CN110681745A - Pipe bending equipment capable of conducting multidirectional bending - Google Patents

Abstract

The invention relates to a pipe bending device capable of performing multidirectional bending, which comprises a rack, wherein a pipe clamping feeding motor and a pipe clamping feeding screw rod which are matched with each other are arranged on the rack, the pipe clamping feeding screw rod is sleeved with a pipe clamping feeding seat, the pipe clamping feeding seat is matched with a pipe clamping feeding slide rail arranged on the rack, a pipe clamping device capable of clamping a steel pipe is arranged on the pipe clamping feeding seat, a pipe rotating device capable of rotating the steel pipe is also arranged on the pipe clamping feeding seat, a positioning pipe pressing device matched with the steel pipe clamped by the pipe clamping device is arranged on the rack, a bending device is matched with the side surface of the positioning pipe pressing device, the pipe rotating device is arranged, the pipe clamping device is arranged on the pipe clamping feeding seat, the movement and the rotation of the steel pipe can be automatically realized, and the bending of different positions at different angles can be realized by matching with the bending device, the machining efficiency of the bending structure is greatly improved.

Description

Pipe bending equipment capable of conducting multidirectional bending

Technical Field

The invention relates to the field of pipe bending equipment, in particular to pipe bending equipment capable of bending in multiple directions.

Background

In metal tubular product especially steel pipe machining field, the return bend equipment can often be used, the return bend equipment is mostly including being used for carrying out the pipe with the pipe and going on the fixed double-layered pipe device and the bending device who bends the pipe, in some course of working, need carry out the secondary with the pipe and bend, and the angle of bending is different, consequently needs to make the pipe fitting move about and rotate, and these operations that have now are mostly through manual adjustment, consequently can consume a large amount of manpower and materials.

Disclosure of Invention

The invention aims to provide a pipe bending device capable of performing multidirectional bending, which is provided with a pipe rotating device, and a pipe clamping device is arranged on a pipe clamping feeding seat, so that the movement and rotation of a steel pipe can be automatically realized, the bending device can be matched to realize the bending of different positions at different angles, and the processing efficiency of the bending structure is greatly improved.

In order to achieve the above purpose, the invention adopts the technical scheme that: the utility model provides a can carry out elbow pipe equipment of multidirectional bending, includes the frame, the frame on be provided with the double-layered pipe that mutually supports and feed the motor and the double-layered pipe feed lead screw, the double-layered pipe feed lead screw cup jointed the double-layered pipe and feed the seat, and the double-layered pipe that sets up on double-layered pipe feed seat and the frame feeds the slide rail cooperation, the double-layered pipe feed seat on be provided with the double-layered pipe device that can be with the steel pipe centre gripping, the double-layered pipe feed seat on still be provided with and make the steel pipe rotate the pipe device of changeing, the frame on be provided with the steel pipe complex location of double-layered pipe device centre gripping and press the pipe device's side cooperation to have bending device.

Preferably, the pipe rotating device comprises a pipe rotating mounting seat connected with a pipe clamping feeding seat, two pipe rotating mounting blocks perpendicular to the steel pipe are arranged on the pipe rotating mounting seat, a half electromagnet sleeve is mounted on the pipe rotating mounting blocks and matched with the steel pipe in a sleeved mode, a half electromagnet sleeve is positioned between the two pipe rotating mounting blocks and is sleeved with a half pipe rotating gear, the half pipe rotating gear is meshed with a pipe rotating rack arranged on the pipe rotating mounting seat, one end of the pipe rotating rack is connected with a pipe rotating pulling cylinder on the pipe rotating mounting seat, and the other end of the pipe rotating rack is matched with a pipe rotating limiting block on the pipe rotating mounting seat.

Preferably, the rotating pipe mounting seat is connected with a rotating pipe device connecting cylinder with a main body embedded in the pipe clamping feeding seat, and the moving range of the rotating pipe device connecting cylinder is consistent with the distance between two bending parts on the steel pipe.

