CN218592813U - Supporting device of numerical control heavy type angle forming machine for aluminum door and window capable of buffering workpieces - Google Patents

Abstract

The utility model belongs to the technical field of aluminium door and window processing technique and specifically relates to a can be to the strutting arrangement of the heavy group angle machine of numerical control for aluminium door and window of work piece buffering, including group angle machine rack, the both sides position of group angle machine rack all rotates and is connected with the support flat board, it has aluminium alloy work piece body to support dull and stereotyped top position arrangement, through the center recess that sets up, first spring, second spring, upper padding layer, lower bed course, inject chuck, buffering inner panel and support flat board, when the work piece that is in the course of working receives external force extrusion, the bogie that obtains flexible protection with the help of the block between upper padding layer and the lower bed course through a set of connecting rod, takes place the resilience effort that produces after the deformation with the help of first spring and second spring respectively, will follow the bottom position of receiving the work piece of extrusion through buffering inner panel, play certain buffering protection's effect to its external force extrusion that receives, improve the work piece effectively and obtain the stability of outrigger when processing operation.

Description

Supporting device of numerical control heavy corner combining machine for aluminum door and window capable of buffering workpieces

Technical Field

The utility model relates to an aluminium door and window processing technology field specifically is a strutting arrangement of the heavy group angle machine of numerical control for aluminium door and window that can cushion the work piece.

Background

The aluminum alloy door and window is a door and window with a frame body main structure made of aluminum alloy sections, and is also called an aluminum door and window, when corner forming operation needs to be carried out on aluminum section workpieces which are spliced in advance, in order to ensure that the workpieces can be stably placed, a supporting device of a numerical control heavy corner forming machine can be required to be connected all the time, and corresponding auxiliary supporting acting force is provided for the supporting device. When a supporting device on the market is matched with a numerical control heavy corner combining machine to perform machining operation in an auxiliary supporting mode, a workpiece subjected to external force extrusion is subjected to certain vibration phenomenon generated, the vibration phenomenon can also influence the workpiece to be stably machined on the numerical control heavy corner combining machine, and when an operator overturns the workpiece on the supporting device, the workpiece can be subjected to downward falling due to the influence of human factors in the process of placing the workpiece after overturning.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a can be to the strutting arrangement of the heavy group angle machine of numerical control for aluminum door and window of work piece buffering to the stability that the work piece that receives the influence of vibrations factor that proposes in solving above-mentioned background art when carrying out the processing operation can't obtain the phenomenon problem that drops downwards can appear in the in-process of laying the work piece after the upset.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides a can be to strutting arrangement of heavy group angle machine of numerical control for aluminium door and window of work piece buffering, includes group angle machine rack, the both sides position of group angle machine rack all rotates and is connected with the support flat board, it has aluminium alloy workpiece body to support the top position of flat board, and supports dull and stereotyped top face middle part position and seted up central recess through integrative pouring shaping processing, the inside of central recess inlays and is equipped with the buffering inner panel, and the bottom middle part position fixedly connected with of buffering inner panel turns to the support, the bottom middle part position that turns to the support has the bed course, and is provided with the bed course under the bed course, the both sides position that turns to the support all sliding connection has the connecting rod, and the well upper portion outside and the below outside of connecting rod have cup jointed first spring and second spring respectively, the bottom position fixedly connected with of connecting rod prescribes a limit to the chuck.

Preferably, a corner combining processing box is arranged above the top end face of the corner combining machine cabinet, the top end face of the corner combining machine cabinet and the bottom face of the aluminum profile workpiece body are in lap joint, main positioning blocks are movably mounted in the middle lower position of the top end face of the corner combining machine cabinet, and one ends of the main positioning blocks are distributed in a conical structure.

Preferably, a combined butt strap is arranged above one side of the supporting flat plate, a sliding groove is formed in one side of the inside of the supporting flat plate through integral pouring forming, a supporting rod is fixed to the middle of the bottom end of the supporting flat plate through a bolt, and the supporting rod and the supporting flat plate are vertically arranged.

Preferably, the inside sliding connection of spout has first guide arm, and the appearance of first guide arm is "T" type structural distribution and sets up, the position is provided with the second guide arm under the first guide arm, and the outside of second guide arm has cup jointed and has prescribed a limit to the square frame, prescribe a limit to integrated into one piece between square frame and the supporting plate and set up, second guide arm, first guide arm respectively and make up integrated into one piece between the attachment strap and set up, and make up the appearance of attachment strap and be "L" type structural distribution and set up, the laminating sets up between the horizontal end of combination attachment strap and the side end of aluminium alloy workpiece body.

