CN116618697B

CN116618697B - Portable flange plate hole site processingequipment

Info

Publication number: CN116618697B
Application number: CN202310818191.1A
Authority: CN
Inventors: 韩连辉; 韩佳辰
Original assignee: Hebei Ohmlong Machinery Co ltd
Current assignee: Hebei Ohmlong Machinery Co ltd
Priority date: 2023-07-05
Filing date: 2023-07-05
Publication date: 2023-10-20
Anticipated expiration: 2043-07-05
Also published as: CN116618697A

Abstract

The invention discloses a portable flange hole site machining device, which comprises a lathe main body, wherein the lathe main body comprises a numerical control box, the outer surface of the numerical control box is rotationally connected with a lathe through a fixed seat, a supporting piece is arranged below the lathe, a clamp assembly is arranged below the lathe, the clamp assembly comprises a track plate, the outer surface of the track plate is fixedly connected with the inner wall of the lathe through a mounting rod, and the track plate is movably provided with a clamp through a slideway arranged in the track plate. This portable ring flange hole site processingequipment can solve effectively among the prior art, when the ring flange carries out the connecting hole processing, needs place the ring flange in numerical control lathe to carry out fixed mounting with anchor clamps, because ring flange gravity is heavier, the unloading is very inconvenient on the ring flange that is located numerical control lathe, and drilling produces a large amount of metal fragments simultaneously and falls into in the lathe, needs manual cleaning, increases intensity of labour's problem.

Description

Portable flange plate hole site processingequipment

Technical Field

The invention relates to the technical field of flange machining, in particular to a portable flange hole site machining device.

Background

The number and arrangement of the holes in the flange can be varied according to different pipes and products. The flange plate typically has the following holes: flange connection holes, flange channel holes, flange probe holes, flange ventilation holes and the like.

Wherein the flange plate connecting hole: a pair of attachment holes are used to attach flanges, typically threaded holes or bolt holes, of mating pipes or equipment to ensure tight and stable attachment. When the flange plate is used for processing the connecting hole, the flange plate is required to be placed in the numerical control lathe and fixedly installed with the clamp, and because the flange plate is heavy in gravity, the flange plate positioned in the numerical control lathe is very inconvenient to load and unload, and a large amount of metal scraps generated by drilling fall into the lathe, so that manual cleaning is required, and the labor intensity is increased.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects existing in the prior art, the invention provides the portable flange hole site machining device, which can effectively solve the problems that in the prior art, when a flange is used for machining a connecting hole, the flange is required to be placed in a numerical control lathe and is fixedly installed with a clamp, the flange is heavy in gravity, the flange in the numerical control lathe is inconvenient to feed and discharge, and a large amount of metal scraps are generated by drilling and fall into the lathe, so that manual cleaning is required, and the labor intensity is increased.

Technical proposal

In order to achieve the above purpose, the invention is realized by the following technical scheme:

the invention provides a portable flange plate hole site machining device, which comprises:

the lathe comprises a lathe body, wherein the lathe body comprises a numerical control box, the outer surface of the numerical control box is rotationally connected with a lathe through a fixed seat, and a supporting piece is arranged below the lathe;

the fixture assembly comprises a track plate, the outer surface of the track plate is fixedly connected with the inner wall of the lathe through a mounting rod, the track plate is movably provided with a fixture for placing an external flange through a slideway arranged in the track plate, and the outer surface of the fixture is sleeved with a scraping plate part sliding with the inner wall of the lathe;

the support piece comprises a base, a telescopic unit is fixedly connected to the top of the base, a support rod is fixedly connected to the lower surface of the lathe, and a support block sliding with the outer surface of the support rod is rotatably connected to the top of the telescopic unit.

Further, the inner wall of the lathe is fixedly connected with a drilling power set connected with the outer surface of the track plate, and the lathe is fixedly communicated with a collecting box through a filtering hole formed in the lathe.