Preferably, the pipe clamping device comprises a pipe clamping feeding seat, a pipe clamping notch and a pipe clamping mounting frame are arranged on the pipe clamping feeding seat and matched with the steel pipe in an arc shape, a pipe clamping lifting cylinder with a vertical trend is arranged on the pipe clamping mounting frame, a pipe clamping lifting pressing block is connected below the pipe clamping lifting pressing block, a pipe clamping notch matched with the pipe clamping notch in the arc shape is arranged below the pipe clamping lifting pressing block, a pipe clamping guide hole with the vertical trend is further formed in the pipe clamping feeding seat, a pipe clamping positioning rod matched with a pipe clamping guide hole plug bush is arranged below the pipe clamping lifting pressing block, and a pressure sensor is arranged at the bottom of the pipe clamping guide hole.

Preferably, the bending device include the bending arc piece of setting in the frame, the bending arc piece on set up with steel pipe complex groove of bending, the bending device still including the movable lead screw of bending that sets up in the frame, the movable lead screw of bending cup joint the sliding seat of bending, and the sliding seat of bending and the movable slide rail cooperation of bending that sets up in the frame, the movable lead screw cooperation of bending have the movable handle of bending, the sliding seat of bending on establish the rotation center and bend the rotating device of bending that the arc piece center is unanimous, the rotating device of bending be connected with the swivel mount of bending, the swivel mount of bending on be provided with the arc piece certain diameter of bending with the lift cylinder of bending in trend, the lift cylinder of bending be connected with the steel pipe complex briquetting of bending on the groove of bending.

Preferably, the bending rotating device comprises a bending rotating shaft which is arranged on the bending movable seat and has the same direction with the center of the bending arc block, one end of the bending rotating shaft is connected with the bending rotating seat, the other end of the bending rotating shaft is sleeved with a bending gear, the bending gear is meshed with a bending rotating rack, and the bending rotating rack is connected with a bending rotating cylinder arranged on the bending movable seat.

Preferably, the bending press block comprises a bending lifting block connected with the bending lifting cylinder, a bending working block is arranged below the bending lifting block in a matched mode through a sliding block and a sliding groove, working block mounting columns are arranged on the outer sides of the bending working block and the bending lifting block, and the working block mounting columns are connected through a working block mounting spring in an extending state.

Drawings

FIG. 1 is a schematic structural view of a pipe bending apparatus capable of performing multi-directional bending;

FIG. 2 is a schematic structural view of the pipe clamping device and the pipe rotating device;

FIG. 3 is a cross-sectional view A-A of FIG. 2;

FIG. 4 is a schematic structural view of the pipe rotating device;

FIG. 5 is a schematic view of the structure of the rotary pipe half gear and the rotary pipe rack;

FIG. 6 is a schematic perspective view of a bending apparatus;

fig. 7 is a perspective view of a bent press part.

The text criteria shown in the figures are expressed as: 1. a frame; 2. a tube clamping feed motor; 3. a pipe clamping feed screw rod; 4. a pipe clamping feeding seat; 5. a pipe clamping feeding slide rail; 6. a pipe clamping device; 7. positioning a pipe pressing device; 8. a bending device; 9. a steel pipe; 10. a pipe rotating device; 11. the pipe rotating device is connected with the air cylinder; 12. a pipe clamping mounting rack; 13. a pipe clamping lifting cylinder; 14. a pipe clamping lifting pressing block; 15. a pipe clamping and positioning rod; 16. a pressure sensor; 21. a rotating pipe mounting seat; 22. a rotating pipe mounting block; 23. half set of electromagnet; 24. a rotary pipe half gear; 25. a pipe rotating rack; 26. the rotating pipe pulls the cylinder; 27. a pipe rotating limiting block; 31. bending the movable screw rod; 32. bending the movable handle; 33. bending the movable seat; 34. bending the movable slide rail; 35. bending a rotating cylinder; 36. bending the rotating rack; 37. bending the rotating shaft; 38. bending the gear; 39. bending the rotary seat; 40. bending the lifting cylinder; 41. bending the pressing block; 42. bending the arc block; 44. bending the lifting block; 45. bending the working block; 46. a working block mounting post; 47. the working block is provided with a spring.

