CN216575719U - Groove milling device for processing pull sheet groove of building template - Google Patents

Abstract

A groove milling device for processing a pull tab groove of a building template comprises a rack (1), a first mounting frame (2) connected with the rack, a first roller mounting plate (3) connected with the first mounting frame, a first guide rail (6), a first rack (7), a first groove milling mechanism (8) connected with the first mounting frame, a portal frame (10) connected with the rack, a second guide rail (11), a second rack (12) and a clamp traction positioning mechanism (13) connected with the portal frame, a third guide rail (15), a second mounting frame (16), a third servo motor (17), a spiral transmission mechanism (18) and a second roller mounting plate (19) connected with the rack, a transverse roller (4) and a longitudinal roller (5) connected with the first roller mounting plate and the second roller mounting plate, a fourth guide rail (20), a third rack (21) and a second groove milling mechanism (22) connected with the second mounting frame, a feeding conveying mechanism (24) and a discharging conveying mechanism (25) which are connected with the frame.

Description

Groove milling device for processing pull sheet groove of building template

Technical Field

The utility model relates to the technical field of building template processing, in particular to a groove milling device for processing a pull sheet groove of a building template.

Background

The aluminum template is a new generation template system appearing after a wood template and a steel template, is designed according to modulus, is extruded and molded by special equipment, and can be freely combined according to different structural sizes. The aluminum template pull tab system is one of aluminum template systems, and a pull tab reinforcing mode is used. The aluminum mould board system includes exterior sheathing and interior sheathing, adopt between exterior sheathing and the interior sheathing as the assistance-localization real-time instrument to the pulling-on piece, the splicing department to the pulling-on piece is located the aluminum panel, can form the concatenation seam, cause and leak thick liquid, for this reason, a solution is provided, set up the pulling-on piece groove that is used for holding the pulling-on piece around the aluminum panel promptly, the width in pulling-on piece groove equals the width to the pulling-on piece, the degree of depth in pulling-on piece groove equals half to pulling-on piece thickness, laminate completely to pulling-on piece and pulling-on piece groove during the installation, make the concatenation seam between the template narrow down or eliminate, avoid leaking thick liquid. Compared with a screw system, the pulling piece system does not need to be punched, holes cannot be reserved in the wall body after the mold is removed, and the risk of outer wall leakage is greatly reduced. The method has the characteristics of good construction quality, high installation efficiency, low cost and the like.

Therefore, the aluminum template needs to be subjected to groove milling in the machining process, and a groove milling device is used in the groove milling process. The groove milling device on the market is various nowadays, can satisfy people's user demand basically, but still has certain problem, and specific problem exists at least one of following: the working efficiency of the groove milling device for milling the grooves of the aluminum template is not high; the milling groove device rarely has a collection and treatment function on the scraps, so that the scraps are easy to float after the milling groove device is used; the groove milling device is rarely provided with the straightening function of the sectional material, so that the groove milling device is easy to deflect when the sectional material is placed, and the processing precision and the operation efficiency are influenced.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects of the prior art, the utility model provides a groove milling device for processing a pull sheet groove of a building template, which has the characteristics of high efficiency, convenience in straightening and section fixing.

In order to solve the technical problem, the groove milling device for processing the pull tab groove of the building template provided by the utility model comprises a frame, a first mounting frame connected with the frame, a first roller mounting plate connected with the first mounting frame, a first guide rail and a first rack connected with the first mounting frame, at least two first groove milling mechanisms connected with the first guide rail in a sliding manner, a first servo motor connected with the first groove milling mechanism, a first gear connected with the first servo motor in a transmission manner and meshed with the first rack, a portal frame connected with the frame, a second guide rail and a second rack connected with the portal frame, a clamp pulling and positioning mechanism connected with the second guide rail in a sliding manner, a second servo motor arranged on the clamp pulling and positioning mechanism, and a second gear connected with the second servo motor in a transmission manner and meshed with the second rack, a third guide rail connected with the frame, a second mounting bracket connected with the third guide rail in a sliding way, third servo motors respectively connected with two end parts of the frame, two spiral transmission mechanisms respectively connected with the third servo motors in a transmission way and connected with the second mounting bracket, a second roller mounting plate connected with the second mounting frame, a plurality of transverse rollers and longitudinal rollers respectively connected with the first roller mounting plate and the second roller mounting plate, a fourth guide rail and a third rack which are connected with the second mounting rack, at least two second milling groove mechanisms which are connected with the fourth guide rail in a sliding way, the fourth servo motor is connected with the second slot milling mechanism, the third gear is in transmission connection with the fourth servo motor and in meshed connection with the third rack, and the feeding conveying mechanism and the discharging conveying mechanism are respectively located at two ends of the rack and connected with the rack.

