CN108247348B - Automatic device for machining circular tube - Google Patents

Abstract

The invention discloses an automatic device for round tube machining, which comprises a storage device (1), a deburring device (2), a transmission device (3) and a plugging and necking integrated device (4), wherein the storage device (1) is connected with the deburring device (2) to supply round tube blanks to the deburring device, the deburring device (2) is used for trimming burrs at two ends of a round tube of supplied materials, the transmission device (3) is connected between the deburring device (2) and the plugging and necking integrated device (4), the round tube is conveyed into the plugging and necking integrated device (4) by virtue of the transmission device (3) after being subjected to burr trimming treatment by the deburring device (2), and the plugging and necking integrated device (4) is used for plugging and necking the round tube. According to the automatic device for processing the circular tube, the processes of plugging and necking are completed by the plugging and necking integrated device at one time, and the whole equipment is high in automation degree and production efficiency.

Description

Automatic device for machining circular tube

Technical Field

The invention relates to the technical field of automation equipment, in particular to an automation device for machining a circular tube.

Background

The metal pipe is the subassembly that is used for concatenation, equipment formation support body, and during the equipment usually, is connected between pipe and the pipe and locks through the screw, because the metal pipe is hollow structure, if the screw is locked directly on the pipe, its area with the screw contact is not enough, leads to locking insufficient easily. In order to solve the problems, the iron plug is arranged at the position where the screw is arranged in the circular tube, so that the screw can penetrate through the circular tube to be connected with the iron plug, the contact area of the screw during locking is increased, and the locking is reliable.

Because the demand of the round pipe is large, the iron plug forging in the round pipe is a very large workload, and the automation degree of the processing process equipment for forging the iron plug in the round pipe is low at present, so that the production efficiency is low, and the market demand can not be met.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and provides an automatic device for circular tube machining, which is high in automation degree and production efficiency.

The technical scheme adopted by the invention is as follows:

the utility model provides an automation equipment for pipe processing, includes storage device, burring device, transmission device and beats the integrative device of throat of packing, storage device connects burring device supplies the pipe hair to it, burring device repaiies the burr processing to the pipe both ends of supplied materials, transmission device connect in burring device with beat between the integrative device of throat of packing, the pipe warp burring device is repaiied the burr and is handled the back, relies on transmission device is sent into beat the integrative device of throat of packing, beat the integrative device of throat of packing and pack to the pipe and process the throat.

Further, burring device is including defeated material screw rod, briquetting and burring running roller, defeated material screw rod is equipped with two intervals and sets up, just interval between two adjacent threads on the defeated material screw rod is more than or equal to the diameter of pipe, the briquetting is equipped with two correspondingly and locates respectively the upside of defeated material screw rod, the burring running roller is equipped with two correspondingly and locates respectively the outside of defeated material screw rod.

Further, beat integrative device of stopper throat and include closing device, indisputable stopper positioner and pusher, indisputable stopper positioner locates the both sides that closing device is relative, pusher locates indisputable stopper positioner's the outside, closing device is used for fixed pipe, indisputable stopper positioner is used for placing indisputable stopper, pusher be used for with in the pipe hole at indisputable stopper positioner's indisputable stopper propelling movement pipe both ends of impressing, just pusher is to pipe both ends throat processing behind the pipe with indisputable stopper propelling movement pipe of impressing.

Further, the conveying device is a sliding guide groove which is inclined downwards from one side of the deburring device to one side of the integral plugging and necking device.

Further, the automation device for circular tube processing still includes the frame, the frame is equipped with first mounting platform and the second mounting platform that the height set up, just first mounting platform is vertical to be higher than the second mounting platform, burring device install in first mounting platform, the integrative device of throat of beating the stopper install in second mounting platform, storage device locates one side of first mounting platform.

Further, storage device includes the storage support, be equipped with the blowing guide slot that the downward sloping set up on the storage support.

Furthermore, the first mounting platform is arranged from the front side to the rear side in a downward inclined mode, and the axis of the material conveying screw rod is arranged on the first mounting platform in parallel with the inclined surface of the first mounting platform.

Further, the sliding guide groove comprises a first sliding guide groove and a second sliding guide groove, the second sliding guide groove is vertically inclined, and the second sliding guide groove is connected to the front end of the first sliding guide groove.

Furthermore, the outer side of the sliding guide groove is provided with a limiting guide groove at least in the area of the second sliding guide groove.

