CN117428029A - Tile pressing equipment for seamless steel tube machining - Google Patents

Abstract

The invention relates to the field of seamless steel tube processing, and discloses a tile pressing device for seamless steel tube processing, which comprises a processing table, wherein mounting frames are arranged at the two sides of the upper surface of the processing table, a base is arranged at the bottom end of each mounting frame, a hydraulic cylinder is arranged at the top end of each mounting frame, an extrusion seat is arranged at the bottom end of an output shaft of the hydraulic cylinder inserted into the mounting frame, a feeding plate is arranged at one end of the processing table, a storage frame is arranged at the front side and the rear side of the feeding plate, a material leakage opening is arranged at the middle part of the feeding plate, two support plates are arranged in the material leakage opening of the feeding plate, and when the steel tubes stored in the storage frame automatically roll onto the feeding plate, the hydraulic cylinder drives the extrusion seat to move downwards, a pushing block can be automatically driven to move in the feeding plate to push the steel tubes onto the base, so that automatic feeding and tile pressing work is realized, the operation is more labor-saving and convenient, and the working efficiency is improved.

Description

Tile pressing equipment for seamless steel tube machining

Technical Field

The invention relates to the technical field of seamless steel tube processing, in particular to a tile pressing device for seamless steel tube processing.

Background

The seamless steel pipe is formed by perforating a whole round steel, has no weld on the surface, is mainly used as a petroleum geological drilling pipe, a cracking pipe for petrochemical industry and a boiler tube lamp, has lighter weight when compared with solid steel such as round steel and the like and has the same bending and torsion resistance, is an economic section steel, and needs to be processed into a plurality of pipe fittings with special section shapes in the processing process of the seamless steel pipe so as to be convenient for the wide use of the steel pipe and needs to use a steel pipe tile pressing machine;

the existing steel pipe tile pressing machine is characterized in that a hydraulic cylinder, an extrusion seat and a base are arranged on a machine table, a steel pipe to be pressed is placed on the base, and the hydraulic cylinder drives the extrusion seat to move downwards to realize tile pressing work;

however, in the actual operation process, the steel pipe needs to be manually conveyed to the steel pipe for bending, when the tile pressing is finished, the steel pipe after the tile pressing is conveyed down, and when a large number of steel pipes are pressed, the operation is time-consuming and labor-consuming, and the working efficiency is reduced.

Disclosure of Invention

In order to solve the problems in the background art, the invention provides a tile pressing device for seamless steel tube processing.

The invention provides a tile pressing device for processing a seamless steel tube, which adopts the following technical scheme:

the utility model provides a seamless steel pipe processing's tile pressing equipment, includes the processing platform, the upper surface both sides department of processing platform all is provided with the installing frame, every the bottom of installing frame all is provided with the base, the pneumatic cylinder is installed on the top of installing frame, install the extrusion seat on the bottom in the installing frame to the pneumatic cylinder output shaft, the one end department of processing platform is provided with the delivery sheet, the storage frame is all installed to the front and back both sides of delivery sheet, the lower inner wall slope towards one side of delivery sheet of storage frame is provided with the feed opening in the middle department on the delivery sheet, be provided with two backup pads in the feed opening of delivery sheet, one side department that keeps away from the processing platform in the feed opening is provided with the ejector pad, the bottom of ejector pad is connected with the fixed strip that wears out the feed opening, the bottom of a fixed strip side is connected with the head rod, the first spout has been seted up to one side department of processing platform trailing flank, sliding connection has the slide bar, be connected with the second connecting rod on the slide bar, the lower inner wall slope towards one side of delivery sheet, the delivery sheet is provided with the side, the side of a side of delivery sheet is provided with the guide sleeve, the side of a lateral rod is provided with the side of a lateral rod is connected with the first side, the side of the head rod is provided with the side of the first lateral rod, the side of the head rod is connected with the side of the head rod, the top of the head rod is provided with the side of the first lateral rod, the top of the head rod is provided with the top of the side of the top of the end of the first lateral rod, the rotary rod is characterized in that a rotary rod is connected to the other end of the first rotary rod, a first inserting rod is connected to one end, far away from the first rotary rod, of the rotary rod, one end of the first inserting rod is inserted into the movable frame, a baffle is connected to the other side above the processing table, and a fixing rod is arranged on the baffle.

Preferably, two through grooves are respectively formed in the two storage frames and close to the feeding plate, each through groove is inserted with a lifting plate, a through groove is formed in the lifting plate along the length direction of the lifting plate, a first U-shaped rod penetrates through the through groove, and two ends of the first U-shaped rod are connected to the lower surface of the storage frames.

