of the clamping assembly two.

FIG. 5 is a schematic view of the material moving tray arranged on the cross beam.

Fig. 6 is a schematic view of the structure of the magazine mechanism.

Fig. 7 is an enlarged view of a portion B in fig. 6.

In the figure, 1 a frame; 2, a first workbench; 3, a blanking port; 4, a material storage mechanism; 5, a sliding seat; 6, a first material clamping component; 7, a first driving source; 8, mounting a first plate; 9, a first horizontal cylinder; 10, clamping a first block; 11, a first vertical cylinder; 12 a cross beam; 13, a vertical cylinder II; 14, moving the tray; 15 driving source II; 16 a material clamping component II; 17, mounting a second plate; 18 horizontal cylinder II; 19 a second clamping block; 20 fixing the plate; 21 a mounting seat; 22 a main panel; 23, a third horizontal cylinder; 24, a stop block; 25 sides; 26 strip-shaped grooves; 27 fixing blocks; 28 a threaded hole; 29, a first motor; 30, a first belt wheel; 31, a first belt; 32, a second motor; 33, a second belt wheel; 34 a second belt; 35 groups of frame mechanisms; 36 a material pushing seat; 37, a screw rod; 38 a material ejecting part; 39 a second workbench; 40, a first bevel gear; 41 a drive shaft; and 42, a second bevel gear.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1-2, the frame assembling machine comprises a frame 1, a first workbench 2 is arranged on the frame 1, a blanking port 3 for wood to pass through is formed in the first workbench 2, a plurality of storage mechanisms 4 used for blocking or putting down the wood are arranged on the periphery of the blanking port 3, a sliding seat 5 is connected to the frame 1 in a sliding mode, a plurality of first clamping components 6 are arranged on the sliding seat 5, the frame 1 further comprises a first driving source 7, and the first driving source 7 drives the sliding seat 5 to move and enables the first clamping components 6 to be located below the blanking port 3.

As shown in fig. 2, as an embodiment, the first driving source 7 includes a first motor 29, two first pulleys 30 and a first belt 31, the two first pulleys 30 are disposed on the frame 1 and can rotate around the self-axis, the first belt 31 is connected to the two first pulleys 30, the first motor 29 is fixed on the frame 1, the first pulley 30 is connected to an output shaft of the motor, and the sliding base 5 is fixed above the first belt 31.

As shown in fig. 2-3, in this embodiment, the clamping assembly one 6 includes a first mounting plate 8, the first mounting plate 8 is disposed on the sliding base 5, a first horizontal cylinder 9 is fixed on the first mounting plate 8, a first piston rod and a second piston rod capable of moving in opposite directions are slidably connected to the first horizontal cylinder 9, a first clamping block 10 is respectively fixed on the end portions of the first piston rod and the second piston rod, and the first clamping block 10 is disposed opposite to the second clamping block. When wood falls between the two clamping blocks I10, the horizontal cylinder I9 drives the two clamping blocks I10 to move oppositely through the piston rod I and the piston rod II, when the two clamp blocks I10 abut against one side of the wood respectively, the wood is clamped tightly by the clamping blocks I10, the driving source I7 drives the sliding seat 5 to move to a required position, the clamping component I6 moves along with the sliding seat 5 to realize feeding, and then the horizontal cylinder I9 drives the two clamping blocks I10 to move reversely, so that the wood is loosened.

As shown in fig. 2 to 3, in this embodiment, the first clamping assembly 6 further includes a vertical cylinder 11, a piston rod iii is slidably connected to the vertical cylinder 11, and the first mounting plate 8 is fixed to the top of the piston rod iii. Vertical cylinder I reciprocates through three drive mounting panels of piston rod 8 to make and press from both sides material subassembly 6 and reciprocate, this structure can need more to adjust the height that presss from both sides material subassembly 6, improves the adaptability.

Preferably, the number of the clamping assemblies one 6 is more than three, the mounting plates one 8 on the adjacent clamping assemblies one 6 are perpendicular to each other, and the extending directions of the clamping blocks one 10 on the clamping assemblies one 6 are consistent with the extending directions of the corresponding mounting plates one 8.