As a further improved technical scheme, the groove milling device for processing the pull tab groove of the building template provided by the utility model further comprises a milling scrap collecting conveyer belt positioned on one side of the rack, and a first conveyer belt and a second conveyer belt which are respectively positioned below milling cutters of the first groove milling mechanism and the second groove milling mechanism and are connected with the rack to convey milling scraps to the milling scrap collecting conveyer belt.

As a further improved technical solution, in the groove milling device for processing a pull tab groove of a building template provided by the utility model, the clamp pulling and positioning mechanism comprises a mounting plate slidably connected with the second guide rail, a second servo motor connected with the mounting plate, a fifth guide rail connected with the mounting plate, a clamp mounting frame slidably connected with the fifth guide rail, a first telescopic mechanism in which a cylinder is connected with the mounting plate and a piston rod is connected with the clamp mounting frame, a clamp hinged with the clamp mounting frame, and a second telescopic mechanism in which a cylinder is connected with the clamp mounting frame and a piston rod is hinged with the top end of the clamp.

On the basis of the above improved scheme, as a further improved technical scheme, the groove milling device for processing the pull tab groove of the building template provided by the utility model comprises a clamp, a first connecting rod and a second connecting rod, wherein the clamp comprises a jaw arm and a jaw arm which are hinged with a clamp mounting frame, the first connecting rod is connected with the jaw arm at a first end, the second connecting rod is connected with the jaw arm at a first end, and the other ends of the first connecting rod and the second connecting rod are connected with the second telescopic mechanism.

As a further improved technical proposal, the utility model provides a groove milling device for processing the pull tab groove of the building template, the first slot milling mechanism and the second slot milling mechanism both comprise slot milling mechanism bottom plates which are in sliding connection with the first guide rail or the fourth guide rail, a sixth guide rail connected with the bottom plate of the slot milling mechanism, a translation bottom plate connected with the sixth guide rail in a sliding way, a third telescopic mechanism of which a cylinder barrel is connected with the bottom plate of the slot milling mechanism and a piston rod is connected with the translation bottom plate, a milling mechanism mounting frame connected with the translation bottom plate, a milling cutter lifting guide rail connected with the milling mechanism mounting frame, a milling cutter mounting plate which is connected with the milling cutter lifting guide rail in a sliding way, a lifting mechanism which is connected with the translation bottom plate and the milling cutter mounting plate and drives the milling cutter mounting plate to lift, the milling cutter and the driving motor thereof are connected with the milling cutter mounting plate, and the first pressing mechanism and the second pressing mechanism are connected with the milling mechanism mounting frame; the first servo motor and the fourth servo motor are connected with a bottom plate of the slot milling mechanism.

On the basis of the above improved scheme, as a further improved technical scheme, the groove milling device for processing the pull piece groove of the building template provided by the utility model further comprises a chip collecting cover connected with the mounting frame of the milling mechanism and a chip collecting hopper connected with the mounting frame of the milling mechanism.

On the basis of the above improved scheme, as a further improved technical scheme, the groove milling device for processing the pull tab groove of the building template provided by the utility model comprises a cylinder connected with the mounting frame of the milling mechanism and a pressing rod connected with a piston rod of the cylinder, wherein the first pressing mechanism and the second pressing mechanism comprise cylinders connected with the mounting frame of the milling mechanism.

The aforementioned improvements can be implemented individually or in combination without conflict.