Detailed Description

The following detailed description of the present invention is given for the purpose of better understanding technical solutions of the present invention by those skilled in the art, and the present description is only exemplary and explanatory and should not be construed as limiting the scope of the present invention in any way.

As shown in fig. 1, the specific structure of the present invention is: the utility model provides a can carry out elbow pipe equipment of multidirectional bending, includes frame 1, frame 1 on be provided with the double-layered pipe that mutually supports and feed motor 2 and double-layered pipe and feed lead screw 3, double-layered pipe feed lead screw 3 cup jointed double-layered pipe and feed seat 4, and the double-layered pipe that sets up on double-layered pipe feed seat 4 and the frame 1 feeds slide rail 5 cooperation, double-layered pipe feed seat 4 on be provided with the double-layered pipe device 6 that can with steel pipe 9 centre gripping, double-layered pipe feed seat 4 on still be provided with and to make steel pipe 9 rotate pipe device 10, frame 1 on be provided with the steel pipe 9 complex location pressure pipe device 7 with double-layered pipe device 6 centre gripping, the side cooperation of location pressure pipe device 7 have bending device 8.

When the pipe bending device is used specifically, a steel pipe 9 is placed on a pipe clamping device 6 to be clamped, the steel pipe 9 is matched with a pipe rotating device 10, then a pipe clamping feeding motor 2 drives a pipe clamping feeding screw rod 3 to rotate, a pipe clamping feeding seat 4 is further driven to move, the pipe clamping device 6 and the pipe rotating device 10 are further driven to move, the steel pipe is moved to a proper position, then the steel pipe is clamped through a positioning pipe pressing device 7, then bending of one position of the steel pipe 9 is completed through a bending device 8, then the pipe clamping device 6 and the positioning pipe pressing device 7 are loosened, the steel pipe 9 is rotated by a certain angle through the pipe rotating device 10, then the pipe clamping device 6 clamps the steel pipe again, the pipe clamping feeding motor continues to work, a second bending position is matched with the bending device 8, then bending of the second position is completed through the bending device, and further different-angle continuous bending of different parts is realized, the manpower consumption is reduced, and the working efficiency is greatly improved.

As shown in fig. 4-5, the pipe rotating device 10 includes a pipe rotating mounting seat 21 connected to the pipe clamping feeding seat 4, the pipe rotating mounting seat 21 is provided with two pipe rotating mounting blocks 22 perpendicular to the steel pipe 9, the pipe rotating mounting blocks 22 are provided with half electromagnet sleeves 23, the half electromagnet sleeves 23 are in sleeve fit with the steel pipe 9, the half electromagnet sleeves 23 are positioned between the two pipe rotating mounting blocks 22, the outer side of the position of the half electromagnet sleeves 23 between the two pipe rotating mounting blocks 22 is sleeved with a pipe rotating half gear 24, the pipe rotating half gear 24 is engaged with a pipe rotating rack 25 arranged on the pipe rotating mounting seat 21, one end of the pipe rotating rack 25 is connected to a pipe rotating pulling cylinder 26 on the pipe rotating mounting seat 21, and the other end of the pipe rotating rack is engaged with a pipe rotating limiting block 27 on the pipe rotating mounting seat 21.

