CN208912878U - Automatic flanging device - Google Patents

Abstract

The utility model relates to automatic flanging devices, comprising: flanging die, limiting device, top board；The top of drive shaft is arranged in the flanging die, and flanging die is connected with drive shaft by embedded mode；The middle position of internal body is arranged in the limiting device, and limiting device is bolted mode with body and is connected；The bottom end of cylinder is arranged in the top board, and top board is bolted mode with cylinder and is connected；The right positions of internal body are arranged in the lower bolster, and lower bolster is bolted mode with body and is connected.By the improvement in structure, there is flange position consistency, and have automatic flanging machining function and improve processing efficiency, and structure is simple, convenient for operation, the advantages that saving cost, thus the problem of effective solution the utility model proposes in background technique one and deficiency.

Description

Automatic flanging device

Technical field

The utility model relates to sheet metal flange technical fields, more specifically, more particularly to a kind of sheet metal from Dynamic flanging device.

Background technique

In metal-working industry, flange processing usually is done to the edge of relatively thin sheet metal, can not only be reinforced The rigidity of sheet metal can also facilitate and carry out splicing or welding using flange between plate, and also owe on the market at present A kind of fully-automatic equipment for carrying out flange processing for relatively thin sheet metal is lacked, manual operation is resulted in relying on, substantially reduces and adds Work efficiency rate, and easily cause flange position inconsistent, cause the flange position between workpiece irregular, causes processing quality It cannot effectively improve.

In view of this, studied improvement for existing problem, provide that a kind of flange processing is high-efficient, and flange is consistent Automatic flanging device, it is intended to by the technology, achieve the purpose that solve the problems, such as and improve practical value.

Utility model content

The purpose of this utility model is to provide automatic flanging devices, to solve current city mentioned above in the background art It is also short of a kind of fully-automatic equipment for carrying out flange processing for relatively thin sheet metal on face, results in relying on manual operation, greatly It is big to reduce processing efficiency, and easily cause flange position inconsistent, cause the flange position between workpiece irregular, causes Processing quality cannot effectively improve problem and shortage.

To achieve the above object, the utility model provides automatic flanging device, is reached by technological means in detail below:

Automatic flanging device, comprising: body, operation panel, translating device, flange motor, drive shaft, turns over control device Side mode tool, cylinder, limiting device, top board, lower bolster, discharge port, conveyer belt, positioning device, feed inlet, pedestal, cover board, cunning Seat；The control device is arranged on the outer wall of body side, and control device is bolted mode with body and is connected； The operation panel is arranged on the outer wall on control device top, and operation panel is connected with control device by embedded mode It connects；The right positions of the translating device setting internal body, and translating device is bolted mode with body and is connected； The upper surface of slide is arranged in the flange motor, and flange motor is bolted mode with slide and is connected；The drive One end of flange motor is arranged in moving axis, and drive shaft is connected with flange motor by embedded mode；The flanging die is set It sets on the top of drive shaft, and flanging die is connected with drive shaft by embedded mode；The cylinder is separately positioned on body The leftward position in internal middle position and cover board lower surface, and cylinder is bolted mode with body and cover board and is connected It connects；The middle position of internal body is arranged in the limiting device, and limiting device is bolted mode with body and is connected It connects；The bottom end of cylinder is arranged in the top board, and top board is bolted mode with cylinder and is connected；The lower bolster The right positions of internal body are set, and lower bolster is bolted mode with body and is connected；The discharge port is located at On the outer wall of right side of machine body, and discharge port is an integral structure with body；The conveyer belt is placed on the left end of body；It is described fixed Position device is arranged on the outer wall of body left end bottom, and positioning device is connected with body by welding manner；The charging Mouth is located on the outer wall of left side of machine body, and feed inlet is an integral structure with body；The pedestal is arranged in rectangular arrangement pattern In the bottom of body, and pedestal is connected with body by screw thread twist-on mode；The top of body is arranged in the cover board, and covers Plate is bolted mode with body and is connected；The upper surface of translating device is arranged in the slide, and slide and translation fill It sets and is connected by lead screw.

As advanced optimizing for the technical program, body described in the utility model automatic flanging device is rectangular-shaped, and The middle position of body left end offers the notch of U-shape, and the right side of U-shape notch that body opens up is discharge port, right side For feed inlet, centre is the placing groove of conveyer belt.