Preferably, the position department that is close to the lifter plate of depositing frame left and right sides face all is connected with the fixed block, two rotate on the fixed block and pass there is the second bull stick, the second bull stick passes between two lifter plates of every group, the middle department cover on the second bull stick has the second gear, every group all be provided with the tooth of being connected with the second gear engagement on the lifter plate, the one end of second bull stick is provided with the turning handle, be connected with the torsional spring between turning handle and the depositing frame.

Preferably, two second openings are formed in the material pushing block, a moving block penetrates through the second openings, one ends of the moving blocks are connected with clamping plates, the middle of one side face of each clamping plate is connected with a third inserting rod, fixing plates are connected to the upper positions of two side faces of a material leakage opening in the material feeding plate, second guide grooves are formed in the fixing plates, and one ends of the third inserting rods are inserted into the second guide grooves.

Preferably, the top department of fixed strip both sides face all is connected with the lug, install the extrusion wheel in the lug, the backup pad is close to one side department that the processing platform was kept away from to a side each other all is provided with extrusion portion, two all be connected with many L shape strips on the backup pad one side that is kept away from each other, both sides face department all is connected with T shape pole in the position department that corresponds every L shape strip around the delivery sheet, L shape strip cover is established on corresponding T shape pole, the cover has first spring on the T shape pole, the both ends of first spring are connected respectively on the one end and the L shape strip of T shape pole.

Preferably, the bottom department of fixed strip another side is connected with the third connecting rod, the one end department that the third connecting rod extends to the processing bench is provided with the vertical bar, be provided with the clearance pole on the vertical bar, the cover has a clearance section of thick bamboo on the clearance pole, be provided with the brush hair on the clearance section of thick bamboo.

Preferably, the second sliding groove is formed in the vertical bar, the sliding block is arranged in the second sliding groove in a sliding manner, the cleaning rod rotates to penetrate through the sliding block, the vertical plate is arranged at the position, close to the vertical bar, on the machining table, a third guide groove is formed in the vertical plate, the cleaning rod penetrates through the third guide groove, the guide bar is arranged below the vertical plate, located on the front face of the third guide groove, the shape of the guide bar is the same as that of the third guide groove, a third gear is sleeved on the cleaning rod, and the third gear is connected with teeth on the guide bar in a meshed mode.

Preferably, two mounting plates are installed to the one end of processing platform, the one end of the front and back both sides face of charge plate is rotated through the connecting axle and is connected on two mounting plates, the one end of the head rod rotates on the fixed strip and is provided with first swivel nut, first swivel nut pivoted cover is established on first installation piece, first installation piece is connected on the movable frame, the one end rotation of third connecting rod on the fixed strip is provided with the second swivel nut, the second swivel nut cover is established on the second installation piece, the second installation piece is connected on the vertical bar, all be provided with the screw thread on first installation piece and the second installation piece.

Preferably, the feeding plate is provided with a second U-shaped rod in a penetrating manner along the length direction of the feeding plate, two fixing sleeves are sleeved at positions, close to the middle position, on the second U-shaped rod, a second spring is connected between the fixing sleeves and the feeding plate, positioning sleeves are connected to two ends, penetrating out of the feeding plate, of the second U-shaped rod, supporting rods are connected to the positions, corresponding to the two positioning sleeves, of the processing table, and the top ends of the supporting rods are connected with positioning blocks, and the positioning sleeves are sleeved on the positioning blocks.

In summary, the invention has the following beneficial technical effects:

according to the invention, the feeding plate and the storage frame are arranged at one end of the processing table, the storage frame can be used for storing the steel pipes to be processed, the feeding plate and the processing table are provided with the first connecting rod, the first rotating rod, the first sliding chute, the sliding strip, the moving frame, the pushing block, the fixed strip, the supporting plate, the second connecting rod, the first inserting rod, the first gear, the transverse strip, the moving plate, the first guide groove, the second inserting rod, the first opening and the transverse rod, so that the steel pipes stored in the storage frame automatically roll down on the feeding plate, and when the hydraulic cylinder drives the extrusion seat to move downwards, the pushing block can be automatically driven to move in the feeding plate to push the steel pipes to the base, so that automatic feeding and tile pressing processing work are realized, the operation is more labor-saving and convenient, and the working efficiency is improved;