Preferably, a set of integrated into one piece sets up between connecting rod difference and the buffering inner panel, and is a set of alternate the setting between connecting rod and the support flat board, and it is fixed to support spot welding between dull and stereotyped bottom and the top of second spring, it is fixed to spot welding between the bottom of second spring and the top of injecing the chuck, the support flat board through central recess and turn to embedded setting between the support, and the bottom position that turns to the support coheres and has the appearance to be the upper pad layer that "U" type structural distribution set up, the shape is identical between the inner of upper pad layer and the outer end of under pad layer, and coheres between the bottom surface of under pad layer and the medial surface of central recess and set up, the medial surface of central recess and a set of spot welding is fixed between the bottom of first spring, and a set of spot welding is fixed between the top of first spring and the bottom that turns to the support.

Compared with the prior art, the beneficial effects of the utility model are that:

1. in the utility model, through the arranged central groove, the first spring, the second spring, the upper cushion layer, the lower cushion layer, the limiting chuck, the buffering inner plate and the supporting flat plate, when a workpiece in the processing process is extruded by external force, the steering bracket which obtains flexible protection by means of the clamping between the upper cushion layer and the lower cushion layer respectively plays a certain role of buffering protection by means of the resilience acting force generated after the deformation of the first spring and the second spring through a group of connecting rods by means of the clamping between the upper cushion layer and the lower cushion layer, and the external force which receives the extrusion action from the bottom position of the workpiece which receives the extrusion action through the buffering inner plate extrudes the workpiece, thereby effectively improving the stability of the workpiece when the workpiece is stably supported for processing operation;

2. the utility model discloses in, through the combination attachment strap that sets up, aluminium alloy work piece body, support the flat board, prescribe a limit to the square frame, the second guide arm, first guide arm and support the flat board, when interval size between combination attachment strap and support flat board is adjusted and aluminium alloy work piece body is settled with the lapped mode and is carried out the processing operation on a set of support flat board, the appearance is a set of combination attachment strap of "L" type structure will play certain side protection's effect to settling of work piece from a set of dull and stereotyped side position of support respectively, appear in the course of working of reduction work piece effectively and take place the number of times of phenomenon that drops downwards from this strutting arrangement.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the internal structure of the support plate of the present invention;

fig. 3 is an enlarged schematic view of a portion a in fig. 2 according to the present invention.

In the figure: 1-corner combining machine cabinet, 2-corner combining processing box, 3-supporting flat plate, 4-aluminum profile workpiece body, 5-central groove, 6-buffering inner plate, 7-steering bracket, 8-lower cushion layer, 9-upper cushion layer, 10-connecting rod, 11-first spring, 12-limiting chuck, 13-second spring, 14-combined butt strap, 15-first guide rod, 16-sliding groove, 17-limiting square frame, 18-second guide rod, 19-main positioning block and 20-supporting rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution:

the utility model provides a can be to strutting arrangement of heavy group angle machine of numerical control for aluminium door and window of work piece buffering, including group angle machine rack 1, the both sides position of group angle machine rack 1 all rotates and is connected with support flat board 3, it has aluminium alloy work piece body 4 to support the top position arrangement of flat board 3, and support flat board 3's top face middle part position and seted up central groove 5 through integrative pouring shaping processing, the inside of central groove 5 is inlayed and is equipped with buffering inner panel 6, and the bottom middle part position fixedly connected with of buffering inner panel 6 turns to support 7, the bottom middle part position of turning to support 7 has glued upper cushion layer 9, and be provided with under the upper cushion layer 9 and underlay 8, the equal sliding connection in both sides position of turning to support 7 has connecting rod 10, and the first spring 11 and the second spring 13 have cup jointed respectively to the middle upper and lower side outside of connecting rod 10, the bottom position fixedly connected with of connecting rod 10 prescribes a limit to chuck 12.