As advanced optimizing for the technical program, operation panel described in the utility model automatic flanging device is SA touching Display screen is touched, and is connected between operation panel and control device by cable.

As advanced optimizing for the technical program, translating device described in the utility model automatic flanging device is in for inside Horizontal mode offers the oblong-shaped of U-lag at three, and is equipped in the U-lag among translating device by fixing seat Lead screw.

As advanced optimizing for the technical program, the top of slide described in the utility model automatic flanging device is rectangle Shape, lower part are provided with the rectangular shaped slider to match at three with U-lag at three inside translating device in horizontal mode, and sliding The internal thread through hole to match with the lead screw being mounted in translating device is provided in rectangular shaped slider among seat bottom.

As advanced optimizing for the technical program, flanging die described in the utility model automatic flanging device is rotary table Shape, and the mounting height of flanging die is consistent with the upper surface of lower bolster with center location.

As advanced optimizing for the technical program, lower bolster described in the utility model automatic flanging device and top board are equal The non-slip groove of U-shape at N is offered in horizontal mode for oblong-shaped, and on lower bolster.

As advanced optimizing for the technical program, limiting device described in the utility model automatic flanging device is by being mounted on The cylinder in internal body middle position and the rectangle baffle composition of top welding, and the rectangle baffle on limiting device is under Spacing distance between backing plate is the flanging length of workpiece.

As advanced optimizing for the technical program, cover board described in the utility model automatic flanging device is rectangular-shaped, and The symmetrical mode in the side of cover board lower surface is equipped with the cylinder for fixing top board.

As advanced optimizing for the technical program, control device described in the utility model automatic flanging device is existing skill PLC control cabinet in art, and control device pass through respectively servo motor on cable and translating device, flange motor, cylinder and Conveyer belt is mutually electrically connected.

Due to the application of the above technical scheme, the utility model has the advantage that compared with prior art

1, the utility model automatic flanging device, by will cut to flange workpiece be close to the inner wall of positioning device by It is sent on lower bolster at feed inlet by conveyer belt, and prevents from inclining to flange workpiece by limiting device and positioning device Tiltedly, then from cylinder top board cooperation lower bolster is driven to treat flange workpiece and securely clamped, so that guarantee is to flange workpiece Firm grip and fixed position are less prone to inclination, the advantage for avoiding flange position inconsistent.

2, the utility model automatic flanging device, while driving flange motor to carry out transverse shifting using translating device, with And flange motor drives flanging die to carry out quick rotation by drive shaft, to the flange being clamped among top board and lower bolster Workpiece carries out after rolling flange, has conveyer belt to send out from discharge port, to realize automatic flanging purpose, then substantially increases pair Flange work pieces process efficiency.

3, the utility model automatic flanging device, by making the structural of the device to the integrally-built design of the device Simply, convenient for operation, and production and processing cost is saved.

4, the utility model has flange position consistency by the improvement to above structure, and has automatic flanging processing Function improves processing efficiency and structure is simple, convenient for operation, the advantages that saving cost, so that this is practical for effective solution Novel the problem of being proposed in background technique one and deficiency.

Detailed description of the invention

The attached drawing constituted part of this application is used to provide a further understanding of the present invention, the utility model Illustrative embodiments and their description are not constituteed improper limits to the present invention for explaining the utility model.In attached drawing In:

Fig. 1 is the structural schematic diagram of the utility model；

Fig. 2 is the housing construction schematic diagram of the utility model；

Fig. 3 is the limiting device mounting structure schematic diagram of the utility model；

Fig. 4 is the clamping device structural schematic diagram of the utility model；

Fig. 5 is the translating device structural schematic diagram of the utility model；

Fig. 6 is the slide block structure schematic diagram of the utility model；

Fig. 7 is the flanging die mounting structure schematic diagram of the utility model；

Fig. 8 is the covering plate structure schematic diagram of the utility model.

In figure: body 1, control device 2, operation panel 3, translating device 4, flange motor 5, drive shaft 6, flanging die 7, Cylinder 8, limiting device 9, top board 10, lower bolster 11, discharge port 12, conveyer belt 13, positioning device 14, feed inlet 15, pedestal 16, cover board 17, slide 18.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.