Further, the inner wall of one side of the slideway, which is close to the numerical control box, is fixedly connected with an anti-collision block, the inner wall of the slideway is respectively fixedly connected with a rack and a track bar, and the rack and the track bar are respectively positioned at two sides of the anti-collision block.

Further, the fixture comprises a reciprocating block, the bottom of the reciprocating block is in sliding connection with the bottom of the inner wall of the slideway, a limiting ring which is attached to the upper surface of the track plate is fixedly connected to the circumferential outer surface of the reciprocating block, a toothed ring which is meshed with the rack is fixedly connected to the circumferential outer surface of the reciprocating block, the toothed ring is located under the limiting ring, a pair of adjacent surfaces of the toothed ring enclose a space which is attached to the outer surface of the track strip, and the reciprocating block is fixedly connected with a placing plate through a polish rod which is arranged at the top of the reciprocating block.

Further, place the board and have the movable block through seting up at its inside spout sliding connection, place the inside rotation of board be connected with the inside threaded connection's of movable block two-way threaded rod, the movable block top is provided with the clamping plate through the screw.

Further, the scraper blade spare includes the scraper blade, scraper blade surface and lathe inner wall sliding connection, scraper blade bottom fixedly connected with brush, scraper blade top fixedly connected with and polished rod circumference surface pivoted combination frame mutually, scraper blade is kept away from combination frame one side fixedly connected with and is connected with the reset spring that the lathe inner wall is connected, scraper blade is kept away from combination frame one side fixedly connected with magnetism and is inhaled the pole.

Further, the lathe surface is through frame fixedly connected with drive unit, drive unit's output fixedly connected with and the inside pivoted telescopic link that looks of frame, the triangular groove has been seted up at the board top of placing, telescopic link bottom fixedly connected with and the triangular bar of laminating mutually of triangular groove inner wall.

Advantageous effects

Compared with the prior art, the technical scheme provided by the invention has the following beneficial effects:

the invention is provided with a lathe, a supporting piece, a clamp, a slideway and a scraping plate piece, wherein a telescopic unit on the supporting piece resets, a supporting block and a supporting rod are driven to synchronously move downwards, the lathe is driven to rotate downwards around a fixed seat on the outer surface of a numerical control box, at the moment, the clamp is influenced by self gravity to move downwards along the slideway of a track plate, a toothed ring on the circumferential outer surface of a reciprocating block rolls downwards along a rack, meanwhile, adjacent surfaces of two toothed rings are attached to the outer surface of a track bar, the combination of the track bar and the toothed ring can avoid the separation of the reciprocating block, the track bar ensures the free rotation of the reciprocating block and prevents the toothed ring from touching the inner wall of the slideway until the clamp slides to the tail end, and a reset spring stretches and elastically deforms, so that the clamp is very close to an operator, thereby eliminating the trouble of transferring a flange plate into the lathe (and facilitating subsequent blanking). The support piece drives the lathe, the clamp and the flange plate to rotate downwards and incline, the polish rod on the clamp drives the combining frame to move downwards synchronously, the scraping plate is driven to slide downwards along the inner wall of the lathe, and the brush below the scraping plate is matched with the inclined lathe to clean scraps and cooling liquid rapidly.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It is evident that the drawings in the following description are only some embodiments of the present invention and that other drawings may be obtained from these drawings without inventive effort for a person of ordinary skill in the art.

FIG. 1 is a schematic view of a three-dimensional structure of an embodiment of the present invention;

FIG. 2 is a schematic view of a three-dimensional multi-angle structure according to an embodiment of the present invention;

FIG. 3 is a schematic view of a three-dimensional state transformation structure of a lathe, a fixture assembly, a drilling power unit, a driving unit and a telescopic rod according to an embodiment of the present invention;

FIG. 4 is a schematic view of a perspective structure of a clamp assembly according to an embodiment of the present invention;

FIG. 5 is a schematic view showing a perspective structure of a scraper member according to an embodiment of the present invention;

FIG. 6 is a schematic view of a three-dimensional structure of a clamp according to an embodiment of the present invention;

fig. 7 is a schematic view showing a three-dimensional separation structure of a track plate and a reciprocating block according to an embodiment of the present invention.

