CN205869177U - Large aperture turn -ups equipment - Google Patents

Abstract

The utility model relates to a large aperture turn -ups equipment, characteristics are pressed from both sides mode structure, the 2nd transmission structure, connecting rod structure, left side clamp mode structure, are pulled out head and the 3rd transmission structure including frame, a transmission structure, mounting bracket, the right side, a transmission structure's output shaft is connected with the one end of mounting bracket, the one end of connecting rod structure is rotated with the frame and is connected, and the other end and the right side clamp mode structure rotation of connecting rod structure are connected, thereby the output shaft drive connecting rod structure of secondary drive structure drives the right side presss from both sides mode structure horizontal migration in the frame, left side clamp mode structure is mutually supported to press from both sides with right side clamp mode structure and is established the copper pipe, is equipped with the through -hole in the clamp mode structure of a left side, and the tip that pulls out the head is equipped with the groove of plugging into, and the groove of plugging into communicates with each other with the through -hole, the 3rd transmission structure establishes on the other end of mounting bracket, thereby the 3rd transmission structure's output shaft can be inserted to establish to drive in the groove of into plugging into and pulls out first worked copper pipe. Its advantage does: this equipment adopts horizontal type structure, and it is big that equipment lands the area, and the atress is average, and degree of automation is high, and work efficiency is high.

Description

Large aperture flanging device

Technical field

This utility model relates to a kind of large aperture flanging device.

Background technology

At present, the built-in Large Diameter Pipeline used in household appliances pulls out greatly hole copper pipe, uses upright drill drawing molding, equipment The area that lands is little, and stress is relatively big, causes service life of equipment short, and equipment design difficulty is big, is unfavorable for mass production, raw Product efficiency is low.

Summary of the invention

The purpose of this utility model is to overcome the deficiencies in the prior art to provide a kind of large aperture flanging device, and this equipment is adopted With horizontal type structure, the equipment area that lands is big, and mean forced, automaticity is high, and work efficiency is high, it is possible to achieve metaplasia in batches Produce, reduce the production cost of product, improve the quality of production of product.

In order to achieve the above object, this utility model is achieved in that it is a kind of large aperture flanging device, its feature It is to include:

Frame, the first drive mechanism and installing rack；Described first drive mechanism is located in frame, the first drive mechanism defeated Shaft is connected with one end of installing rack thus drives installing rack to move horizontally in frame；

Right mould clamping structure, the second drive mechanism and bar linkage structure；Described right mould clamping structure is located in frame and can level move Dynamic, one end of described bar linkage structure is connected with gantry rotation, and the other end of bar linkage structure is rotationally connected with right mould clamping structure, described Second drive mechanism is located in frame, the output shaft drivening rod structure of the second drive mechanism thus drive right mould clamping structure at machine Move horizontally on frame and make right mould clamping structure coordinate sandwiched copper pipe with left mould clamping structure；

Left mould clamping structure and plug；Described left mould clamping structure and plug are each provided in frame, and described left mould clamping structure is with right Mould clamping structure cooperates sandwiched copper pipe, is provided with through hole in left mould clamping structure, and the end of described plug is provided with plugging into radially Groove, described feeder slot communicates with through hole；And

3rd drive mechanism；Described 3rd drive mechanism is located on the other end of installing rack and moves with installing rack, and the 3rd The output shaft of drive mechanism may pass through through hole plug in feeder slot thus drive plug process copper pipe.

In the technical program, described bar linkage structure includes first connecting rod and second connecting rod, described second drive mechanism bag Including the second cylinder and bearing, described bearing is located in frame, is provided with cross bar, the top of described second cylinder and cross bar on bearing Being rotationally connected, one end of described first connecting rod and one end of second connecting rod output shaft rotation with the second cylinder respectively is connected, and The other end of one connecting rod is rotationally connected with right mould clamping structure thus drives right mould clamping structure to move horizontally, the other end of second connecting rod It is connected with gantry rotation.

In the technical program, described right mould clamping structure includes right clamping and right clamping seat, at the end of described right clamping seat Portion is provided with slide block, is provided with chute in described frame, and described slide block is positioned in chute and removable so that right clamping seat is at machine Moving horizontally on frame, described right clamping is located on right clamping seat and moves with right clamping seat, and the other end of described first connecting rod is with right Clamping seat is rotationally connected thus drives right clamping seat to move horizontally in frame and make right clamping coordinate sandwiched copper with left mould clamping structure Pipe.

In the technical program, described first drive mechanism is the first cylinder, the output shaft of described first cylinder and installation Frame connects.

In the technical program, described 3rd drive mechanism is motor, and the output shaft of described motor can plug into feeder slot In thus drive plug process copper pipe.