It should be noted that in the description of the present invention, unless otherwise indicated, the meaning of " plurality " is two or two More than a；The instructions such as term " on ", "lower", "left", "right", "inner", "outside", " front end ", " rear end ", " head ", " tail portion " Orientation or positional relationship is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of description the utility model and simplification Description, rather than the device or element of indication or suggestion meaning must have a particular orientation, constructed and grasped with specific orientation Make, therefore should not be understood as limiting the present invention.

In addition, term " first ", " second ", " third " etc. are used for description purposes only, it is not understood to indicate or imply Relative importance.

Meanwhile in the description of the present invention, unless otherwise clearly defined and limited, term " connected ", " connection " It shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or be integrally connected；It can be mechanical connect It connects, is also possible to be electrically connected；It can be directly connected, it can also be indirectly connected through an intermediary.For the general of this field For logical technical staff, the concrete meaning of above-mentioned term in the present invention can be understood with concrete condition.

Referring to Figure 1 to Fig. 8, the utility model provides the particular technique embodiment of automatic flanging device:

Automatic flanging device, comprising: body 1, control device 2, operation panel 3, translating device 4, flange motor 5, driving Axis 6, flanging die 7, cylinder 8, limiting device 9, top board 10, lower bolster 11, discharge port 12, conveyer belt 13, positioning device 14, Feed inlet 15, pedestal 16, cover board 17, slide 18；Control device 2 is arranged on the outer wall of 1 side of body, and control device 2 with Body 1 is bolted mode and is connected；Operation panel 3 is arranged on the outer wall on 2 top of control device, and operation panel 3 It is connected with control device 2 by embedded mode；Translating device 4 be arranged body 1 inside right positions, and translating device 4 and Body 1 is bolted mode and is connected；The upper surface of slide 18, and flange motor 5 and slide 18 is arranged in flange motor 5 The mode of being bolted is connected；One end of flange motor 5 is arranged in drive shaft 6, and drive shaft 6 passes through with flange motor 5 Embedded mode is connected；The top of drive shaft 6 is arranged in flanging die 7, and flanging die 7 and drive shaft 6 pass through embedded mode It is connected；Cylinder 8 is separately positioned on the leftward position of 17 lower surface of middle position and cover board inside body 1, and cylinder 8 and machine Body 1 and cover board 17 are bolted mode and are connected；The middle position inside body 1 is arranged in limiting device 9, and limits Device 9 is bolted mode with body 1 and is connected；The bottom end of cylinder 8, and top board 10 and gas is arranged in top board 10 Cylinder 8 is bolted mode and is connected；The right positions inside body 1, and lower bolster 11 and body 1 is arranged in lower bolster 11 The mode of being bolted is connected；Discharge port 12 is located on the outer wall on 1 right side of body, and discharge port 12 is integrated with body 1 Formula structure；Conveyer belt 13 is placed on the left end of body 1；Positioning device 14 is arranged on the outer wall of 1 left end bottom of body, and fixed Position device 14 is connected with body 1 by welding manner；Feed inlet 15 is located on the outer wall in the left side of body 1, and feed inlet 15 with Body 1 is an integral structure；The bottom of body 1 is arranged in rectangular arrangement pattern for pedestal 16, and pedestal 16 and body 1 pass through spiral shell Line twist-on mode is connected；The top of body 1 is arranged in cover board 17, and cover board 17 is bolted mode with body 1 and is connected It connects；The upper surface of translating device 4 is arranged in slide 18, and slide 18 is connected with translating device 4 by lead screw.

Specifically, body 1 is rectangular-shaped, and the middle position of 1 left end of body offers the notch of U-shape, and body 1 is opened If the right side of U-shape notch be discharge port 12, right side is feed inlet 15, and centre is the placing groove of conveyer belt 13, and is combined The positioning device 14 of L shape is welded on the outer wall of the left end of body 1 shown in Fig. 1 bottom.

Specifically, operation panel 3 is S100A touch display screen, and pass through cable between operation panel 3 and control device 2 It is connected.

Specifically, translating device 4 is the internal oblong-shaped for offering U-lag at three in horizontal mode, and translate Lead screw is equipped with by fixing seat in U-lag among device 4, and installed in translating device 4 shown in combination Fig. 2 and Fig. 5 Lead screw one end is provided with servo motor by embedded mode.