The invention has the beneficial effects that:

according to the automatic device for processing the circular tube, the processes of plugging and necking are completed by the plugging and necking integrated device at one time, and the whole equipment is high in automation degree and production efficiency.

Preferred embodiments of the present invention and advantageous effects thereof will be described in further detail with reference to specific embodiments.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention without limiting the invention. In the drawings, there is shown in the drawings,

FIG. 1: the structural block diagram of an automatic device for round tube processing in the embodiment of the invention;

FIG. 2: the structural block diagram of the integral device for plugging and necking of the automatic device for round tube processing in the embodiment of the invention is disclosed;

FIG. 3: a perspective view of one of the orientations of an automated apparatus for round tube processing in an embodiment of the present invention;

FIG. 4: a perspective view of another orientation of an automated apparatus for round tube processing in an embodiment of the present invention;

FIG. 5: the enlarged view of part A in FIG. 4 in the embodiment of the present invention;

FIG. 6: the invention discloses a top view of an automatic device for round tube processing;

FIG. 7: the embodiment of the invention provides a front view of a pushing device of an automatic device for round tube processing;

FIG. 8: the embodiment of the invention provides a pushing device for an automatic round pipe machining device.

Names and designations of parts

1. A material storage device; 2. a deburring device; 3. a transmission device; 4. a necking integrated device is plugged; 11. a material storage bracket; 12. a material discharging guide groove; 21. a material conveying screw rod; 22. briquetting; 23. a deburring roller; 24. a housing; 25. a roller; 26. a gear; 27. a rack; 28. a screw mounting seat; 29. a press block fixing frame; 211. a drive motor; 231. a roller motor; 31. a first sliding guide groove; 32. a second sliding guide groove; 33. a limiting guide groove; 41. a pressing device; 42. an iron plug positioning device; 43. a pushing device; 44. vibrating the piston feeding disc; 45. a bearing table; 46 a partition plate; 411. a fixed block; 412. fixing grooves; 421. a stopper feeding movable block; 422. rotating the block; 423. plugging in the rail; 424. a spring; 431. a slider; 432. a slider oil hydraulic cylinder; 433. inserting a needle; 434. a pin inserting cylinder; 435. necking down the mold; 451. positioning holes; 461. a via hole; 4211. a boss; 4212. a first mounting post; 4221. an iron plug positioning groove; 4222. a bump; 4223. a groove; 4224. a second mounting post; 4231. a plug inlet; 4232. and (4) a plug outlet.

Detailed Description

The following detailed description of embodiments of the invention refers to the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the present invention, are given by way of illustration and explanation only, not limitation.

Referring to fig. 1-8, an embodiment of the invention discloses an automatic device for circular tube processing, which comprises a storage device 1, a deburring device 2, a transmission device 3 and a plugging and necking integrated device 4, wherein the storage device 1 is connected with the deburring device 2 to supply circular tube blanks to the deburring device, the deburring device 2 trims burrs at two ends of an incoming circular tube, the transmission device 3 is connected between the deburring device 2 and the plugging and necking integrated device 4, the circular tube is subjected to burr trimming treatment by the deburring device 2 and then is sent to the plugging and necking integrated device 4 by the transmission device 3, and the plugging and necking integrated device 4 performs plugging and necking on the circular tube.

The deburring device 2 comprises a material conveying screw rod 21, a pressing block 22 and a deburring roller 23, the material conveying screw rod 21 is provided with two spaced devices, the spacing between two adjacent screw teeth on the material conveying screw rod 21 is larger than or equal to the diameter of a round pipe, the pressing block 22 is correspondingly provided with two blocks which are respectively arranged on the upper side of the material conveying screw rod 21, and the deburring roller 23 is correspondingly provided with two blocks which are respectively arranged on the outer side of the material conveying screw rod 21.

The deburring device 2 is used for deburring two ends of a circular tube, wherein the two ends of the circular tube are respectively lapped on the two material conveying screw rods 21, the circular tube is sunk into an interval between screw teeth on the material conveying screw rods 21, and the circular tube moves along the axial direction of the material conveying screw rods 21 along with the rotation of the material conveying screw rods 21 and moves from an inlet at one end to an outlet at the other end; meanwhile, the deburring roller 23 continuously rotates to rub the two ends of the circular tube, so that the function of removing burrs at the end part of the circular tube in a friction mode is realized. The briquetting 22 is located the upside of defeated material screw rod 21, when the pipe was located defeated material screw rod 21 was last, briquetting 22 supported and leaned on in the upper end of pipe, made the pipe spacing in the interval between the thread and can not the roll-off to guarantee that the burring technology is reliable.