The material clamping assemblies 6 are more than three, as a preferred embodiment, the material clamping assemblies 6 are four, the mounting plates 8 on the adjacent material clamping assemblies 6 are perpendicular to each other, in the structure, the material clamping assemblies 6 respectively clamp a piece of wood around the sliding seat 5, the four pieces of wood are enclosed to form a rough shape, but the end parts of the wood are not connected, so that the convenient assembly can be carried out through subsequent material moving, and the processing efficiency is further improved.

As shown in fig. 1, 4 and 5, in this embodiment, a cross beam 12 is disposed above the rack 1, a vertical cylinder two 13 is disposed on the cross beam 12, a piston rod six is slidably connected to the vertical cylinder two 13, a material moving tray 14 is fixed to the bottom of the piston rod six, a second driving source 15 for driving the vertical cylinder two 13 to move along the length direction of the cross beam 12 is disposed on the cross beam 12, and a second material clamping assembly 16 is disposed on the material moving tray 14.

After the first clamping assembly 6 loosens the wood, the second vertical cylinder 13 drives the material moving disc 14 to move downwards, the second clamping assembly 16 descends along with the material moving disc 14 and clamps the wood, and then the material moving disc 14 moves along with the second vertical cylinder 13 along the length direction of the cross beam 12 under the driving of the second driving source 15, so that secondary feeding is achieved.

As shown in fig. 4, in this embodiment, the second clamping assembly 16 includes a second mounting plate 17, the second mounting plate 17 is fixed on the material moving plate 14, a second horizontal cylinder 18 is fixed on the second mounting plate 17, a fourth piston rod and a fifth piston rod which can move in opposite directions and opposite directions are slidably connected to the second horizontal cylinder 18, second clamping blocks 19 are respectively fixed on end portions of the fourth piston rod and the fifth piston rod, and the second clamping blocks 19 are arranged opposite to each other.

When the wood is located between the two clamping blocks II 19, the horizontal cylinder II 18 drives the two clamping blocks II 19 to move oppositely through the piston rod IV and the piston rod V, when the two are respectively abutted against one side of the wood, the clamping blocks II 19 clamp the wood, the driving source I7 drives the material moving disc 14 to move to the frame assembling mechanism 35, then the horizontal cylinder II 18 drives the two clamping blocks II 19 to move reversely, the wood falls onto the frame assembling mechanism 35 after being loosened, and the frame assembling mechanism 35 performs frame assembling on the wood.

As shown in fig. 1, as an embodiment, the second driving source 15 includes a second motor 32, two second pulleys 33, and a second belt 34, the two second pulleys 33 are disposed on the cross beam 12 and can rotate around the self-axis, the second belt 34 is connected to the two second pulleys 33, the second motor 32 is fixed on the cross beam 12, one second pulley 33 is connected to a second output shaft of the motor, and the second vertical cylinder 13 is fixed below the second belt 34.

Preferably, the number of the clamping assemblies two 16 is more than three, the mounting plates two 17 on the adjacent clamping assemblies two 16 are perpendicular to each other, the clamping assemblies two 16 can respectively correspond to one clamping assembly one 6, and the extension directions of the clamping blocks two 19 on the clamping assemblies two 16 are consistent with the extension directions of the clamping blocks one 10 on the corresponding clamping assemblies one 6.

As an embodiment, when the number of the first clamping assemblies 6 is four, the number of the second clamping assemblies 16 is also four, and the mounting plates 17 on the adjacent second clamping assemblies 16 are perpendicular to each other, in the structure, the second clamping assemblies 16 are respectively distributed around the material moving tray 14, after the sliding base 5 moves to a certain position, the second clamping assemblies 16 correspond to the first clamping assemblies 6, namely, each second clamping assembly 16 is respectively positioned above one first clamping assembly 6, and after the material moving tray 14 descends to a certain position, each second clamping assembly 16 also respectively clamps one piece of wood, and the four pieces of wood still surround and form a rough Chinese character 'hui', but the end parts of the pieces of wood are not connected, and the four pieces of wood can be simultaneously moved to the framing mechanism 35 for assembly, so that the processing efficiency is further improved.