Reference numerals in the drawings represent respectively: 1. a lathe body; 11. a numerical control box; 12. a lathe; 121. a support rod; 122. a filter hole; 13. a support; 131. a base; 132. a telescopic unit; 133. a support block; 2. a clamp assembly; 21. a track plate; 211. a slideway; 212. an anti-collision block; 213. a rack; 214. a track bar; 22. a clamp; 221. a reciprocating block; 222. a limiting ring; 223. a toothed ring; 224. a polish rod; 225. placing a plate; 2251. triangular grooves; 226. a chute; 227. a moving block; 228. a two-way threaded rod; 229. a clamping plate; 23. a scraper member; 231. a scraper; 232. a combining frame; 233. a return spring; 234. a magnetic suction rod; 3. drilling a power set; 4. driving a unit; 5. a telescopic rod; 51. triangular pole.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more clear, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It will be apparent that the described embodiments are some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The invention is further described below with reference to examples.

Examples:

referring to fig. 1 to 7, the present invention provides a technical solution: a portable flange plate hole site processingequipment includes:

the lathe comprises a lathe body 1, wherein the lathe body 1 comprises a numerical control box 11, a lathe 12 is rotatably connected to the outer surface of the numerical control box 11 through a fixed seat, and a supporting piece 13 is arranged below the lathe 12;

the fixture assembly 2, the fixture assembly 2 comprises a track plate 21, the outer surface of the track plate 21 is fixedly connected with the inner wall of the lathe 12 through a mounting rod, the track plate 21 is movably provided with a fixture 22 for placing an external flange through a slideway 211 arranged in the track plate 21, and the outer surface of the fixture 22 is sleeved with a scraper 23 which slides with the inner wall of the lathe 12;

the supporting piece 13 comprises a base 131, a telescopic unit 132 is fixedly connected to the top of the base 131, a supporting rod 121 is fixedly connected to the lower surface of the lathe 12, and a supporting block 133 sliding with the outer surface of the supporting rod 121 is rotatably connected to the top of the telescopic unit 132.

The inner wall of the lathe 12 is fixedly connected with a drilling power set 3 connected with the outer surface of the track plate 21, and the lathe 12 is fixedly communicated with a collecting box through a filtering hole 122 formed in the lathe 12.

The inner wall of the side of the slide way 211, which is close to the numerical control box 11, is fixedly connected with an anti-collision block 212, the inner wall of the slide way 211 is respectively fixedly connected with a rack 213 and a track bar 214, and the rack 213 and the track bar 214 are respectively positioned at two sides of the anti-collision block 212.

The fixture 22 comprises a reciprocating block 221, the bottom of the reciprocating block 221 is in sliding connection with the bottom of the inner wall of the slideway 211 (channels communicated with the outside are respectively formed in two sides of the slideway 211, so that chips are prevented from flowing out), a limiting ring 222 attached to the upper surface of the track plate 21 is fixedly connected to the circumferential outer surface of the reciprocating block 221, a toothed ring 223 meshed with a rack 213 is fixedly connected to the circumferential outer surface of the reciprocating block 221, the toothed ring 223 is located right below the limiting ring 222, a space is surrounded by adjacent surfaces of the pair of toothed rings 223 and attached to the outer surface of the track bar 214, the reciprocating block 221 is fixedly connected with a placing plate 225 through a polish rod 224 arranged on the top of the reciprocating block 221, a wrench rotates a bidirectional threaded rod 228 to drive two groups of moving blocks 227 to move back until the moving blocks 227 are tightly attached to the inner side of the flange, the other group of bidirectional threaded rods 228 are rotated in the same way until the four groups of moving blocks 227 are expanded to tightly the flange, screws inside the clamping plate 229 are rotated by using screws in the screw drivers, the clamping plate 229 is tightly pressed on the upper surface of the flange, and the fixture 22 and the flange are combined into a whole.