The automatic device for machining the circular tube further comprises a rack, wherein the rack is provided with a first mounting platform 51 and a second mounting platform 52 which are arranged in a height mode, the first mounting platform 51 is vertically higher than the second mounting platform 52, the deburring device 2 is mounted on the first mounting platform 51, the integral device 4 for plugging and necking is mounted on the second mounting platform 52, and the storage device 1 is arranged on one side of the first mounting platform 51.

The first mounting platform 51 is arranged from the front side to the rear side in a downward inclined manner, and the axis of the feed screw 21 is arranged on the first mounting platform 51 in parallel with the inclined surface of the first mounting platform 51.

Specifically, the material conveying screw 21 is directly or indirectly connected and mounted with the first mounting platform 51 through the screw mounting seat 28, and a driving motor 211 is arranged on a side portion of the first mounting platform 51 and used for driving the material conveying screw 21 to rotate. Defeated material screw rod 21 forms the arrangement form that the entry end is low exit end height, makes the pipe when defeated material screw rod 21 transmission in-process tip is repaiied the burr, receives the effect of self gravity, defeated material screw rod 21 thrust and the three power of frictional force of burring running roller 23 simultaneously on the pipe, and self gravity direction intersects with defeated material screw rod 21 last thread, can maximize reduce the reaction force and act on briquetting 22 to make the pipe fixed more firm.

In one embodiment, the feeding screw 21 and the screw mounting seat 28 on one side are mounted on a sliding platform, the sliding platform is provided with a roller 25, two ends of the roller 25 are provided with gears 26, the first mounting platform 51 is provided with a rack 27, the gears 26 are cooperatively arranged on the rack 27, and the sliding platform is supported by the cooperation of the gears 26 and the rack 27. When the roller 25 is rotated, the gear 26 moves back and forth along the rack 27, so that the sliding platform generates displacement, the material conveying screw rods 21 and the deburring roller wheels 23 on the sliding platform synchronously displace, and the purpose of adjusting the distance between the two material conveying screw rods 21 is achieved, so that the device is suitable for processing round pipes with different lengths and sizes.

The deburring device 2 further comprises an outer cover 24, the outer cover 24 is covered on the upper side of the deburring roller 23 and used for shielding the deburring roller 23 from the upper side, one outer cover 24 can be fixedly arranged on the first mounting platform 51, the other outer cover 24 can be fixedly arranged on the sliding platform, and when the sliding platform is not included, the outer covers 24 are fixedly arranged on the first mounting platform 51.

In one embodiment, the press block 22 is mounted and fixed by a press block fixing frame 29, and the press block fixing frame 29 is mounted on the outer cover 24.

The deburring roller 23 is driven by a roller motor 231, and the roller motor 231 is arranged at the lower side or the lateral side of the first mounting platform 51.

Beat integrative device 4 of stopper throat and include closing device 41, iron stopper positioner 42 and pusher 43, iron stopper positioner 42 is located closing device 41 relative both sides, pusher 43 locates iron stopper positioner 42's the outside, closing device 41 is used for fixed pipe, iron stopper positioner 42 is used for placing the iron stopper, pusher 43 is used for with the pipe hole at pipe both ends is impressed in the iron stopper propelling movement of iron stopper positioner 42, just pusher 43 is to pipe both ends throat processing behind the pipe with the iron stopper propelling movement impress.

The pressing device 41 comprises a fixing block 411, a fixing groove 412 is formed in the fixing block 411, and when a round pipe enters the integral plugging and necking device 4 from the conveying device 3, the round pipe is limited and fixed in the fixing groove 412 to wait for the next plugging and necking operation.