The technical scheme provided by the utility model has the characteristics of safety, high efficiency, convenience in operation, capability of reducing the labor intensity of operators and improving the production efficiency. The first roller mounting plate 3 and the second roller mounting plate are parallel to each other, a plurality of transverse rollers and longitudinal rollers are arranged on the first roller mounting plate, the transverse rollers are close to the inner sides of two side rib plates of the shape like the Chinese character 'shan', and the shape is not easy to deflect when being placed.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the utility model and together with the description serve to explain the utility model without limiting the utility model. In the drawings:

FIG. 1 is a schematic structural diagram of a groove milling device for machining a pull tab groove of a building template according to an embodiment;

FIG. 2 is a schematic view showing a part of a slot milling apparatus for processing a tension slot of a building panel according to an embodiment;

FIG. 3 is a schematic diagram of a second embodiment of a slot milling apparatus for processing a pull tab slot of a building panel;

FIG. 4 is a schematic structural view of a clamp pulling and positioning mechanism in an embodiment;

fig. 5 is a schematic structural diagram of the groove milling mechanism in the embodiment.

Detailed Description

The following describes embodiments of the present invention in further detail with reference to the accompanying drawings.

The groove milling device for processing the pull tab groove of the building template as shown in fig. 1 and fig. 2 comprises a frame 1, a first mounting frame 2 connected with the frame 1, a first roller mounting plate 3 connected with the first mounting frame 2, a first guide rail 6 and a first rack 7 connected with the first mounting frame 2, two first groove milling mechanisms 8 connected with the first guide rail 6 in a sliding manner, a first servo motor 9 connected with the first groove milling mechanism 8, a first gear connected with the first servo motor 9 in a transmission manner and meshed with the first rack 7, a door frame 10 connected with the frame 1, a second guide rail 11 and a second rack 12 connected with the door frame 10, a clamp pulling and positioning mechanism 13 connected with the second guide rail 11 in a sliding manner, a second servo motor 14 arranged on the clamp pulling and positioning mechanism 13, and a second gear connected with the second servo motor 14 in a transmission manner and meshed with the second rack 12, a third guide rail 15 connected with the frame 1, a second mounting rack 16 connected with the third guide rail 15 in a sliding way, third servo motors 17 respectively connected with two end parts of the frame 1, two spiral transmission mechanisms 18 respectively connected with the third servo motors 17 in a transmission way and connected with the second mounting rack 16, a second roller mounting plate 19 connected to the second mounting frame 16, a plurality of transverse rollers 4 and longitudinal rollers 5 connected to the first roller mounting plate 3 and the second roller mounting plate 19, respectively, a fourth guide rail 20 and a third rack 21 connected with the second mounting frame 16, at least two second milling groove mechanisms 22 connected with the fourth guide rail 20 in a sliding way, a fourth servo motor 23 connected with the second milling groove mechanism 22, a third gear connected with the fourth servo motor 23 in a transmission manner and meshed with the third rack 21, and a feeding conveying mechanism 24 and a discharging conveying mechanism 25 respectively positioned at two ends of the rack 1 and connected with the rack 1.

At present, the building templates are mostly steel templates and aluminum templates, and comprise a large template, two end sealing plates and rib plates, wherein the large template is a stretch-formed section bar in a shape like a Chinese character 'shan', and comprises a bottom plate, two side rib plates and a middle rib plate, and the large template section bar is produced in batches by manufacturers. When in use, the large plate section is driven by the feeding and conveying mechanism 24 and enters from the feeding and conveying mechanism 24, the large plate section is reversely buckled on the transverse roller 4 and the longitudinal roller 5, the transverse roller 4 is tightly close to the inner sides of two side ribs of the Chinese character 'shan' shaped section, the longitudinal roller 5 is tightly close to the inner side of the bottom plate of the Chinese character 'shan' shaped section, the transverse roller 4 and the longitudinal roller 5 are in rolling contact with the large plate section, on one hand, the large plate section can conveniently move longitudinally along the transverse roller 4 and the longitudinal roller 5, on the other hand, the transverse position of the large plate section can be fixed to prevent deflection, when the feeding and conveying mechanism 24 moves the large plate section to the transverse roller 4 and the longitudinal roller 5, the clamp drawing and positioning mechanism 13 clamps one end of the large plate section, and the second servo motor 14 drives the clamp drawing and positioning mechanism 13 to move along the second guide rail 11, so that the large plate section is processed, positioned and moved. The screw drive mechanism 18 can push the second mounting frame 16 to move along the third guide rail 15, so that the distance between the first roller mounting plate 3 and the second roller mounting plate 19 can be adjusted, and the processing of sectional materials with different widths can be adapted. The first roller mounting plate 3 and the second roller mounting plate 19 are parallel to each other, a plurality of transverse rollers 4 and longitudinal rollers 5 are arranged on the first roller mounting plate and the second roller mounting plate, the transverse rollers 4 are abutted against the inner sides of two side rib plates of the E-shaped section bar, and the section bar cannot be inclined when being placed.