The placing plate 225 is slidably connected with a moving block 227 through a sliding groove 226 formed in the placing plate 225, a bidirectional threaded rod 228 in threaded connection with the moving block 227 is rotatably connected in the placing plate 225, and a clamping plate 229 is arranged at the top of the moving block 227 through a screw.

The scraper plate 23 includes scraper blade 231, scraper blade 231 surface and lathe 12 inner wall sliding connection, scraper blade 231 bottom fixedly connected with brush, scraper blade 231 top fixedly connected with and polished rod 224 circumference surface pivoted combination frame 232, scraper blade 231 keeps away from combination frame 232 one side fixedly connected with and lathe 12 inner wall be connected with reset spring 233, scraper blade 231 keeps away from combination frame 232 one side fixedly connected with magnetism and inhales pole 234, magnetism is inhaled pole 234 and is connected with drilling power pack 3 surface magnetic force, improve reciprocating block 221 stop position's precision, consolidate reciprocating block 221 simultaneously, avoid it to take place the skew.

The outer surface of the lathe 12 is fixedly connected with a driving unit 4 through a frame, the output end of the driving unit 4 is fixedly connected with a telescopic rod 5 which rotates with the inside of the frame, a triangular groove 2251 is formed in the top of the placing plate 225, and the bottom end of the telescopic rod 5 is fixedly connected with a triangular rod 51 which is attached to the inner wall of the triangular groove 2251.

Referring to fig. 1-7, when the existing flange plate is used for processing the connecting hole, the flange plate needs to be placed in a numerical control lathe and fixedly installed with a clamp, and because the flange plate is heavy in gravity, the flange plate positioned in the numerical control lathe is inconvenient to load and unload, and meanwhile, a large amount of metal scraps generated by drilling fall into the lathe, so that the problem of labor intensity is increased due to the fact that manual cleaning is needed;

in order to overcome the defects, the invention designs a portable flange hole site machining device.

Feeding and discharging modes of flange plates:

at first, the telescopic unit 132 on the supporting piece 13 resets to drive the supporting block 133 and the supporting rod 121 to synchronously move downwards (the output end of the telescopic unit 132 and the supporting block 133 can freely rotate, the supporting block 133 can slide along the outer surface of the supporting rod 121), the lathe 12 is driven to rotate downwards around the fixed seat on the outer surface of the numerical control box 11, at this time, the clamp 22 is influenced by self gravity to move downwards along the slideway 211 of the track plate 21 (the toothed ring 223 on the circumferential outer surface of the reciprocating block 221 rolls downwards along the rack 213, meanwhile, the track bar 214 is tightly attached to the circumferential outer surface of the reciprocating block 221, so that the toothed ring 223 can be prevented from rubbing against the inner wall of the slideway 211), until the clamp 22 slides to the tail end (the reset spring 233 stretches and deforms elastically), and the clamp 22 is very close to an operator, so that the trouble of transferring the flange into the lathe 12 is omitted (and subsequent blanking is facilitated).

Firstly, a flange to be drilled is placed on the upper surface of a placing plate 225 of a clamp 22, then a spanner is used for rotating a bidirectional threaded rod 228 (the bidirectional threaded rod 228 rotates around the inside of the placing plate 225), two groups of moving blocks 227 are driven to move back until the moving blocks 227 are tightly attached to the inner side of the flange (the outer surfaces of the moving blocks 227 are designed to be cambered surfaces), the other group of bidirectional threaded rods 228 are rotated in the same way (the two groups of bidirectional threaded rods 228 are distributed vertically and are not interfered with each other) until the flange is expanded by the four groups of moving blocks 227, the central axis of the flange coincides with the central axis of the placing plate 225, then a screw in a clamping plate 229 is rotated by a screwdriver, the clamping plate 229 is driven to be tightly pressed on the upper surface of the flange, and the clamp 22 and the flange are combined into a whole.