Specifically, the top of slide 18 be it is rectangular-shaped, lower part in horizontal mode be provided at three with translating device 4 in The rectangular shaped slider that U-lag matches at the three of portion, and translation is provided with and is mounted in the rectangular shaped slider among 18 bottom of slide The internal thread through hole that lead screw in device 4 matches, and slide 18 and translating device 4 pass through sliding type as shown in connection with fig. 1 It is connected.

Specifically, flanging die 7 is round table-like, and the mounting height of flanging die 7 is with center location and lower bolster 11 Upper surface is consistent, and is reserved with flange between the front end face of flanging die 7 and the left end face of lower bolster 11 as shown in connection with fig. 3 The material thick clearance of workpiece.

Specifically, lower bolster 11 and top board 10 are oblong-shaped, and opened up on lower bolster 11 in horizontal mode There is the non-slip groove of U-shape at N, and lower bolster 11 is combined into the clamping device of flange workpiece with 10 groups of top board.

Specifically, limiting device 9 is kept off by the rectangle that the cylinder 8 and top that are mounted on 1 bosom position of body weld Board group is at and the spacing distance between the rectangle baffle on limiting device 9 and lower bolster 11 is the flanging length of workpiece.

Specifically, cover board 17 is rectangular-shaped, and the symmetrical mode in side of 17 lower surface of cover board is equipped with for solid Determine the cylinder 8 of top board 10.

Specifically, control device 2 is PLC control cabinet in the prior art, and control device 2 passes through cable and translation respectively Servo motor, flange motor 5, cylinder 8 and 13 phase of conveyer belt on device 4 are electrically connected.

Specific implementation step:

Power on first, machined parameters then set by operation panel 3, then will cut to flange workpiece by It is sent on lower bolster 11 at feed inlet 15 by conveyer belt 13, during which positioning device 14 and limiting device 9 are close in workpiece two sides It is moved, avoids the occurrence of inclination, then drive top board 10 to clamp the workpiece on lower bolster 11 by cylinder 8, simultaneously The baffle of limiting device 9 by cylinder 8 drive after is lowered back to place, by flange motor 5 by drive shaft 6 drive flanging die 7 into Row quick rotation, and the servo motor on translating device 4 is cooperated to drive slide 18 that flange motor 5 is made to carry out lateral shifting by lead screw It is dynamic, thus roll flange work to the workpiece for being clamped in lower bolster 11 and top board 10, after flange, top board 10 By 8 return of cylinder, baffle on limiting device 9 is gone up by cylinder 8, and workpiece by conveyer belt 13 from discharge port 12 It sends out, works to realize the automatic flanging of workpiece.

In summary: the automatic flanging device, by will cut to flange workpiece be close to the inner wall of positioning device by It is sent on lower bolster at feed inlet by conveyer belt, and prevents from inclining to flange workpiece by limiting device and positioning device Tiltedly, then from cylinder top board cooperation lower bolster is driven to treat flange workpiece and securely clamped, so that guarantee is to flange workpiece Firm grip and fixed position are less prone to inclination, the advantage for avoiding flange position inconsistent；Translating device band is utilized simultaneously Dynamic flange motor carries out transverse shifting and flange motor and drives flanging die to carry out quick rotation by drive shaft, to clamping Flange workpiece among top board and lower bolster carries out after rolling flange, has conveyer belt to send out from discharge port, to realize certainly Dynamic flange purpose, then substantially increases to flange work pieces process efficiency；By making the dress to the integrally-built design of the device That sets is structural simple, convenient for operation, and saves production and processing cost.

While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art, It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.