This utility model advantage compared with prior art is: this equipment uses horizontal type structure, and the equipment area that lands is big, is subject to Power is average, and automaticity is high, and work efficiency is high, it is possible to achieve mass production, reduces the production cost of product, improves The quality of production of product.

Accompanying drawing explanation

Fig. 1 is axonometric chart of the present utility model；

Fig. 2 is top view of the present utility model；

Fig. 3 is the cutaway view Amplified image of A-A in Fig. 2；

Fig. 4 is the cutaway view Amplified image of B-C-C-B in Fig. 3.

Detailed description of the invention

Below in conjunction with the accompanying drawings detailed description of the invention of the present utility model is described further.At this it should be noted that Explanation with these embodiments is understood this utility model with help, but is not intended that restriction of the present utility model.This Outward, as long as technical characteristic involved in each embodiment of this utility model disclosed below does not constitutes punching each other Dash forward and just can be combined with each other.

In this utility model describes, orientation or the position relationship of the instruction such as term "left", "right", " top " and " end " are base With orientation shown in the drawings or position relationship, merely to just with this utility model rather than require that this utility model is necessary is described With specific azimuth configuration and operation, therefore it is not intended that to restriction of the present utility model.

In description of the present utility model, term " first ", " second " and " the 3rd " only with purpose is described, and can not manage Solve as instruction or hint relative importance.

As shown in Figures 1 to 4, it is a kind of large aperture flanging device, including:

Frame the 2, first drive mechanism 5 and installing rack 6；Described first drive mechanism 5 is located in frame 2, the first transmission knot The output shaft of structure 5 is connected with one end of installing rack 6 thus drives installing rack 6 to move horizontally in frame 2；

Right mould clamping structure the 3, second drive mechanism 4 and bar linkage structure；Described right mould clamping structure 3 is located in frame 2 and can water Translation is dynamic, and one end of described bar linkage structure is rotationally connected with frame 2, and the other end of bar linkage structure rotates even with right mould clamping structure 3 Connecing, described second drive mechanism 4 is located in frame 2, and the output shaft drivening rod structure of the second drive mechanism 4, attachment structure is again Driving right mould clamping structure 3 to move horizontally in frame 2 makes right mould clamping structure 3 coordinate sandwiched copper pipe with left mould clamping structure 1；

Left mould clamping structure 1 and plug 8；Described left mould clamping structure 1 and plug 8 are each provided in frame 2, described left mould clamping structure 1 cooperates sandwiched copper pipe with right mould clamping structure 3, is provided with through hole 11 in left mould clamping structure 1, and the end of described plug 8 is provided with Feeder slot 81 radially, described feeder slot 81 communicates with through hole 11；And

3rd drive mechanism 7；Described 3rd drive mechanism 7 is located on the other end of installing rack 6 and moves with installing rack 6 level Dynamic, the output shaft 71 of the 3rd drive mechanism 7 may pass through through hole 11 and plugs in feeder slot 81 thus drive plug 8 to process copper pipe.

During work, right mould clamping structure 3 under the drive of bar linkage structure to the left mould clamping structure 1 direction move, make right clamping tie Structure 3 and left mould clamping structure 1 cooperate sandwiched copper pipe, and the first drive mechanism 5 drives installing rack 6 to move horizontally in frame 2, peace Shelving 6 drive the 3rd drive mechanisms 7 to move horizontally towards left mould clamping structure 1 direction, the outfan 71 of the 3rd drive mechanism 7 is by logical Hole 11 plugs in feeder slot 81 thus drives plug 8 to process copper pipe；Owing to equipment uses horizontal type structure, the equipment area that lands is big, Uniform force, beneficially mass production.

In the present embodiment, described bar linkage structure includes first connecting rod 9 and second connecting rod 10, described second drive mechanism 4 Including the second cylinder 41 and bearing 42, described bearing 42 is located in frame 2, is provided with cross bar 421, described second gas on bearing 42 The top of cylinder 41 is rotationally connected with cross bar 421, one end of described first connecting rod 9 and one end of second connecting rod 10 respectively with the second gas The output shaft rotation of cylinder 41 connects, and the other end of first connecting rod 9 and right mould clamping structure 3 are rotationally connected thus drive right mould clamping structure 3 move horizontally in frame 2, and the other end of second connecting rod 10 is rotationally connected with frame 2.During work, the output of the second cylinder 41 End drives first connecting rod 9 and second connecting rod 10 to swing up and down, and such first connecting rod 9 and second connecting rod 10 drive right mould clamping structure 3 Frame 2 moves horizontally.