During resetting, the telescopic unit 132 pushes the supporting block 133 and the supporting rod 121 to synchronously move upwards, drives the lathe 12 to rotate upwards around the fixed seat on the outer surface of the numerical control box 11 until the limiting block on the outer surface of the lathe 12 is attached to the outer surface of the numerical control box 11, the lathe 12 is in a horizontal state at this time, the clamp 22 and the flange plate are reset under the tensile force of the reset spring 233 until the flange plate is transferred to the position right below the telescopic rod 5 (the toothed ring 223 is stopped on the outer surface of the anti-collision block 212, meanwhile, the toothed ring 223 is stopped at the stopping position and is not provided with a rack 213, the toothed ring 223 is not interfered by the rack 213), then the telescopic rod 5 drives the triangular rod 51 to move downwards until the triangular rod 51 is clamped into the triangular groove 2251, the toothed ring 223 and the placing plate 225 are in a triangular design, so that quick combination is facilitated (because the toothed ring 223 is not interfered by the rack 213, the toothed ring 223 and the placing plate 225 can rotate freely), the limiting ring 222 is pressed on the upper surface of the track plate 21, the clamp 22 and the flange plate are prevented from being deflected and rotated, and finally the flange plate are drilled by the drilling power set 3, and meanwhile, the driving unit 4 drives the clamp 22 and the flange plate to perform equidistant drilling.

The drilling process generates a large amount of metal scraps which fall into the lathe 12, and the quick recovery of the metal scraps can be realized by utilizing the loading and unloading processes of the flange plate.

Specifically, when the lathe 12 is in a horizontal state, the drilling power unit 3 drills a hole on the flange, generated scraps and cooling liquid fall into the lathe 12, after the machining is finished, the supporting piece 13 drives the lathe 12, the clamp 22, the flange and the like to rotate downwards and incline, the polish rod 224 on the clamp 22 drives the combining frame 232 to synchronously move downwards (the polish rod 224 can rotate freely around the inside of the combining frame 232), the scraper 231 is driven to slide downwards along the inner wall of the lathe 12 (the reset spring 233 stretches and elastically deforms), and the inclined lathe 12 is matched, and the brushes below the scraper 231 quickly clean the scraps and the cooling liquid (the flange can be cleaned once more), until the scraps are gathered at the lowest part of the lathe 12 (the cooling liquid flows into the collecting box to be recovered through the filtering holes 122).

Meanwhile, a large amount of scraps still remain on the upper surfaces of the clamp 22 and the flange after processing, and the invention can realize the rapid recovery of metal scraps in the lathe 12 and the synchronous recovery of scraps on the upper surfaces of the clamp 22 and the flange by utilizing the loading and unloading processes of the flange.

Specifically, the supporting member 13 drives the lathe 12, the clamp 22, the flange plate and the like to rotate downwards and incline, the reciprocating block 221 slides downwards along the bottom of the inner wall of the slideway 211, two toothed rings 223 are sleeved and fixed on the circumferential outer surface of the reciprocating block 221, the adjacent surfaces of the two toothed rings 223 are attached to the outer surface of the track bar 214, the track bar 214 is combined with the toothed rings 223, the reciprocating block 221 can be prevented from being separated (the limit ring 222 is attached to the track plate 21), and the track bar 214 ensures that the reciprocating block 221 rotates freely and prevents the toothed rings 223 from touching the inner wall of the slideway 211. Meanwhile, when the reciprocating block 221 moves downwards, the toothed ring 223 is engaged by the rack 213, the reciprocating block 221 rolls downwards along the outer surface of the rack 213, so that the clamp 22 and the flange plate rotate freely, the inclined clamp 22 and the flange plate utilize the centrifugal force to enable the chips left on the surfaces of the inclined clamp 22 and the flange plate to be separated quickly and fall into the lathe 12 (as the reciprocating block 221 accelerates continuously, the rotation speed of the clamp 22 and the flange plate increases to ensure the chips to be separated quickly, then the elasticity of the return spring 233 increases continuously, the speed of the reciprocating block 221 slows down until stopping, the impact is avoided), and the separated chips are synchronously removed by matching with the brush below the scraper 231, so that the trouble of cleaning the chips above the clamp 22 and the flange plate independently is omitted.