The structural design of the pipe rotating device adopts the matching of the electromagnet half sleeve 23 and the steel pipe 9, so that the discharge of the steel pipe 9 cannot be influenced, when the pipe rotating device is used specifically, the steel pipe 9 is firstly placed into the electromagnet half sleeve 23, then the electromagnet half sleeve 23 is electrified to generate magnetism, the steel pipe 9 is attracted through the magnetism, when the pipe rotating device needs to rotate, the pipe rotating device pulls the air cylinder 26 through a rotating pipe to drive the pipe rotating rack 25 to move, and then the pipe rotating half gear 24 is driven to rotate through the meshing relation, so that the electromagnet half sleeve 23 and the steel pipe 9 in the electromagnet half sleeve can rotate, and the process is total; the range of motion of pipe rotating rack 25 is injectd by pipe rotating stopper 27, this range of rotation can avoid half cover 23 of electro-magnet to break away from pipe rotating installation piece 22 completely, still need rotate after being intercepted by pipe rotating stopper 27, can be earlier through pressing from both sides pipe device 6 with the steel pipe centre gripping, then make half cover 23 of electro-magnet outage, lose magnetism, later make pipe rotating rack 25 answer the normal position again, and then can make half cover 23 of electro-magnet and steel pipe produce relative rotation, later make half cover 23 of electro-magnet circular telegram again, then repeat above-mentioned operation and can realize the re-rotation of steel pipe 9, adopt this kind of structure, can enough ensure the range of rotation of steel pipe, also can avoid producing the interference with the blowing of steel pipe 9 simultaneously, and the blowing is simple.

As shown in fig. 2-3, the rotating pipe mounting seat 21 is connected with a rotating pipe device connecting cylinder 11 with a main body embedded in the pipe clamping feeding seat 4, and the moving range of the rotating pipe device connecting cylinder 11 is consistent with the distance between two bending parts on the steel pipe.

The design that the pipe rotating device is connected with the cylinder can be matched with the pipe rotating device 10 and the pipe clamping device 6 to realize feeding of steel pipes, the feeding can be realized twice by matching with a pipe clamping feeding motor, the feeding range is further improved, meanwhile, the moving range of the pipe rotating device connected with the cylinder 11 is designed into the distance between two bending parts of the steel pipes to be processed, the first bending part of the steel pipes can be adjusted to be matched with the bending device through the pipe clamping feeding motor, the feeding of the pipe rotating device connected with the cylinder 11 is ensured to be matched with the bending device, and the processing of secondary positioning is reduced.

As shown in fig. 3, the pipe clamping device 6 includes a pipe clamping feeding seat 4, a pipe clamping notch and a pipe clamping mounting frame 22 are arranged in a manner of being matched with the arc of the steel pipe 9, a pipe clamping lifting cylinder 13 with a vertical trend is arranged on the pipe clamping mounting frame 12, a pipe clamping lifting press block 14 is connected below the pipe clamping lifting cylinder 13, a pipe clamping notch matched with the arc pipe clamping notch is arranged below the pipe clamping lifting press block 14, a pipe clamping guide hole with a vertical trend is further arranged on the pipe clamping feeding seat 4, a pipe clamping positioning rod 15 matched with the pipe clamping guide hole plug bush is arranged below the pipe clamping lifting press block 14, and a pressure sensor 16 is arranged at the bottom of the pipe clamping guide hole.

The pipe clamping device works as follows, place the steel pipe 9 in the arc puts the pipe notch earlier, then the rethread presss from both sides pipe lift cylinder 13 and drives pipe lifting briquetting 14 and descends, and then the arc presses the pipe notch to push down the upper portion of steel pipe 9, at this in-process, press from both sides pipe locating lever 15 and can insert in pressing from both sides the pipe guiding hole, and then ensure that the lift orbit of pressing from both sides pipe lifting briquetting 14 does not produce the skew, touch pressure sensors 16 and make it produce the decline that stops pipe lifting briquetting 14 after the forced induction signal through pressing from both sides pipe ejector pin 15 simultaneously, under the general condition, in order to ensure the effect of pressing the pipe, the radian of pressing the pipe notch and arc to put the pipe notch at the arc all can be less than 180 degrees, also be after the pipe is pressed in the completion, it gives gappedly to press from.

As shown in fig. 6-7, the bending device 8 comprises a bending arc 42 arranged on the frame 1, the bending arc block 42 is provided with a bending groove matched with the steel pipe 9, the bending device 8 further comprises a bending movable screw rod 31 arranged on the frame 1, the bending movable screw rod 31 is sleeved with a bending movable seat 33, and the bending movable seat 33 is matched with a bending movable slide rail 34 arranged on the frame 1, the bending movable screw rod 31 is matched with a bending movable handle 32, the bending movable seat 33 is provided with a bending rotating device with the rotating center consistent with the center of the bending arc block 42, the bending rotating device is connected with a bending rotating seat 39, a bending lifting cylinder 40 with a certain diameter and the same direction as the bending arc block 42 is arranged on the bending rotating seat 39, the bending lifting cylinder 40 is connected with a bending pressing block 41 matched with the steel pipe 9 on the bending groove.