Claims (10)

1. automatic flanging device, comprising: body (1), control device (2), operation panel (3), translating device (4), flange motor (5), drive shaft (6), flanging die (7), cylinder (8), limiting device (9), top board (10), lower bolster (11), discharge port (12), conveyer belt (13), positioning device (14), feed inlet (15), pedestal (16), cover board (17), slide (18)；Its feature exists In: the control device (2) is arranged on the outer wall of body (1) side, and control device (2) and body (1) are solid by bolt Determine mode to be connected；The operation panel (3) is arranged on the outer wall on control device (2) top, and operation panel (3) and control Device (2) is connected by embedded mode；The internal right positions of translating device (4) setting body (1), and translating device (4) it is connected with body (1) mode of being bolted；The flange motor (5) is arranged in the upper surface of slide (18), and turns over Side motor (5) is connected with slide (18) mode of being bolted；The drive shaft (6) is arranged the one of flange motor (5) End, and drive shaft (6) is connected with flange motor (5) by embedded mode；The flanging die (7) is arranged in drive shaft (6) Top, and flanging die (7) is connected with drive shaft (6) by embedded mode；The cylinder (8) is separately positioned on body (1) leftward position in internal middle position and cover board (17) lower surface, and cylinder (8) passes through with body (1) and cover board (17) Bolt fixing method is connected；The limiting device (9) the setting middle position internal in body (1), and limiting device (9) with Body (1) mode of being bolted is connected；The top board (10) is arranged in the bottom end of cylinder (8), and top board (10) It is connected with cylinder (8) mode of being bolted；Lower bolster (11) setting right positions internal in body (1), and Lower bolster (11) is connected with body (1) mode of being bolted；The discharge port (12) is located at the outer wall on the right side of body (1) On, and discharge port (12) is an integral structure with body (1)；The conveyer belt (13) is placed on the left end of body (1)；It is described fixed Position device (14) is arranged on the outer wall of body (1) left end bottom, and positioning device (14) passes through welding manner phase with body (1) Connection；The feed inlet (15) is located on the outer wall on the left of body (1), and feed inlet (15) is an integral structure with body (1)； The pedestal (16) is arranged in rectangular arrangement pattern in the bottom of body (1), and pedestal (16) and body (1) pass through screw thread twist-on Mode is connected；The cover board (17) is arranged on the top of body (1), and cover board (17) and body (1) side of being bolted Formula is connected；Slide (18) setting is in the upper surface of translating device (4), and slide (18) and translating device (4) pass through silk Thick stick is connected.

2. automatic flanging device according to claim 1, it is characterised in that: the body (1) is rectangular-shaped, and body (1) middle position of left end offers the notch of U-shape, and the right side of U-shape notch that body (1) opens up is discharge port (12), right side is feed inlet (15), and centre is the placing groove of conveyer belt (13).

3. automatic flanging device according to claim 1, it is characterised in that: the operation panel (3) is that S100A touch is aobvious Display screen, and be connected between operation panel (3) and control device (2) by cable.

4. automatic flanging device according to claim 1, it is characterised in that: the translating device (4) is internal in laterally Arrangement mode offers the oblong-shaped of U-lag at three, and is equipped in the U-lag among translating device (4) by fixing seat Lead screw.

5. automatic flanging device according to claim 1, it is characterised in that: the top of the slide (18) be it is rectangular-shaped, Lower part is provided with the rectangular shaped slider to match at three with U-lag at the three of translating device (4) inside in horizontal mode, and sliding It is logical that the internal screw thread to match with the lead screw being mounted in translating device (4) is provided in rectangular shaped slider among seat (18) bottom Hole.

6. automatic flanging device according to claim 1, it is characterised in that: the flanging die (7) is round table-like, and is turned over The mounting height that side mode has (7) is consistent with the upper surface of lower bolster (11) with center location.

7. automatic flanging device according to claim 1, it is characterised in that: the lower bolster (11) and top board (10) are equal The non-slip groove of U-shape at N is offered in horizontal mode for oblong-shaped, and on lower bolster (11).

8. automatic flanging device according to claim 1, it is characterised in that: the limiting device (9) is by being mounted on body (1) cylinder (8) of bosom position and the rectangle baffle composition of top welding, and the rectangle gear on limiting device (9) Spacing distance between plate and lower bolster (11) is the flanging length of workpiece.

9. automatic flanging device according to claim 1, it is characterised in that: the cover board (17) is rectangular-shaped, and cover board (17) the symmetrical mode in the side of lower surface is equipped with the cylinder (8) for fixing top board (10).

10. automatic flanging device according to claim 1, it is characterised in that: the control device (2) is PLC control cabinet, And control device (2) passes through servo motor, flange motor (5), cylinder (8) and the transmission on cable and translating device (4) respectively Band (13) is mutually electrically connected.