according to the invention, through grooves, lifting plates, penetrating rods, first U-shaped rods, fixed blocks, second rotating rods, rotating handles, second gears and torsion springs are respectively arranged on two storage frames, each group of two lifting plates are in meshed connection with the corresponding second gears, when the rotating handles are used for rotating the second rotating rods, the two lifting plates of each group can be driven to synchronously move upwards and downwards, the lifting plates which move downwards can open the storage frames, so that steel pipes closest to the feeding plates automatically roll onto the feeding plates to be fed, the lifting plates which move upwards can block the remaining steel pipes on the storage frames, and the phenomenon that a plurality of steel pipes on the storage frames directly roll onto the feeding plates to be stacked is avoided, so that normal pushing work is prevented, and the operation is simple and convenient;

according to the invention, the second opening, the moving block, the third inserting rod and the clamping plate are arranged on the pushing block, one end of the third inserting rod is inserted into the second guide groove formed in the fixed plate, so that the pushing block can automatically clamp the steel pipe on the pushing block to be sent to the processing table for processing by utilizing the sliding of one end of the third inserting rod in the second guide groove when pushing the steel pipe to move towards the processing table, the dropping problem of the steel pipe in the pushing process is reduced, and the steel pipe can also be automatically pulled back to the feeding plate after processing;

the supporting plate is sleeved on the T-shaped rod on the feeding plate through the L-shaped strip, the first spring is connected between the L-shaped strip and one end of the T-shaped rod, the extrusion part is arranged at one end of the supporting plate, the extrusion wheel is arranged on the convex block on the fixed strip, the pushing block can automatically push the supporting plate towards two sides when the steel pipe is pulled back to drive the extrusion wheel to extrude onto the extrusion part, the feeding plate is opened, the clamping plate releases the steel pipe, and the processed steel pipe can automatically fall from the feeding plate to a receiving frame below the feeding plate, so that an automatic blanking function is realized, and the working efficiency is further improved;

according to the invention, the vertical bar, the second sliding groove, the cleaning rod, the cleaning cylinder, the bristles, the sliding block, the guide bar, the third gear, the vertical plate and the third guide groove are arranged on the processing table, and the vertical bar is connected to the fixing bar through the third connecting rod, so that the fixing bar and the pushing block can drive the cleaning cylinder and the bristles to integrally clean sundries on the base while moving back and forth, the influence on the processing quality of a steel pipe is avoided, and meanwhile, the cleaning cylinder can rotate when moving by utilizing the rolling of the third gear on the guide bar, so that the bristles can be driven to clean the sundries on the base better, and the cleaning quality is improved;

the feeding plate is rotationally connected to the two mounting plates on the processing table through the connecting shaft, and the feeding plate and the storage frame can be integrally rotated from one end of the processing table by utilizing the rotation of the feeding plate on the mounting plates, so that the occupied space of the equipment is reduced, and the equipment is convenient to store; the feeding plate is provided with a second U-shaped rod, a fixed sleeve, a second spring and a positioning sleeve, the processing table is provided with a supporting rod and a positioning block, and when the feeding plate is turned flat and the frame is stored, the positioning sleeve at the end of the second U-shaped rod is driven to the positioning block by the elasticity of the second spring to position the turned flat feeding plate, so that feeding can be smoothly performed.

Drawings

FIG. 1 is a schematic structural view of a tile pressing device for seamless steel tube processing in an embodiment of the invention;

FIG. 2 is an enlarged view of the structure at A of FIG. 1 in an embodiment of the invention;

FIG. 3 is a schematic view of a rear side of a tile pressing device for seamless steel pipe processing according to an embodiment of the present invention;

FIG. 4 is an enlarged view of the structure at B of FIG. 3 in an embodiment of the present invention;

FIG. 5 is an enlarged view of the structure at C of FIG. 3 in an embodiment of the present invention;

FIG. 6 is a schematic diagram of the structure of a feeding plate and a storage frame of a tile pressing device for seamless steel tube processing in an embodiment of the invention;

FIG. 7 is an enlarged view of the structure at D of FIG. 6 in an embodiment of the invention;

FIG. 8 is an enlarged view of the structure at E of FIG. 6 in an embodiment of the invention;

FIG. 9 is a schematic view of the structure of the lower part of a feeding plate and a storage frame of a tile pressing device for seamless steel tube processing in the embodiment of the invention;

FIG. 10 is an enlarged view of the structure at F of FIG. 9 in an embodiment of the invention;

FIG. 11 is an enlarged view of the structure at G of FIG. 9 in an embodiment of the invention;

fig. 12 is a schematic view showing a position structure of a third guide groove of a tile pressing device for seamless steel tube processing according to an embodiment of the present invention.