The bending device 8 works specifically as follows, firstly, the movable bending screw rod 31 is driven to rotate through the movable bending handle according to the bending requirement, the position of the movable bending seat 33 is adjusted, then the positions of the lifting cylinder 40 and the bending press block 41 are adjusted through the bending rotating device, then the bending press block 41 is driven to move along the radial direction of the bending arc block 42 through the bending lifting cylinder 40, the steel pipe on the bending arc block 42 is bent through the bending press block 41, the bending radian and the bending position can be controlled through the design of the bending rotating device, and the application range of bending is greatly improved.

As shown in fig. 6, the bending rotating device includes a bending rotating shaft 37 disposed on the bending movable seat 33 and having the same direction as the center of the bending arc block 42, one end of the bending rotating shaft 37 is connected to the bending rotating seat 39, the other end is sleeved with a bending gear 38, the bending gear 38 is engaged with a bending rotating rack 36, and the bending rotating rack 36 is connected to a bending rotating cylinder 35 disposed on the bending movable seat 33.

The bending rotating device is simple in structure, the bending rotating cylinder 35 drives the bending rotating rack 36 to move up and down, so that the bending gear 38 can rotate, the bending rotating seat can rotate, and the bending executing component on the bending rotating seat can rotate.

As shown in fig. 7, the bending press block 41 includes a bending lift block 44 connected to the bending lift cylinder 40, a bending work block 45 is disposed below the bending lift block 44 through a slider and a chute, work block mounting posts 46 are disposed on outer sides of the bending work block 45 and the bending lift block 44, and the work block mounting posts 46 are connected through a work block mounting spring 47 in an extended state.

The structural design of the bending press block can realize the replacement of the bending work block, the replacement operation is simple, the bending work block 45 can be directly taken out after the work block mounting spring 47 is taken down, and the replacement efficiency of the bending work block 45 can be saved.

When the intelligent control device is used specifically, a control system can be equipped for controlling the cooperative work of all the power parts, and the integral operation can be realized through the control buttons of all the power parts.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

The principle and embodiments of the present invention have been described herein by way of specific examples, which are provided only to help understand the method and the core idea of the present invention, and the above is only a preferred embodiment of the present invention, and it should be noted that there are objectively infinite specific structures due to the limited character expressions, and it will be apparent to those skilled in the art that a plurality of modifications, decorations or changes can be made without departing from the principle of the present invention, and the above technical features can also be combined in a suitable manner; such modifications, variations, combinations, or adaptations of the invention using its spirit and scope, as defined by the claims, may be directed to other uses and embodiments.

Claims (7)

1. A pipe bending device capable of bending in multiple directions comprises a frame (1) and is characterized in that, a pipe clamping feed motor (2) and a pipe clamping feed screw rod (3) which are matched with each other are arranged on the machine frame (1), the pipe clamping feed screw rod (3) is sleeved with a pipe clamping feed seat (4), and the pipe clamping feeding seat (4) is matched with a pipe clamping feeding slide rail (5) arranged on the frame (1), the pipe clamping feeding seat (4) is provided with a pipe clamping device (6) which can clamp the steel pipe (9), the pipe clamping feed seat (4) is also provided with a pipe rotating device (10) which can enable the steel pipe (9) to rotate, the machine frame (1) is provided with a positioning pipe pressing device (7) matched with a steel pipe (9) clamped by the pipe clamping device (6), the side surface of the positioning pressure pipe device (7) is matched with a bending device (8).