As shown in fig. 1, a corner assembling processing box 2 is arranged above the top end face of a corner assembling machine cabinet 1, the top end face of the corner assembling machine cabinet 1 and the bottom face of an aluminum profile workpiece body 4 are arranged in a lap joint manner, a main positioning block 19 is movably arranged at the middle lower position of the top end face of the corner assembling machine cabinet 1, one end of the main positioning block 19 is distributed in a conical structure, under the cooperation of manual operation, after the aluminum profile workpiece body 4 which is spliced in advance and the connecting end of which forms an included angle of 90 degrees is arranged on the top end face of the corner assembling machine cabinet 1, the main positioning block 19 which is always connected with a hydraulic push rod can be used for pressing the corner assembling end of the aluminum profile workpiece body 4 by utilizing a conical structure at one end of the main positioning block to achieve a certain center limiting effect after the pushing operation from front to back is completed; a combined butt strap 14 is arranged above one side of the supporting flat plate 3, a sliding groove 16 is formed in one side of the inside of the supporting flat plate 3 through integral pouring forming, a supporting rod 20 is fixed to the middle of the bottom end of the supporting flat plate 3 through a bolt, and the supporting rod 20 and the supporting flat plate 3 are perpendicularly arranged.

As shown in fig. 1 and 2, a first guide rod 15 is slidably connected to the inside of the sliding groove 16, the first guide rods 15 are distributed in a T-shaped structure, a second guide rod 18 is arranged under the first guide rod 15, a limiting frame 17 is sleeved outside the second guide rod 18, the limiting frame 17 and the supporting plate 3 are integrally formed, the second guide rods 18 and the first guide rods 15 are integrally formed with the combined butt strap 14, the combined butt strap 14 is distributed in an L-shaped structure, the horizontal end of the combined butt strap 14 and one side end of the aluminum profile workpiece body 4 are attached to each other, before supporting operation is performed, the combined butt strap 14 subjected to manual traction force slides between the first guide rod 15 and the supporting plate 3 respectively, the second guide rod 18 and the limiting frame 17 are slidably connected, forward or reverse transverse stretching is performed in the central direction of the supporting plate 3, a group of workpieces can be connected with each other by a bolt member penetrating through the interiors of the limiting frame 17 and the second guide rod 18 to obtain a limited position, the combined butt strap 14 and the supporting plate 14 is connected with the limiting frame 17 in a sliding manner, and a group of the aluminum profile workpiece bodies can be connected in a manner, and a group of a protective plate 3 can be connected to a protective plate 3, and a group of aluminum profile workpiece can be connected to a protective plate 3, and a group of a protective plate can be connected to a protective plate 3, a protective plate can be connected manner, and a group of a protective plate 3, and a protective plate can be connected to a protective plate 3, and a protective plate can be connected to a protective plate.

Wherein, as shown in fig. 1 and fig. 2, a group of connecting rods 10 are respectively arranged between the buffer inner plate 6 and the buffer inner plate in an integrated forming way, a group of connecting rods 10 are arranged between the support flat plate 3 in an inserting way, the bottom end of the supporting flat plate 3 and the top end of the second spring 13 are fixed by spot welding, the bottom end of the second spring 13 and the top end of the limiting chuck 12 are fixed by spot welding, the supporting flat plate 3 is embedded between the central groove 5 and the steering bracket 7, an upper cushion layer 9 distributed in a U-shaped structure is bonded at the bottom of the steering support 7, the inner end of the upper cushion layer 9 is matched with the outer end of the lower cushion layer 8 in shape, the bottom surface of the lower cushion layer 8 and the inner side surface of the central groove 5 are adhered, the inner side surface of the central groove 5 and the bottom ends of a group of first springs 11 are fixed by spot welding, and the top ends of the first springs 11 and the bottom end of the steering bracket 7 are fixed by spot welding, and when the supporting device is combined to carry out corresponding supporting operation, the buffer inner plate 6 of the central groove 5 at the inner part can be stably supported by matching with the workpiece from the middle position of the support flat plate 3, when the workpiece is extruded by external force in the processing process and the extruded buffer inner plate 6 extrudes the spring group downwards, under the connection and matching of the central groove 5 and the limiting chuck 12, the steering bracket 7 flexibly protected by the clamping between the upper cushion layer 9 and the lower cushion layer 8 at the middle position of the bottom end carries the elastic reset action of the buffer inner plate 6 with the upward position through a group of connecting rods 10 and respectively by the resilience acting force generated after the deformation of the first spring 11 and the second spring 13, the inner buffer plate 6 will play a certain role of buffer protection to the extrusion of external force from the bottom position of the workpiece which receives the extrusion effect.