Reference numerals illustrate: 1. a processing table; 2. a mounting frame; 3. a base; 4. a hydraulic cylinder; 5. extruding a base; 6. a feeding plate; 7. a storage frame; 8. a first connecting rod; 9. a first rotating lever; 10. rotating the strip; 11. a first chute; 12. a slide bar; 13. a moving frame; 14. a baffle; 15. a pushing block; 16. a fixing strip; 17. a fixed rod; 18. a support plate; 19. a second connecting rod; 20. a first plunger; 21. a first gear; 22. a cross bar; 23. a moving plate; 24. a first guide groove; 25. a second plunger; 26. a first opening; 27. a cross bar; 28. a through groove; 29. a lifting plate; 30. a through groove; 31. a first U-shaped bar; 32. a fixed block; 33. a second rotating rod; 34. a rotating handle; 35. a second gear; 36. a second opening; 37. a moving block; 38. a third plunger; 39. a fixing plate; 40. a second guide groove; 41. a clamping plate; 42. an extrusion part; 43. an L-shaped strip; 44. a T-bar; 45. a first spring; 46. a bump; 47. a pressing wheel; 48. a third connecting rod; 49. a riser; 50. a third guide groove; 51. a vertical bar; 52. a second chute; 53. cleaning a rod; 54. a cleaning cylinder; 55. brushing; 56. a slide block; 57. a guide bar; 58. a third gear; 59. a mounting plate; 60. a first mounting block; 61. a first screw sleeve; 62. a second screw sleeve; 63. a second mounting block; 64. a fixed sleeve; 65. a second spring; 66. a positioning block; 67. a support rod; 68. a positioning sleeve; 69. a second U-shaped bar.

Description of the embodiments

The present invention is described in further detail below with reference to fig. 1-12.

Referring to fig. 1, 3, 4, 5, 6 and 7, an embodiment of the present invention discloses a tile pressing apparatus for seamless steel pipe processing, which comprises a processing table 1, wherein both sides of the upper surface of the processing table 1 are respectively provided with a mounting frame 2, the bottom end of each mounting frame 2 is provided with a base 3, the top end of each mounting frame 2 is provided with a hydraulic cylinder 4, an output shaft of the hydraulic cylinder 4 is inserted into the bottom end in the mounting frame 2 and is provided with an extrusion seat 5, one end of the processing table 1 is provided with a feeding plate 6, both front and rear sides of the feeding plate 6 are respectively provided with a storage frame 7, the lower inner wall of the storage frame 7 is obliquely arranged towards one side of the feeding plate 6, the middle part of the feeding plate 6 is provided with a material leakage opening, two support plates 18 are arranged in the material leakage opening of the feeding plate 6, one side of the material leakage opening away from the processing table 1 is provided with a pushing block 15, the bottom end of the pushing block 15 is connected with a fixing strip 16 penetrating the material leakage opening, the bottom end of one side surface of the fixed bar 16 is connected with a first connecting bar 8, one side of the rear side surface of the processing table 1 is provided with a first chute 11, a slide bar 12 is arranged in the first chute 11 in a sliding way, the end surfaces of the first chute 11 and the slide bar 12 are both in a T shape, a second connecting bar 19 is connected on the slide bar 12, one end of the second connecting bar 19 is connected with a movable frame 13, one end of the first connecting bar 8 is arranged on the movable frame 13, the bottom end of the rear side surface of the mounting frame 2 is provided with a first opening 26, a cross bar 27 is connected between the inner walls of the two ends of the first opening 26, a movable plate 23 is movably sleeved on the cross bar 27, a first guide groove 24 (the shape of the first guide groove 24 is shown in figure 4) is arranged on the movable plate 23, the rear side surface of the extrusion seat 5 is connected with a second inserting bar 25, one end of the second inserting bar 25 is movably inserted into the first guide groove 24, the middle of the rear side of the base 3 is rotationally connected with a first rotating rod 9, the fixed sleeve on one end of the first rotating rod 9, which is close to the base 3, is provided with a first gear 21, the lower part of one side of a moving plate 23 is connected with a transverse bar 22, teeth which are meshed with the first gear 21 are arranged below the transverse bar 22, the other end of the first rotating rod 9 is connected with a rotating bar 10, one end of the rotating bar 10, which is far away from the first rotating rod 9, is connected with a first inserting rod 20, one end of the first inserting rod 20 is movably inserted into a moving frame 13, the other side of the upper surface of the processing table 1 is connected with a baffle 14, a fixed rod 17 is arranged on the baffle 14, when the hydraulic cylinder 4 is started to drive the extrusion seat 5 to move downwards, the second inserting rod 25 is driven to slide downwards in the first guide groove 24, the moving plate 23 is driven to move on the transverse bar 27, the whole is driven to rotate through the transverse bar 22, the first gear 21, the first rotating rod 9 and the rotating bar 10 are driven to slide downwards by the transverse bar 10, the first inserting rod 20 at one end of the moving frame 13, the sliding rod 12 slides downwards in the first steel pipe 11, the sliding frame 11 slides downwards in the first guide groove 4, the steel pipe 8 slides downwards along with the steel pipe 6, the working table 6 slides downwards along with the working table 6, the working table 4 is pushed upwards, the working table is pushed upwards, the working efficiency is pushed upwards and the working efficiency is pushed to move the working efficiency 3 and can be pushed to move and can move and move material 3 and move along with the working efficiency 5 and roll 4.