2. The pipe bending device capable of performing multidirectional bending according to claim 1, wherein the pipe rotating device (10) comprises a pipe rotating mounting seat (21) connected with the pipe clamping feeding seat (4), two pipe rotating mounting blocks (22) perpendicular to the steel pipe (9) are arranged on the pipe rotating mounting seat (21), an electromagnet half sleeve (23) is mounted on the pipe rotating mounting block (22), the electromagnet half sleeve (23) is in sleeve fit with the steel pipe (9), a pipe rotating half gear (24) is sleeved on the outer side of a position, located between the two pipe rotating mounting blocks (22), of the electromagnet half sleeve (23), the pipe rotating half gear (24) is meshed with a pipe rotating rack (25) arranged on the pipe rotating mounting seat (21), one end of the pipe rotating rack (25) is connected with a pipe rotating pulling cylinder (26) on the pipe rotating mounting seat (21), the other end is matched with a rotating pipe limiting block (27) on the rotating pipe mounting seat (21).

3. The pipe bending equipment capable of performing multidirectional bending according to claim 2, wherein the rotating pipe mounting seat (21) is connected with a rotating pipe device connecting cylinder (11) with a main body embedded in the pipe clamping feeding seat (4), and the moving amplitude of the rotating pipe device connecting cylinder (11) is consistent with the distance between two bending positions on the steel pipe.

4. A pipe bending apparatus capable of multi-directional bending according to claim 1, the pipe clamping device (6) comprises an arc pipe placing notch which is arranged on the pipe clamping feeding seat (4) and is matched with the steel pipe (9) and a pipe clamping mounting rack (22), a vertical clamping pipe lifting cylinder (13) is arranged on the clamping pipe mounting rack (12), a pipe clamping lifting pressing block (14) is connected below the pipe clamping lifting cylinder (13), an arc-shaped pressure pipe notch matched with the arc-shaped pipe releasing notch is arranged below the pipe clamping lifting pressing block (14), the pipe clamping feeding seat (4) is also provided with a pipe clamping guide hole in a vertical direction, a pipe clamping positioning rod (15) matched with the pipe clamping guide hole insertion sleeve is arranged below the pipe clamping lifting pressing block (14), and the bottom of the pipe clamping guide hole is provided with a pressure sensor (16).

5. The pipe bending equipment capable of bending in multiple directions according to claim 1, wherein the bending device (8) comprises a bending arc block (42) arranged on the frame (1), the bending arc block (42) is provided with a bending groove matched with the steel pipe (9), the bending device (8) further comprises a bending movable screw rod (31) arranged on the frame (1), the bending movable screw rod (31) is sleeved with a bending movable seat (33), the bending movable seat (33) is matched with a bending movable slide rail (34) arranged on the frame (1), the bending movable screw rod (31) is matched with a bending movable handle (32), the bending movable seat (33) is provided with a bending rotating device with a rotating center consistent with the center of the bending arc block (42), and the bending rotating device is connected with a bending rotating seat (39), the bending swivel mount (39) is provided with a bending lifting cylinder (40) which has the same direction with a certain diameter of the bending arc block (42), and the bending lifting cylinder (40) is connected with a bending pressing block (41) matched with the steel pipe (9) on the bending groove.

6. The pipe bending device capable of bending in multiple directions according to claim 5, wherein the bending rotating device comprises a bending rotating shaft (37) which is arranged on the bending movable seat (33) and has the same direction with the center of the bending arc block (42), one end of the bending rotating shaft (37) is connected with the bending rotating seat (39), the other end of the bending rotating shaft is sleeved with a bending gear (38), the bending gear (38) is engaged with the bending rotating rack (36), and the bending rotating rack (36) is connected with a bending rotating cylinder (35) arranged on the bending movable seat (33).

7. The pipe bending equipment capable of performing multidirectional bending according to claim 5, wherein the bending pressing block (41) comprises a bending lifting block (44) connected with the bending lifting cylinder (40), a bending working block (45) is matched below the bending lifting block (44) through a sliding block and a sliding groove, working block mounting columns (46) are arranged on the outer sides of the bending working block (45) and the bending lifting block (44), and the working block mounting columns (46) of the bending working block and the bending lifting block are connected through a working block mounting spring (47) in an extending state.

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