As shown in FIG. 1, as an embodiment, the frame assembling mechanism 35 includes a material pushing seat 36 and a screw rod 37, the material pushing seat 36 has a material ejecting portion 38, the material pushing seat 36 is slidably connected to a second working table 39, the material pushing seat 36 is in threaded transmission connection with the screw rod 37, a first helical gear 40 is fixed at an end of the screw rod 37, a driving shaft 41 rotating around a self-axis is arranged on the second working table 39, a second helical gear 42 is fixed at an end of the driving shaft 41, the frame assembling mechanisms are four and uniformly distributed along the circumferential direction of the second working table 39, the first helical gears 40 on the two frame assembling mechanisms are engaged with the second helical gear 42, the first helical gears 40 on the other two frame assembling mechanisms are engaged with the second helical gear 42, under the driving of the driving shaft 41, the first helical gears 42 drive the first helical gears 40 to rotate, so that the screw rods 37 simultaneously drive the material ejecting portions 38 on the corresponding material pushing seats 36 to move towards each other, the adjacent lifters 38 respectively push the timbers to move towards each other until the end parts of the timbers are combined, so that framing is realized, and after framing is finished, the driving shaft 41 reversely moves to drive the lifters 38 to reversely move. For a more detailed working principle, see also the four corner nail framing machine of application No. 201520028798.0 and the fully automatic corner nail machine of application No. 201520019675.0, the four corner nail framing machine of application No. 201520028798.0 and the fully automatic corner nail machine of application No. 201520019675.0.

As shown in fig. 6 to 7, in the present embodiment, the storing mechanism 4 includes a fixed plate 20, mounting seats 21 are fixed on two sides of the fixed plate 20, each mounting seat 21 includes a main panel 22, an angle between the main panel 22 and the fixed plate 20 is 45 °, a horizontal cylinder three 23 is fixed on the mounting seat 21, a piston rod seven is slidably connected on the horizontal cylinder three 23, a stopper 24 is fixed on the piston rod seven, and the stopper 24 can pass through the main panel 22. Under the drive of the horizontal cylinder III 23, the stop block 24 extends out of the main plate body along with the piston rod seven, so that the timber is stopped, and when the timber needs to be released, the piston rod seven retracts. The end parts of both ends of the wood used as the frame strips are provided with 45-degree chamfers, and the fixing plate 20 and the main panel 22 form a 45-degree shape which is adaptive to the end parts of the wood, so that the wood can be better placed.

As shown in fig. 7, in the present embodiment, the main panel 22 has a side 25, the side 25 is provided with a strip-shaped groove 26 penetrating through the side 25, the horizontal cylinder three 23 is mounted on a fixing block 27, a threaded hole 28 is provided on a side wall of the fixing block 27, and the threaded hole 28 is opposite to the strip-shaped groove 26. In this structure, wear to establish the bolt on bar groove 26, make bolt and screw hole 28 screw thread fastening connection to with the fixed block 27 on the side 25 of fixed main panel 22, can be convenient install fixedly horizontal cylinder three 23.

Preferably, the number of the storage mechanisms 4 is more than three, each storage mechanism 4 is distributed along the circumferential direction of the blanking port 3, and the fixing plates 20 on the adjacent storage mechanisms 4 are vertical to each other. In this structure, the one end that a horizontal cylinder three 23 on the adjacent storage mechanism 4 can block timber respectively realizes keeping off the material jointly. As shown in fig. 4, in this embodiment, four storage mechanisms 4 are provided, and in this structure, four storage mechanisms 4 can simultaneously block four adjacent timbers and can simultaneously release four timbers, and these four frame bars are in different positions, and the four timbers are enclosed to form a roughly rectangular shape, but the end portions of the timbers are not connected, so that convenient assembly can be performed through subsequent material moving and assembly, and the processing efficiency is further improved.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Claims (10)

1. The utility model provides a group frame machine, includes frame (1), be provided with workstation (2) on frame (1), its characterized in that, set up blanking mouth (3) that supply timber to pass through on workstation (2), the periphery of blanking mouth (3) has a plurality of storage mechanisms (4) that are used for blocking or putting down timber, sliding connection has slide (5) on frame (1), be provided with a plurality of clamp material subassemblies one (6) on slide (5), frame (1) still includes driving source (7), driving source (7) drive slide (5) remove and can make clamp material subassembly one (6) are located the below of blanking mouth (3).