In the present embodiment, described right mould clamping structure 3 includes right clamping 31 and right clamping seat 32, at described right clamping seat 32 Bottom be provided with slide block 321, described frame 2 is provided with chute 21, described slide block 321 be positioned in chute 21 and removable thus Making right clamping seat 32 move horizontally in frame 2, described right clamping 31 is located on right clamping seat 32 and moves with right clamping seat 32, institute The other end stating first connecting rod 9 is rotationally connected with right clamping seat 32 thus drives right clamping seat 32 to move horizontally in frame 2.Work When making, first connecting rod 9 and second connecting rod 10 swing up and down, and such first connecting rod 9 and second connecting rod 10 drive right clamping seat 32 to exist Moving horizontally in frame 2, right clamping seat 32 moves horizontally the right clamping 31 of drive and moves and make right clamping 31 coordinate with left mould clamping structure 1 Sandwiched copper pipe.

In the present embodiment, described first drive mechanism 5 is the first cylinder, the output shaft of described first cylinder and installing rack 6 connect.

In the present embodiment, described 3rd drive mechanism 7 is motor, and the output shaft of described motor can plug into feeder slot 81 In thus drive plug 8 to process copper pipe

Above in association with accompanying drawing, embodiment of the present utility model is explained in detail, but this utility model does not limits to and institute The embodiment described.To with those of ordinary skill in the art for, without departing from principle of the present utility model and objective In the case of these embodiments are carried out multiple change, revise, replace and deform and still fall within protection domain of the present utility model In.

Claims (5)

1. a large aperture flanging device, it is characterised in that including:

Frame (2), the first drive mechanism (5) and installing rack (6)；Described first drive mechanism (5) is located in frame (2), and first The output shaft of drive mechanism (5) is connected with one end of installing rack (6) thus drives installing rack (6) to move horizontally in frame (2)；

Right mould clamping structure (3), the second drive mechanism (4) and bar linkage structure；Described right mould clamping structure (3) is located in frame (2) also Horizontally moveable, one end of described bar linkage structure is rotationally connected with frame (2), the other end of bar linkage structure and right mould clamping structure (3) being rotationally connected, described second drive mechanism (4) is located in frame (2), the output shaft drivening rod of the second drive mechanism (4) Structure thus drive right mould clamping structure (3) to move horizontally in frame (2)；

Left mould clamping structure (1) and plug (8)；Described left mould clamping structure (1) and plug (8) are each provided in frame (2), described left folder Mode structure (1) and right mould clamping structure (3) cooperate sandwiched copper pipe, are provided with through hole (11) in left mould clamping structure (1), described in pull out The end of head (8) is provided with feeder slot (81) radially, and described feeder slot (81) communicates with through hole (11)；And

3rd drive mechanism (7)；Described 3rd drive mechanism (7) is located on the other end of installing rack (6) and moves with installing rack (6) Dynamic, the output shaft (71) of the 3rd drive mechanism (7) may pass through through hole (11) and plugs in feeder slot (81) thus drive plug (8) Processing copper pipe.

Large aperture the most according to claim 1 flanging device, it is characterised in that described bar linkage structure includes first connecting rod (9) And second connecting rod (10), described second drive mechanism (4) includes the second cylinder (41) and bearing (42), and described bearing (42) is located at In frame (2), being provided with cross bar (421) on bearing (42), the top of described second cylinder (41) rotates even with cross bar (421) Connecing, one end of described first connecting rod (9) and one end of second connecting rod (10) are respectively with the output shaft rotation of the second cylinder (41) even Connecing, the other end of first connecting rod (9) is rotationally connected with right mould clamping structure (3) thus drives right mould clamping structure (3) to move horizontally and make Right mould clamping structure (3) coordinates sandwiched copper pipe, the other end of second connecting rod (10) to rotate even with frame (2) with left mould clamping structure (1) Connect.

Large aperture the most according to claim 2 flanging device, it is characterised in that described right mould clamping structure (3) includes right clamping (31) and right clamping seat (32), it is provided with slide block (321) in the bottom of described right clamping seat (32), described frame (2) is provided with Chute (21), described slide block (321) is positioned in chute (21) and removable so that right clamping seat (32) is in the upper level of frame (2) Mobile, described right clamping (31) is located at right clamping seat (32) on the movement of right clamping seat (32), another of described first connecting rod (9) End with right clamping seat (32) be rotationally connected thus drive right clamping seat (32) move horizontally in frame (2) make right clamping (31) with Left mould clamping structure (1) coordinates sandwiched copper pipe.

Large aperture the most according to claim 1 flanging device, it is characterised in that described first drive mechanism (5) is the first gas Cylinder, the output shaft of described first cylinder is connected with installing rack (6).

Large aperture the most according to claim 1 flanging device, it is characterised in that described 3rd drive mechanism (7) is motor, The output shaft of described motor can plug in feeder slot (81) thus drive plug (8) to process copper pipe.