The iron plug positioning device 42 comprises a plug feeding movable block 421 and a rotating block 422, the rotating block 422 is provided with an iron plug positioning groove 4221, and the rotating block 422 is hinged on the plug feeding movable block 421. Specifically, the one end of sending stopper movable block 421 is equipped with the boss 4211 of circular arc, be equipped with first connecting hole on the boss 4211, be equipped with the second connecting hole on the rotatory piece 422, just one side of rotatory piece 422 is equipped with lug 4222, be equipped with the recess 4223 of circular arc on the lug 4222, first connecting hole with the second connecting hole sets up relatively and connects through the rotation axis, boss 4211 with recess 4223 mutually supports. Further, a first mounting column 4212 is arranged on one side of the feeding plug movable block 421, a second mounting column 4224 is arranged on the same side of the rotating block 422 and the feeding plug movable block 421, and the feeding plug further comprises a spring 424, wherein one end of the spring 424 is connected with the first mounting column 4212, and the other end of the spring 424 is connected with the second mounting column 4224.

The integral device for plugging and necking further comprises a vibrating plug feeding disc 44, and the vibrating plug feeding disc 44 is connected with a plug feeding guide groove; the iron plug positioning device 42 is provided with a plug inlet track 423, and the plug feeding guide groove is connected with the plug inlet track 423. The plug inlet rail 423 is vertically arranged, the lower end of the plug inlet rail 423 is provided with a plug outlet 4232, the upper end of the plug inlet rail 423 is provided with a plug inlet 4231, the plug feeding movable block 421 moves back and forth, the rotating block 422 moves along with the plug feeding movable block 421, and when the plug outlet 4232 is aligned with the plug inlet 4221, the iron plug in the plug inlet rail 423 falls into the plug outlet 4221; when the iron plug positioning groove 4221 is removed from the plug outlet 4232, the upper end of the plug feeding movable block 421 abuts against the plug outlet 4232, so that the iron plug in the plug inlet rail 423 is prevented from falling.

The pushing device 43 includes a slider 431, a slider oil cylinder 432, an insert pin 433, an insert pin cylinder 434, and a necking die 435, wherein the slider oil cylinder 432 abuts against one side of the slider 431, the necking die 435 is provided on the other side of the slider 431 with respect to the slider oil cylinder 432, the insert pin cylinder 434 is provided in the slider 431, the insert pin 433 is provided on the insert pin cylinder 434, and the insert pin 433 is inserted from the necking die 435 to the outside of the slider 431. Specifically, the necking die 435 is a collar provided with a circular hole, and a tapered hole is formed at the bottom end of the circular hole of the collar.

The insert needle 433 is coaxially arranged with the fixing groove 412 on the fixing block 411, and when the stopper feeding movable block 421 pushes the rotating block 422 to move to the iron stopper positioning groove 4221 and to be coaxial with the fixing groove 412 and an iron stopper is arranged in the iron stopper positioning groove 4221 at the moment, the insert needle cylinder 434 pushes the insert needle 433 to penetrate the insert needle 433 into a thread hole of the iron stopper, so as to perform a positioning function; after the insert needle 433 penetrates into the iron plug, the plug feeding movable block 421 retreats, and the rotating block 422 performs hinge motion during retreating, so that the iron plug is separated from the iron plug positioning groove 4221, and the insert needle 433 can prevent the iron plug from falling after being separated from the iron plug positioning groove 4221; then, the slider oil cylinder 432 pushes the slider 431 again, so that the iron plug on the insert needle 433 penetrates into the circular tube hole, the necking die 435 is sleeved on the outer side of the end of the circular tube, and the end of the circular hole is extruded and deformed when being abutted to the taper hole, thereby forming a necking.

In one embodiment, the device further comprises a bearing platform 45, the pushing device 43, the iron plug positioning device 42, the vibrating plug feeding disc 44 and the fixing block 411 are all arranged on the bearing platform 45, and the bearing platform 45 is arranged on the second mounting platform 52. Furthermore, a plurality of positioning holes 451 arranged in rows are formed in the second mounting platform 52, fixing columns are arranged on the bearing platform 45, the fixing columns are arranged in the positioning holes 451, and the positions of the bearing platform 45 on the second mounting platform 52 are adjusted by mounting the fixing columns in different positioning holes 451.

Further, a partition plate 46 is further disposed on the bearing table 45, the partition plate 46 is disposed between the fixing block 411 and the sliding block 431, the iron plug positioning device 42 is disposed on the partition plate 46, and a through hole 461 is disposed at a position of the partition plate 46 corresponding to the fixing groove 412 of the fixing block 411. The inner side of the partition 46 abuts against the outer side of the transfer device 3.