Referring to fig. 6, 7, 9 and 11, two through grooves 28 are respectively formed in the two storage frames 7 near the feeding plate 6, lifting plates 29 are inserted into each through groove 28, through grooves 30 are formed in the lifting plates 29 along the length direction of the through grooves, the side surfaces of the lifting plates 29 are tightly attached to the walls of the through grooves 30, first U-shaped rods 31 movably penetrate through the through grooves 30, the first U-shaped rods 31 can play a role in preventing the lifting plates 29 from falling, two ends of the first U-shaped rods 31 are connected to the lower surface of the storage frames 7, fixed blocks 32 are connected to the positions, near the lifting plates 29, of the left and right side surfaces of the storage frames 7, second rotating rods 33 penetrate through the two fixed blocks 32 in a rotating manner, second gears 35 are fixedly sleeved at the middle positions of the second rotating rods 33, teeth meshed with the second gears 35 are arranged on each lifting plate 29, one end of the second rotating rod 33 is provided with a rotating handle 34, a torsion spring is connected between the rotating handle 34 and the storage frame 7, when the corresponding storage frame 7 rotates the second rotating rod 33 and the second gear 35 integrally, each group of two lifting plates 29 can be driven to synchronously move towards opposite directions, when one lifting plate 29 close to the feeding plate 6 moves downwards, the shielding of one steel pipe closest to the feeding plate 6 can be relieved on the storage frame 7, the steel pipe can smoothly roll onto the feeding plate 6, the other lifting plate 29 moves upwards, the rest steel pipe can be blocked on the storage frame 7, the rest steel pipe is prevented from continuously rolling onto the feeding plate 6, normal feeding work is prevented, after feeding is finished, the two lifting plates 29 are driven to reset by the elasticity of the torsion spring to shield the rest steel pipe integrally in the storage frame 7, so that the pushing block 15 can smoothly push the corresponding steel pipe to the base 3 for processing.

Referring to fig. 6, 7, 9 and 10, two second openings 36 are formed in the pushing block 15, a moving block 37 movably penetrates through the second openings 36, the moving block 37 is tightly attached to one side surface of the pushing block 15, one ends of the two moving blocks 37 are connected with clamping plates 41, the clamping plates 41 are tightly attached to the other side surface of the pushing block 15, a third inserting rod 38 is connected to the middle of one side surface of the two clamping plates 41, a fixed plate 39 is connected to the upper position of two side surfaces of a material leakage opening on the feeding plate 6, a second guide groove 40 (the shape of the second guide groove 40 is shown in fig. 6 and 7) is formed in the fixed plate 39, one end of the third inserting rod 38 is movably inserted into the second guide groove 40, when the pushing block 15 moves to push a steel pipe, one end of the third inserting rod 38 slides in the second guide groove 40 to push the two clamping plates 41 to move towards one side surface close to each other on the pushing block 15, so that feeding is performed, and when processing is finished, automatic feeding is performed;

the top of both sides of fixed strip 16 all is connected with lug 46, install extrusion wheel 47 in the activity of lug 46, the backup pad 18 is close to one side each other and is kept away from the one side department of processing platform 1 all is provided with extrusion 42 (extrusion 42's shape is as shown in fig. 7), all be connected with many L shape bars 43 on the one side that two backup pads 18 kept away from each other, the position department that corresponds every L shape bar 43 at the front and back both sides face of delivery sheet 6 all is connected with T shape pole 44, L shape bar 43 movable sleeve establishes on corresponding T shape pole 44, T shape pole 44 is last to be overlapped and is equipped with first spring 45, the both ends of first spring 45 are connected respectively on T shape pole 44's one end and L shape bar 43, when processing is finished, splint 41 clamp steel pipe brings it back to delivery sheet 6, along with the reverse movement of pushing away material piece 15, thereby two backup pads 18 are pushed away to extrusion wheel 47 extrusion 42 on the backup pad 18, open the drain on delivery sheet 6, and 41 follow open the steel pipe, make can drop from the drain opening to the automatic collection in the frame of below, further improvement work efficiency.