As shown in fig. 3, the slot milling device for processing the building template pull slot further comprises a milling scrap collecting conveyor 26 located on one side of the frame 1, and a first conveyor 27 and a second conveyor 28 connected to the frame 1 and conveying the milling scraps to the milling scrap collecting conveyor 26, respectively located below the milling cutters of the first slot milling mechanism 8 and the second slot milling mechanism 22. The milling scrap collecting conveyor belt 26, the first conveyor belt 27 and the second conveyor belt 28 collect the milling scraps, so that the first milling groove mechanism 8 and the second milling groove mechanism 22 are prevented from generating the drifting of the milling scraps in the use process.

As shown in fig. 4, the clamp pulling and positioning mechanism 13 includes a mounting plate 29 slidably connected to the second guide rail 11, a second servo motor 14 connected to the mounting plate 29, a fifth guide rail 30 connected to the mounting plate 29, a clamp mounting bracket 31 slidably connected to the fifth guide rail 30, a first telescopic mechanism 32 having a cylinder connected to the mounting plate 29 and a piston rod connected to the clamp mounting bracket 31, a clamp 33 (see fig. 1) hinged to the clamp mounting bracket 31, and a second telescopic mechanism 34 having a cylinder connected to the clamp mounting bracket 31 and a piston rod hinged to a top end of the clamp 33. The clamp 33 includes a jaw arm 35 and a jaw arm 36 respectively hinged to the clamp mounting bracket 31, a first link 37 having a first end connected to the jaw arm 35, a second link 38 having a first end connected to the jaw arm 36, and the other ends of the first link 37 and the second link 38 connected to the second telescopic mechanism 34.

As shown in fig. 4, when the piston rod of the second telescoping mechanism 34 is extended, the lower jaw arm 35 and the upper jaw arm 36 grip the profile; when the piston rod of the second telescopic mechanism 34 is retracted, the jaw arm 35 and the jaw arm 36 are released. The piston rod of the first telescopic mechanism 32 is telescopic to drive the clamp mounting frame 31 to descend and ascend, and when the section bar needs to be clamped, the piston rod of the first telescopic mechanism 32 extends out, so that the clamp moves to the position of the bottom plate of the section bar in the shape of the Chinese character 'shan', and then the bottom plate of the section bar is clamped. When the piston rod of the first telescopic mechanism 32 is contracted, the clamp mounting frame 31 and the clamp 33 are lifted and positioned above the bottom plate of the E-shaped section bar, so that the section bar can pass through the clamp mounting frame conveniently. After the profile is clamped by the clamp 33, the second servo motor 14 drives the clamp traction positioning mechanism 13 to move along the second guide rail 11, so as to push the profile to move along the transverse roller 4 and the longitudinal roller 5, thereby realizing the positioning or output of the profile.