The conveying device 3 is a sliding guide groove which is inclined downwards from the deburring device 2 side to the plugging and necking integrated device 4 side. Further, the slide guide groove includes a first slide guide groove 31 and a second slide guide groove 32, the second slide guide groove 32 is set to be vertically inclined, and the second slide guide groove 32 is connected to a front end of the first slide guide groove 31. The outer side of the sliding guide groove is provided with a limiting guide groove 33 at least in the area of the second sliding guide groove 32.

The storage device 1 comprises a storage support 11, and a discharging guide groove 12 which is arranged downwards is arranged on the storage support 11.

In conclusion, the automatic device for processing the circular tube, provided by the invention, has the advantages that the processes of plugging and necking are completed by the plugging and necking integrated device at one time, the automation degree of the whole equipment is high, and the production efficiency is high.

Any combination of the various embodiments of the present invention should be considered as disclosed in the present invention, unless the inventive concept is contrary to the present invention; within the scope of the technical idea of the invention, any combination of various simple modifications and different embodiments of the technical solution without departing from the inventive idea of the present invention shall fall within the protection scope of the present invention.

Claims (7)

1. The automatic device for machining the round tubes is characterized by comprising a storage device (1), a deburring device (2), a transmission device (3) and a plugging and necking integrated device (4), wherein the storage device (1) is connected with the deburring device (2) to supply round tube blanks to the storage device, the deburring device (2) is used for trimming burrs at two ends of a round tube of supplied materials, the transmission device (3) is connected between the deburring device (2) and the plugging and necking integrated device (4), the round tube is sent to the plugging and necking integrated device (4) by virtue of the transmission device (3) after being subjected to burr trimming treatment by the deburring device (2), and the plugging and necking integrated device (4) is used for plugging and necking the round tube;

the deburring device (2) comprises a material conveying screw rod (21), a pressing block (22) and a deburring roller wheel (23), wherein the material conveying screw rod (21) is provided with two spaced blocks, the space between every two adjacent screw teeth on the material conveying screw rod (21) is larger than or equal to the diameter of a round pipe, the pressing block (22) is correspondingly provided with two blocks which are respectively arranged at the upper side of the material conveying screw rod (21), and the deburring roller wheel (23) is correspondingly provided with two blocks which are respectively arranged at the outer side of the material conveying screw rod (21);

beat integrative device of stopper throat (4) and include closing device (41), iron stopper positioner (42) and pusher (43), iron stopper positioner (42) are located closing device (41) relative both sides, pusher (43) are located the outside of iron stopper positioner (42), closing device (41) are used for fixed pipe, iron stopper positioner (42) are used for placing the iron stopper, pusher (43) are used for with the hole at pipe both ends is impressed in the iron stopper propelling movement of iron stopper positioner (42), just pusher (43) are to pipe both ends throat processing behind the pipe with the iron stopper propelling movement is impressed.

2. An automated device for the machining of round tubes according to claim 1, characterized in that said transfer means (3) are provided as sliding channels inclined downwards from the side of said deburring means (2) to the side of said integral device (4) for the plugging and necking.

3. The automatic device for round pipe machining according to claim 2, characterized in that the automatic device for round pipe machining further comprises a rack, the rack is provided with a first mounting platform (51) and a second mounting platform (52) which are arranged in a height mode, the first mounting platform (51) is vertically higher than the second mounting platform (52), the deburring device (2) is mounted on the first mounting platform (51), the plugging and necking integrated device (4) is mounted on the second mounting platform (52), and the storage device (1) is arranged on one side of the first mounting platform (51).

4. The automatic device for round pipe machining according to claim 3 is characterized in that the storage device (1) comprises a storage bracket (11), and a downward-inclined discharge guide groove (12) is formed in the storage bracket (11).

5. The automatic device for round pipe processing as claimed in claim 4, wherein said first mounting platform (51) is disposed to be inclined downward from a front side to a rear side, and an axis of said feed screw (21) is disposed on said first mounting platform (51) in parallel with an inclined surface of said first mounting platform (51).

6. An automated device for round tube processing according to claim 5, characterized in that the slide guide comprises a first slide guide (31) and a second slide guide (32), the second slide guide (32) is set to be vertically inclined, and the second slide guide (32) is connected to the front end of the first slide guide (31).

7. An automated device for machining round tubes according to claim 6, characterized in that the outer side of the sliding guide is provided with a limiting guide (33) at least in the region of the second sliding guide (32).