The above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; these modifications or substitutions do not depart from the essence of the corresponding technical solutions from the protection scope of the technical solutions of the embodiments of the present invention.

Claims

1. Portable ring flange hole site processingequipment, its characterized in that includes:

the lathe comprises a lathe body (1), wherein the lathe body (1) comprises a numerical control box (11), a lathe (12) is rotatably connected to the outer surface of the numerical control box (11) through a fixed seat, and a supporting piece (13) is arranged below the lathe (12);

the fixture assembly (2), the fixture assembly (2) comprises a track plate (21), the outer surface of the track plate (21) is fixedly connected with the inner wall of the lathe (12) through a mounting rod, the track plate (21) is movably provided with a fixture (22) for placing an external flange plate through a slideway (211) arranged in the track plate, and a scraper part (23) sliding with the inner wall of the lathe (12) is sleeved on the outer surface of the fixture (22);

the support piece (13) comprises a base (131), a telescopic unit (132) is fixedly connected to the top of the base (131), a support rod (121) is fixedly connected to the lower surface of the lathe (12), and a support block (133) sliding with the outer surface of the support rod (121) is rotatably connected to the top of the telescopic unit (132);

wherein the slide way (211) is close to an inner wall of one side of the numerical control box (11) and fixedly connected with an anti-collision block (212), the inner wall of the slide way (211) is fixedly connected with a rack (213) and a track bar (214) respectively, the rack (213) and the track bar (214) are respectively positioned at two sides of the anti-collision block (212), the clamp (22) comprises a reciprocating block (221), the bottom of the reciprocating block (221) is in sliding connection with the bottom of the inner wall of the slide way (211), the circumferential outer surface of the reciprocating block (221) is fixedly connected with a limiting ring (222) which is attached to the upper surface of the track plate (21), the circumferential outer surface of the reciprocating block (221) is fixedly connected with a toothed ring (223) which is meshed with the rack (213), the toothed ring (223) is positioned under the limiting ring (222), a pair of adjacent surfaces of the toothed ring (223) enclose a space which is attached to the outer surface of the track bar (214), the reciprocating block (221) is fixedly connected with a placing plate (225) through a polish rod (224) arranged at the top of the reciprocating block, the placing plate (225) is connected with a moving plate (227) through a sliding block (226) arranged inside the reciprocating plate (226), the placing plate (225) is connected with a moving screw thread (228) inside the moving plate (228), the top of the moving block (227) is provided with a clamping plate (229) through a screw.

2. The portable flange hole site machining device according to claim 1, wherein: the inner wall of the lathe (12) is fixedly connected with a drilling power set (3) connected with the outer surface of the track plate (21), and the lathe (12) is fixedly communicated with a collecting box through a filtering hole (122) formed in the lathe.

3. The portable flange hole site machining device according to claim 1, wherein: the scraper blade piece (23) comprises a scraper blade (231), scraper blade (231) surface and lathe (12) inner wall sliding connection, scraper blade (231) bottom fixedly connected with brush, scraper blade (231) top fixedly connected with combines frame (232) with polished rod (224) circumference surface pivoted mutually, scraper blade (231) keep away from combination frame (232) one side fixedly connected with and lathe (12) inner wall be connected reset spring (233), scraper blade (231) keep away from combination frame (232) one side fixedly connected with magnetism suction rod (234).

4. The portable flange hole site machining device according to claim 1, wherein: the outer surface of the lathe (12) is fixedly connected with a driving unit (4) through a frame, the output end of the driving unit (4) is fixedly connected with a telescopic rod (5) which rotates with the inside of the frame, a triangular groove (2251) is formed in the top of the placing plate (225), and the bottom end of the telescopic rod (5) is fixedly connected with a triangular rod (51) which is attached to the inner wall of the triangular groove (2251).