Referring to fig. 1 and 2, a third connecting rod 48 is connected to the bottom end of the other side of the fixing bar 16, a vertical bar 51 is provided at one end of the third connecting rod 48 extending to the processing table 1, a cleaning bar 53 is provided on the vertical bar 51, a cleaning cylinder 54 is fixedly sleeved on the cleaning bar 53, bristles 55 are provided on the cleaning cylinder 54, a second sliding groove 52 is provided on the vertical bar 51, a sliding block 56 is slidingly provided in the second sliding groove 52, the cleaning bar 53 rotates through the sliding block 56, a vertical plate 49 is mounted on the processing table 1 at a position close to the vertical bar 51, a third guide groove 50 is provided on the vertical plate 49 (the shape of the third guide groove 50 is shown in fig. 12), the cleaning bar 53 passes through the third guide groove 50, a guide bar 57 is provided on the front surface of the vertical plate 49 below the third guide groove 50, the guide bar 57 has the same shape as the third guide groove 50, the cleaning rod 53 is fixedly sleeved with a third gear 58, the third gear 58 is meshed with teeth on the guide strip 57, when the pushing block 15 moves, the third connecting rod 48 drives the vertical strip 51 to move, so that the cleaning cylinder 54 and the bristles 55 on the cleaning rod 53 are driven to integrally clean sundries on the base 3, the influence on the processing quality of steel pipes due to the residual sundries on the base 3 is reduced, the cleaning rod 53, the cleaning cylinder 54 and the bristles 55 can be driven to integrally rotate by utilizing the rolling of the third gear 58 on the guide strip 57, the cleaning quality of the base 3 is improved, and when the pushing block 15 completely pushes the steel pipes to the base 3, the cleaning rod 53 and the cleaning cylinder 54 can be driven to integrally move to the position below the side surface of the base 3 under the guiding action of the third guide groove 50, so that the normal steel pipe tile pressing operation is prevented.

Referring to fig. 1, 6, 7 and 8, two mounting plates 59 are mounted at one end of the processing table 1, one ends of front and rear side surfaces of the feeding plate 6 are rotatably connected to the two mounting plates 59 through connecting shafts, one end of a first connecting rod 8 on the fixed bar 16 is rotatably provided with a first screw sleeve 61, the first screw sleeve 61 is rotatably sleeved on a first mounting block 60, the first mounting block 60 is connected to the movable frame 13, one end of a third connecting rod 48 on the fixed bar 16 is rotatably provided with a second screw sleeve 62, the second screw sleeve 62 is sleeved on a second mounting block 63, the second mounting block 63 is connected to the vertical bar 51, threads are arranged on the first mounting block 60 and the second mounting block 63, the first screw sleeve 61 is rotated down from the first mounting block 60, the second screw sleeve 62 is rotated down from the second mounting block 63, and the feeding plate 6 and the storage frame 7 can be rotated down by taking the connecting shafts as axes to reduce the whole occupied space of the equipment, and the equipment is convenient to store;

the feeding plate 6 is movably penetrated by a second U-shaped rod 69 along the length direction, two fixing sleeves 64 are fixedly sleeved on the second U-shaped rod 69 near the middle position, a second spring 65 is connected between the fixing sleeves 64 and the feeding plate 6, positioning sleeves 68 are connected to two ends of the second U-shaped rod 69 penetrating out of the feeding plate 6, supporting rods 67 are connected to the positions, corresponding to the two positioning sleeves 68, of the processing table 1, the top ends of the supporting rods 67 are connected with positioning blocks 66, the positioning sleeves 68 are movably sleeved on the positioning blocks 66, and when the feeding plate 6 and the storage frame 7 are rotated by the aid of the second U-shaped rod 69, the positioning sleeves 68 at the end parts of the second U-shaped rod 69 can be pulled to be sleeved on the positioning blocks 66 under the action of the elasticity of the second spring 65 so as to integrally fix the turned feeding plate 6 and the storage frame 7.