As shown in fig. 5, each of the first slot milling mechanism 8 and the second slot milling mechanism 22 includes a slot milling mechanism bottom plate 39 slidably connected to the first guide rail 6 or the fourth guide rail 20, a sixth guide rail 40 connected to the slot milling mechanism bottom plate 39, a translation bottom plate 41 slidably connected to the sixth guide rail 40, a third telescopic mechanism 42 having a cylinder connected to the slot milling mechanism bottom plate 39 and a piston rod connected to the translation bottom plate 41, a milling mechanism mounting bracket 43 connected to the translation bottom plate 41, a milling cutter lifting guide rail 44 connected to the milling mechanism mounting bracket 43, a milling cutter mounting plate 45 slidably connected to the milling cutter lifting guide rail 44, a lifting mechanism 46 connected to the translation bottom plate 41 and the milling cutter mounting plate 45 and configured to lift the milling cutter mounting plate 45, a milling cutter 47 connected to the milling cutter mounting plate 45 and a driving motor thereof, and a first pressing mechanism 48 and a second pressing mechanism 49 connected to the milling mechanism mounting bracket 43; the first servo motor 9 and the fourth servo motor 23 are both connected with the groove milling mechanism bottom plate 39.

As shown in fig. 1, 2 and 5, the first servo motor 9 can drive the first slot milling mechanism 8 to move along the first guide rail 6, the fourth servo motor 23 can drive the second slot milling mechanism 22 to move along the fourth guide rail 20, and the first slot milling mechanism 8 and the second slot milling mechanism 22 can be positioned according to the slot milling position requirement of the profile. The third telescopic mechanism 42 drives the translation bottom plate 41 to move, so that the milling cutter 47 is driven to move back and forth, the processing depth and the one-time washing and cutting amount of the milling groove can be adjusted, the lifting mechanism 46 drives the milling cutter mounting plate 45 to lift, the milling cutter 47 is driven to move up and down, and the milling cutter can move up and down and adjust the length of the milling groove. During milling, the first pressing mechanism 48 and the second pressing mechanism 49 press the section bar, so that the processing is facilitated.

As shown in fig. 5, the groove milling device for processing the pull tab groove of the building template further comprises a chip collecting cover 50 connected with the mounting frame 43 of the milling mechanism and a chip collecting hopper 51 connected with the mounting frame 43 of the milling mechanism. The scrap collecting cover 50 and the scrap collecting hopper 51 can prevent scraps from flying during the processing.

As shown in fig. 5, the first pressing mechanism 48 and the second pressing mechanism 49 of the groove milling device for processing the pull tab groove of the building template comprise an air cylinder connected with the mounting frame 43 of the milling mechanism and a pressing rod connected with the piston rod of the air cylinder.

The technical scheme provided by the utility model has the characteristics of safety, high efficiency, convenience in operation, capability of reducing the labor intensity of operators and improving the production efficiency. The building template processing to different width, thickness, length can be adapted to, and first gyro wheel mounting panel 3 and second gyro wheel mounting panel 19 are parallel to each other, set up a plurality of horizontal gyro wheels 4 and longitudinal roller 5 on it, and horizontal gyro wheel 4 is inboard near two boundary plate inboards of "mountain" font section bar, is difficult for producing the incline when placing the section bar, can realize straightening to the section bar.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention in any way, and various modifications and variations of the present invention will be apparent to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. A slot milling device for processing a pull tab slot of a building template is characterized by comprising a rack (1), a first mounting frame (2) connected with the rack (1), a first roller mounting plate (3) connected with the first mounting frame (2), a first guide rail (6) and a first rack (7) connected with the first mounting frame (2), at least two first slot milling mechanisms (8) in sliding connection with the first guide rail (6), a first servo motor (9) connected with the first slot milling mechanisms (8), a first gear in transmission connection with the first servo motor (9) and in meshing connection with the first rack (7), a gantry (10) connected with the rack (1), a second guide rail (11) and a second rack (12) connected with the gantry (10), and a clamp traction positioning mechanism (13) in sliding connection with the second guide rail (11), a second servo motor (14) arranged on the clamp traction positioning mechanism (13), a second gear connected with the second servo motor (14) in a transmission manner and meshed with the second rack (12), a third guide rail (15) connected with the rack (1), a second mounting rack (16) connected with the third guide rail (15) in a sliding manner, third servo motors (17) respectively connected with two end parts of the rack (1), two spiral transmission mechanisms (18) respectively connected with the third servo motors (17) in a transmission manner and connected with the second mounting rack (16), a second roller mounting plate (19) connected with the second mounting rack (16), a plurality of transverse rollers (4) and longitudinal rollers (5) respectively connected with the first roller mounting plate (3) and the second roller mounting plate (19), and a fourth guide rail (20) and a third rack (21) connected with the second mounting rack (16), the automatic groove milling machine comprises at least two second groove milling mechanisms (22) in sliding connection with the fourth guide rail (20), a fourth servo motor (23) connected with the second groove milling mechanisms (22), a third gear in transmission connection with the fourth servo motor (23) and in meshed connection with the third rack (21), and a feeding conveying mechanism (24) and a discharging conveying mechanism (25) which are located at two ends of the rack (1) and connected with the rack (1) respectively.