The working process is as follows: when realizing concatenation and link in advance and the group angle tip of the aluminium alloy work piece body 4 that the link constitutes a 90 degrees contained angle pushes group angle processing case 2 in advance, when utilizing inside to be equipped with about towards rivet the axle subassembly and carry out the punching press operation that corresponds, a set of dull and stereotyped 3 of support of connecting a set of bracing piece 20 all the time is when can realizing that the stable level is laid, the bottom position that will follow the work piece of required processing provides corresponding supporting role, the group angle processing operation of confirming the work piece can be more stable, under the cooperation of perpendicular setting, a set of bracing piece 20 can provide corresponding supporting force from the bottom position of a set of dull and stereotyped 3 of support, ensure that it can realize that the stable level is laid.

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

Claims (5)

1. The utility model provides a can be to the strutting arrangement of the heavy group angle machine of numerical control for aluminium door and window of work piece buffering, includes group angle machine rack (1), its characterized in that: the corner combining machine is characterized in that both sides of a cabinet (1) of the corner combining machine are rotatably connected with supporting plates (3), aluminum profile workpiece bodies (4) are arranged at the positions above the supporting plates (3), central grooves (5) are formed in the middle positions of the top end faces of the supporting plates (3) through integral pouring forming, buffering inner plates (6) are embedded into the central grooves (5), steering supports (7) are fixedly connected to the positions of the middle portions of the bottoms of the buffering inner plates (6), upper cushion layers (9) are bonded to the positions of the middle portions of the bottoms of the steering supports (7), lower cushion layers (8) are arranged under the upper cushion layers (9), connecting rods (10) are slidably connected to the positions of both sides of the steering supports (7), first springs (11) and second springs (13) are sleeved on the outer portions of the upper portion and the outer portions of the lower portion of the connecting rods (10), and limiting chucks (12) are fixedly connected to the positions of the bottom ends of the connecting rods (10).

2. The supporting device of the numerical control heavy type corner combining machine for the aluminum door and window capable of buffering the workpiece according to claim 1, wherein: the corner combining machine is characterized in that a corner combining processing box (2) is arranged above the top end face of the corner combining machine cabinet (1), the top end face of the corner combining machine cabinet (1) and the bottom face of the aluminum profile workpiece body (4) are in lap joint, a main positioning block (19) is movably mounted in the middle lower position of the top end face of the corner combining machine cabinet (1), and one end of the main positioning block (19) is distributed in a conical structure.

3. The supporting device of the numerical control heavy type angle combining machine for the aluminum door and window capable of buffering the workpiece according to claim 1, wherein: the combined butt strap (14) is arranged above one side of the supporting flat plate (3), a sliding groove (16) is formed in one side of the inner portion of the supporting flat plate (3) through integral pouring forming, a supporting rod (20) is fixed to the middle of the bottom end of the supporting flat plate (3) through bolts, and the supporting rod (20) and the supporting flat plate (3) are perpendicularly arranged.

4. The supporting device of the numerical control heavy type corner combining machine for the aluminum door and window capable of buffering the workpiece according to claim 3, wherein: the inside sliding connection of spout (16) has first guide arm (15), and the appearance of first guide arm (15) is "T" type structure distribution and sets up, be provided with second guide arm (18) under first guide arm (15), and the outside of second guide arm (18) has cup jointed and has prescribed a limit to square frame (17), prescribe a limit to integrated into one piece between square frame (17) and supporting plate (3) and set up, integrated into one piece sets up between second guide arm (18), first guide arm (15) respectively and combination attachment strap (14), and the appearance of combination attachment strap (14) is "L" type structure distribution and sets up, the laminating sets up between the horizontal end of combination attachment strap (14) and the side end of aluminium alloy work piece body (4).

5. The supporting device of the numerical control heavy type corner combining machine for the aluminum door and window capable of buffering the workpiece according to claim 1, wherein: a set of connecting rod (10) respectively with buffer inner panel (6) between integrated into one piece set up, a set of it sets up to alternate between connecting rod (10) and the support flat board (3), and support flat board (3) the bottom and second spring (13) the top between spot welding fixed, spot welding is fixed between the bottom of second spring (13) and the top of injecing chuck (12), support flat board (3) through central recess (5) and turn to embedded setting between support (7), and turn to the bottom position of support (7) and cohere the upper pad layer (9) that the appearance is "U" type structure distribution and sets up, the shape is identical between the inner of upper pad layer (9) and the outer end of under pad layer (8), and coheres between the medial surface of the bottom surface of under pad layer (8) and central recess (5) and set up, the medial surface of central recess (5) and a set of it is fixed to spot welding between the bottom of first spring (11), and a set of fixed spot welding between the top of first spring (11) and the bottom that turns to support (7).

Images