The embodiment of the invention relates to a tile pressing device for seamless steel tube processing, which comprises the following implementation principle: the steel pipes to be processed are stored in the two storage frames 7, the collection frames are placed below the feeding plates 6, then the second rotating rod 33 is rotated by the rotating handle 34, one lifting plate 29 of each group is driven to move downwards by the second gear 35, the steel pipes on the corresponding storage frames 7 roll down to the supporting plate 18 in the feeding plates 6, the other lifting plate 29 moves upwards to block the remaining steel pipes of the storage frames 7, after feeding, the rotating handle 34 is released, under the action of the torsion spring, the two lifting plates 29 are driven to integrally move reversely to reset, the remaining steel pipes on the storage frames 7 are blocked, then the hydraulic cylinder 4 is started to drive the extrusion seat 5 to move downwards, the second inserting rod 25 on the extrusion seat 5 slides in the first guide groove 24 to drive the moving plate 23 to move, the first rotating rod 9 and the rotating rod 10 are driven to integrally rotate by the transverse bar 22 and the first gear 21, the steel pipe is pushed by sliding one end of the first inserting rod 20 of the rotating bar 10 in the moving frame 13, the pushing block 15 is pulled to move towards one side close to the processing table 1 by the first connecting rod 8, two clamping plates 41 are pushed to move on the pushing block 15 by sliding one end of the third inserting rod 38 in the second guide groove 40, the steel pipe is clamped and sent to the base 3, the pressing seat 5 which continues to move downwards can smoothly press the steel pipe, when the pushing block 15 moves, the vertical bar 51 is driven to move by the third connecting rod 48 to drive the bristles 55 on the cleaning cylinder 54 to clean impurities remained on the base 3, the processing quality is improved, after the processing is finished, the hydraulic cylinder 4 drives the pressing seat 5 to move upwards to drive the pushing block 15 to move reversely, the processed steel pipe is pulled back to the supporting plate 18 in the feeding plate 6 through the clamping plate 41, the clamping plate 41 moves reversely to loosen the steel pipe along with the continuous movement of the pushing block 15, the two supporting plates 18 are pushed away through the extrusion wheel 47 on the side projection 46 of the pushing block 15, a material leakage opening on the feeding plate 6 can be opened, and the processed steel pipe can automatically drop to a collecting frame below to automatically discharge, so that the processing work of the steel pipe can be realized, and the working efficiency is higher.

The above embodiments are not intended to limit the scope of the present invention, so: all equivalent changes in structure, shape and principle of the invention should be covered in the scope of protection of the invention.

Claims (9)

1. The utility model provides a seamless steel pipe processing's tile pressing equipment, includes processing platform (1), its characterized in that: the utility model discloses a processing platform, including processing platform (1), frame (2), frame (7) are all installed to the upper surface both sides department of processing platform (1), every the bottom of frame (2) all is provided with base (3), pneumatic cylinder (4) are installed on the top of frame (2), install extrusion seat (5) on the bottom in frame (2) are installed to pneumatic cylinder (4) output shaft intussuseption, the one end department of processing platform (1) is provided with delivery sheet (6), storage frame (7) are all installed to the front and back both sides of delivery sheet (6), the lower inner wall of storage frame (7) inclines to one side of delivery sheet (6) and sets up, the department is provided with the drain hole in the middle of delivery sheet (6), be provided with two backup pads (18) in the drain hole, one side department that keeps away from processing platform (1) in the drain hole is provided with push away from material piece (15), the bottom of push material piece (15) is connected with the fixed strip (16) of wearing out the drain hole, the bottom of a fixed strip (16) side is connected with first connecting rod (8), the slide groove (19) are connected with in the first connecting rod (12), slide groove (19) are connected with one side (12), one end of the first connecting rod (8) is arranged on the movable frame (13), a first opening (26) is formed in the bottom end of the rear side of the mounting frame (2), a cross rod (27) is connected between the inner walls of the two ends of the first opening (26), a movable plate (23) is sleeved on the cross rod (27), a first guide groove (24) is formed in the movable plate (23), a second inserting rod (25) is connected to the rear side of the extrusion seat (5), one end of the second inserting rod (25) is inserted into the first guide groove (24), a first rotating rod (9) is rotatably connected to the middle of the rear side of the base (3), a first gear (21) is sleeved on one end of the first rotating rod (9) close to the base (3), a cross bar (22) is connected to the lower part of one side of the movable plate (23), teeth meshed with the first gear (21) are formed in the lower part of the cross bar (22), a second inserting rod (25) is connected to the other end of the first rotating rod (9), a first inserting rod (10) is connected to the other side of the first inserting rod (20), the second inserting rod (20) is connected to the other side of the first inserting rod (20), a fixed rod (17) is arranged on the baffle plate (14).

2. A tile pressing apparatus for seamless steel tube processing according to claim 1, wherein: two through grooves (28) are respectively formed in positions, close to the feeding plates (6), on the storage frames (7), each through groove (28) is internally provided with a lifting plate (29), each lifting plate (29) is provided with a through groove (30) along the length direction of each lifting plate, a first U-shaped rod (31) penetrates through each through groove (30), and two ends of each first U-shaped rod (31) are connected to the lower surface of the storage frame (7).