2. The slot milling device for processing the pull tab slot of the building template according to claim 1, further comprising a milling scrap collecting conveyor belt (26) positioned on one side of the frame (1), and a first conveyor belt (27) and a second conveyor belt (28) respectively positioned below the milling cutters of the first slot milling mechanism (8) and the second slot milling mechanism (22) and respectively connected with the frame (1) and used for conveying milling scraps to the milling scrap collecting conveyor belt (26).

3. The slot milling device for machining the pull tab slot of the building template as recited in claim 1, wherein the clamp pulling and positioning mechanism (13) comprises a mounting plate (29) slidably connected with the second guide rail (11), a second servo motor (14) connected with the mounting plate (29), a fifth guide rail (30) connected with the mounting plate (29), a clamp mounting frame (31) slidably connected with the fifth guide rail (30), a first telescopic mechanism (32) with a cylinder connected with the mounting plate (29) and a piston rod connected with the clamp mounting frame (31), a clamp (33) hinged with the clamp mounting frame (31), a second telescopic mechanism (34) with a cylinder connected with the clamp mounting frame (31) and a piston rod hinged with the top end of the clamp (33).

4. The slot milling apparatus for processing the pull tab slot of the building template according to claim 3, wherein the clamp comprises a jaw arm (35) and a jaw arm (36) hinged with the clamp mounting frame (31), a first connecting rod (37) having a first end connected with the jaw arm (35), a second connecting rod (38) having a first end connected with the jaw arm (36), and the other ends of the first connecting rod (37) and the second connecting rod (38) are connected with the second telescopic mechanism (34).

5. The slot milling device for processing the pull tab slot of the building template as claimed in claim 1, wherein the first slot milling mechanism (8) and the second slot milling mechanism (22) each comprise a slot milling mechanism base plate (39) slidably connected with the first guide rail (6) or the fourth guide rail (20), a sixth guide rail (40) connected with the slot milling mechanism base plate (39), a translation base plate (41) slidably connected with the sixth guide rail (40), a third telescopic mechanism (42) having a cylinder connected with the slot milling mechanism base plate (39) and a piston rod connected with the translation base plate (41), a milling mechanism mounting frame (43) connected with the translation base plate (41), a milling cutter lifting guide rail (44) connected with the milling mechanism mounting frame (43), a milling cutter mounting plate (45) slidably connected with the milling cutter lifting guide rail (44), a milling cutter mounting plate (45) connected with the translation base plate (41) and the milling cutter mounting plate (45), The lifting mechanism (46) drives the milling cutter mounting plate (45) to lift, the milling cutter (47) and the driving motor thereof connected with the milling cutter mounting plate (45), and the first pressing mechanism (48) and the second pressing mechanism (49) connected with the milling mechanism mounting frame (43); the first servo motor (9) and the fourth servo motor (23) are connected with a groove milling mechanism bottom plate (39).

6. The slot milling device for processing the pull tab slot of the building template as recited in claim 5, further comprising a chip collecting cover (50) connected with the milling mechanism mounting frame (43), and a chip collecting hopper (51) connected with the milling mechanism mounting frame (43).

7. The slot milling apparatus for processing the pull tab slot of the building template as recited in claim 5, wherein the first pressing mechanism (48) and the second pressing mechanism (49) comprise an air cylinder connected with the milling mechanism mounting frame (43), and a pressing rod connected with a piston rod of the air cylinder.

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