2. A framing machine according to claim 1, characterized in that the first clamping assembly (6) comprises a first mounting plate (8), the first mounting plate (8) is arranged on the sliding base (5), a first horizontal cylinder (9) is fixed on the first mounting plate (8), the first horizontal cylinder (9) is slidably connected with a first piston rod and a second piston rod which can move oppositely and reversely, first clamping blocks (10) are respectively fixed on the ends of the first piston rod and the second piston rod, and the first clamping blocks (10) are arranged oppositely.

3. A framing machine according to claim 2, wherein the first clamping assembly (6) further comprises a first vertical cylinder (11), a third piston rod is slidably connected to the first vertical cylinder (11), and the first mounting plate (8) is fixed to the top of the third piston rod.

4. A framing machine according to any one of claims 1-3, wherein the number of the first clamping assemblies (6) is more than three, the mounting plates (8) of the adjacent first clamping assemblies (6) are perpendicular, and the extension directions of the clamping blocks (10) of the first clamping assemblies (6) are consistent with the extension directions of the corresponding mounting plates (8).

5. A framing machine according to claim 2, characterized in that a beam (12) is arranged above the machine frame (1), a second vertical cylinder (13) is arranged on the beam (12), a sixth piston rod is connected on the second vertical cylinder (13) in a sliding manner, a material moving tray (14) is fixed at the bottom of the sixth piston rod, a second driving source (15) for driving the second vertical cylinder (13) to move along the length direction of the beam (12) is arranged on the beam (12), and a second clamping assembly (16) is arranged on the material moving tray (14).

6. A frame assembling machine according to claim 5, wherein the second clamping assembly (16) comprises a second mounting plate (17), the second mounting plate (17) is fixed on the material moving plate (14), a second horizontal cylinder (18) is fixed on the second mounting plate (17), a fourth piston rod and a fifth piston rod which can move oppositely and reversely are connected on the second horizontal cylinder (18) in a sliding mode, two clamping blocks (19) are fixed on the end portions of the fourth piston rod and the fifth piston rod respectively, and the second clamping blocks (19) are arranged oppositely.

7. A framing machine according to claim 5 or 6, characterized in that the number of the second clamping assemblies (16) is more than three, the mounting plates (17) on the adjacent second clamping assemblies (16) are perpendicular, the second clamping assemblies (16) can respectively correspond to one first clamping assembly (6), and the extension directions of the second clamping blocks (19) on the second clamping assemblies (16) are consistent with the extension directions of the first clamping blocks (10) on the corresponding first clamping assemblies (6).

8. A framing machine according to claim 1, characterized in that the storing mechanism (4) includes a fixed plate (20), two sides of the fixed plate (20) are fixed with mounting seats (21), the mounting seats (21) include a main panel (22), an angle between the main panel (22) and the fixed plate (20) is 45 °, a horizontal cylinder three (23) is fixed on the mounting seats (21), a piston rod seven is slidably connected on the horizontal cylinder three (23), a stop block (24) is fixed on the piston rod seven, and the stop block (24) can pass through the main panel (22).

9. A framing machine according to claim 8, characterized in that said main panel (22) has a side (25), said side (25) being provided with a slot (26) passing through said side (25), said horizontal cylinder three (23) being mounted on a fixed block (27), said fixed block (27) being provided with a threaded hole (28) in its side wall, said threaded hole (28) being opposite to said slot (26).

10. A framing machine according to claim 1, 8 or 9, characterized in that the number of said magazine mechanisms (4) is more than three, each magazine mechanism (4) is distributed along the circumference of said blanking opening (3), and the fixing plates (20) of adjacent magazine mechanisms (4) are perpendicular to each other.

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