3. A tile pressing apparatus for seamless steel tube processing according to claim 2, wherein: the storage frame is characterized in that fixed blocks (32) are connected to the left side surface and the right side surface of the storage frame (7) close to the lifting plates (29), a second rotating rod (33) penetrates through the fixed blocks (32) in a rotating mode, the second rotating rod (33) penetrates through the two lifting plates (29) of each group, a second gear (35) is sleeved at the middle of each second rotating rod (33), teeth meshed with the second gear (35) are arranged on each lifting plate (29), a rotating handle (34) is arranged at one end of each second rotating rod (33), and a torsion spring is connected between each rotating handle (34) and the storage frame (7).

4. A tile pressing apparatus for seamless steel tube processing according to claim 1, wherein: two second openings (36) are formed in the pushing block (15), a moving block (37) penetrates through the second openings (36), clamping plates (41) are connected to one ends of the moving block (37), third inserting rods (38) are connected to the middle of one side face of each clamping plate (41), fixing plates (39) are connected to the upper positions of two side faces of the material leakage opening in the feeding plate (6), second guide grooves (40) are formed in the fixing plates (39), and one ends of the third inserting rods (38) are inserted into the second guide grooves (40).

5. A tile pressing apparatus for seamless steel tube processing according to claim 1, wherein: the utility model discloses a fixed strip, including fixed strip (16), T shape pole (44) are all connected with in the top department of both sides face, install extrusion wheel (47) in lug (46), backup pad (18) are close to one side department that processing platform (1) was kept away from to a side each other all is provided with extrusion part (42), two all be connected with many L shape strip (43) on one side that backup pad (18) kept away from each other, the position department that every L shape strip (43) was corresponded in two side departments all is connected with T shape pole (44) around feeding plate (6), L shape strip (43) cover is established on T shape pole (44) that correspond, the cover has first spring (45) on T shape pole (44), the both ends of first spring (45) are connected respectively on one end and L shape strip (43) of T shape pole (44).

6. A tile pressing apparatus for seamless steel tube processing according to claim 1, wherein: the bottom of fixed strip (16) another side department is connected with third connecting rod (48), the one end department that third connecting rod (48) extended to on processing platform (1) is provided with vertical bar (51), be provided with cleaning rod (53) on vertical bar (51), the cover has cleaning cylinder (54) on cleaning rod (53), be provided with brush hair (55) on cleaning cylinder (54).

7. A tile pressing apparatus for seamless steel tube processing according to claim 6, wherein: the utility model discloses a cleaning device for a steel wire, including vertical bar (51) and cleaning rod (53), second spout (52) has been seted up on vertical bar (51), sliding in second spout (52) is provided with slider (56), cleaning rod (53) rotates and passes slider (56), riser (49) are installed to the position department that is close to vertical bar (51) above processing platform (1), third guide way (50) have been seted up on riser (49), cleaning rod (53) pass third guide way (50), riser (49) openly are provided with gib block (57) in the below department of third guide way (50), gib block (57) are the same with the shape of third guide way (50), the cover has third gear (58) on cleaning rod (53), meshing between tooth on third gear (58) and the gib block (57).

8. A tile pressing apparatus for seamless steel tube processing according to claim 1, wherein: two mounting plates (59) are installed to one end of processing platform (1), the one end of both sides face is rotated through the connecting axle and is connected on two mounting plates (59) around feed plate (6), the one end rotation of head rod (8) is provided with first swivel nut (61) on fixed strip (16), first swivel nut (61) pivoted cover is established on first installation piece (60), first installation piece (60) are connected on moving frame (13), the one end rotation of third connecting rod (48) is provided with second swivel nut (62) on fixed strip (16), second swivel nut (62) cover is established on second installation piece (63), second installation piece (63) are connected on vertical bar (51), all be provided with the screw thread on first installation piece (60) and second installation piece (63).

9. A tile pressing machine for seamless steel tube processing according to claim 1 or 8, wherein: the feeding plate (6) is provided with a second U-shaped rod (69) in a penetrating mode along the length direction of the feeding plate (6), two fixing sleeves (64) are sleeved at positions, close to the middle, of the second U-shaped rod (69), a second spring (65) is connected between each fixing sleeve (64) and the feeding plate (6), positioning sleeves (68) are connected to two ends, penetrating out of the feeding plate (6), of the second U-shaped rod (69), supporting rods (67) are connected to positions, corresponding to the two positioning sleeves (68), of the processing table (1), the top ends of the supporting rods (67) are connected with positioning blocks (66), and the positioning sleeves (68) are sleeved on the positioning blocks (66).