CN114800003A - Auxiliary blanking mechanism of pipe cutting machine - Google Patents

Abstract

The invention discloses an auxiliary blanking mechanism of a pipe cutting machine, which comprises a rack main body, wherein a containing box is fixedly arranged on one side of the rack main body; the rotary blanking mechanism comprises a sleeve and a transfer strut, the sleeve is fixedly arranged on the main body of the rack, the transfer strut is rotatably connected into a sleeve, and the transfer strut is provided with more than two containing grooves for containing steel pipes; and a fixing mechanism for fixing the steel pipe. According to the auxiliary blanking mechanism of the pipe cutting machine, the rotary blanking mechanism is arranged, so that the blanking height of a steel pipe can be reduced, the steel pipe is buffered by the aid of the conveying belt, rigid collision can be avoided, and the quality of the steel pipe is guaranteed.

Description

Auxiliary blanking mechanism of pipe cutting machine

Technical Field

The invention relates to the technical field of pipe machining, in particular to an auxiliary blanking mechanism of a pipe cutting machine.

Background

The steel pipe is a basic product with wide application, can be used for object conveying and mechanical equipment manufacturing, and can also be used as various supports and the like. When the steel pipe is used for manufacturing a certain product, the steel pipe needs to be cut at a fixed length, the cutting of the steel pipe is an important process required in the production process, and the steel pipe is usually cut mechanically through a pipe cutting machine.

Traditional pipe cutting equipment unloader only sets up solitary blanking slope usually, utilizes steel pipe self gravity to accomplish automatic unloading, and when the unloading height of steel pipe was higher, the steel pipe probably received impact deformation with blanking slope collision both ends, influences product quality.

Disclosure of Invention

The invention aims to solve the technical problem that when the blanking height of a steel pipe is higher, the collision between the steel pipe and a blanking slope can cause impact deformation at two ends and influence the product quality. In order to overcome the defects of the prior art, the invention provides an auxiliary blanking mechanism of a pipe cutting machine, which can reduce the blanking height of a steel pipe by arranging a rotary blanking mechanism, and can buffer the steel pipe by using a conveying belt, so that the rigid collision can be avoided, and the quality of the steel pipe is ensured.

In order to achieve the purpose, the invention adopts the following technical scheme:

the invention provides an auxiliary blanking mechanism of a pipe cutting machine, which is characterized by comprising the following components:

the rack comprises a rack main body, wherein a containing box is fixedly arranged on one side of the rack main body;

the rotary blanking mechanism comprises a sleeve and a transfer strut, the sleeve is fixedly arranged on the main body of the rack, the transfer strut is rotatably connected into a sleeve, and the transfer strut is provided with more than two containing grooves for containing steel pipes;

and a fixing mechanism for fixing the steel pipe.

In a preferred technical scheme of the invention, the rotary blanking mechanism further comprises a rotary motor, a blanking pipe and a conveying belt, the rotary motor is arranged on one side of the sleeve and fixedly connected with the rack main body, the transfer support is fixedly arranged at the power output end of the rotary motor, the blanking pipe is fixedly arranged below the sleeve and communicated with the sleeve, the conveying belt is arranged below the blanking pipe, and one end of the conveying belt extends to the upper part of the containing box.

In a preferred technical scheme of the invention, baffles are fixedly arranged at two ends of the inner side of the sleeve, and a through hole is formed in one of the baffles.

In a preferred technical scheme of the invention, a partition plate is arranged between the conveying belt and the sleeve, the partition plate is fixedly connected with the rack main body, and the discharging pipe is fixedly arranged on the partition plate.

In a preferred technical scheme of the invention, the rotary blanking mechanism further comprises an adjusting assembly, the adjusting assembly comprises a first sliding block, a rotating shaft support, a threaded shaft and a knob, a first sliding groove is formed in the inner side of the sleeve, the first sliding block is slidably connected in the first sliding groove, the rotating shaft support is fixedly arranged in the first sliding groove, the threaded shaft is rotatably connected to the rotating shaft support, one end of the threaded shaft is in threaded connection with the first sliding block, one side of the rotating shaft support is rotatably connected with the knob, and the knob is fixedly connected with the other end of the threaded shaft.

In a preferred technical scheme of the invention, the adjusting assembly further comprises a hydraulic cylinder, a push plate, a piston rod, a compression spring and an electromagnet, the hydraulic cylinder is fixedly arranged on one side of the first sliding block, the push plate is fixedly connected with the power output end of the hydraulic cylinder through the piston rod, the piston rod is sleeved with the compression spring, and the electromagnet is embedded in the push plate.

In a preferred technical scheme of the invention, the fixing mechanism comprises a clamping motor, an ellipsoid, a clamping piece, a supporting rod, a rotating rod, a sliding sleeve and a reset spring, wherein a fixing groove is further formed in the transfer support, the clamping motor is fixedly arranged at the bottom of the fixing groove, the ellipsoid is fixedly arranged at the power output end of the clamping motor, the clamping pieces are symmetrically arranged on two sides of the clamping motor, one end of each clamping piece is rotatably connected to the side wall of the fixing groove, the supporting rod is fixedly arranged below the clamping piece, the rotating rod is rotatably connected to the supporting rod, one end of the rotating rod is rotatably connected with the sliding sleeve, the sliding sleeve is slidably connected to the clamping piece, the other end of the rotating rod is fixedly connected with the side wall of the fixing groove through the reset spring, and the rotating rod can be abutted against the ellipsoid.

In a preferred technical scheme of the invention, the clamping piece is also fixedly provided with an anti-slip pad.

The invention has the beneficial effects that:

according to the auxiliary blanking mechanism of the pipe cutting machine, the rotary blanking mechanism is arranged, so that the blanking height of a steel pipe can be reduced, the steel pipe is buffered by the aid of the conveying belt, rigid collision can be avoided, and the quality of the steel pipe is guaranteed.

Drawings

Fig. 1 is a schematic structural diagram of an auxiliary blanking mechanism of a pipe cutting machine according to an embodiment of the present invention;

FIG. 2 is a cross-sectional view taken along line A-A of FIG. 1;

FIG. 3 is an enlarged schematic view at B of FIG. 1;

fig. 4 is an enlarged schematic view at C in fig. 2.

In the figure:

1. a rack main body; 2. a storage box; 3. a rotary blanking mechanism; 31. a sleeve; 311. a first chute; 32. a transfer strut; 33. accommodating grooves; 34. a rotating electric machine; 35. a discharging pipe; 36. a conveyor belt; 37. a baffle plate; 38. a through hole; 4. an adjustment assembly; 41. a first slider; 42. a rotating shaft support; 43. a threaded shaft; 44. a knob; 45. a hydraulic cylinder; 46. pushing the plate; 47. a piston rod; 48. a compression spring; 49. an electromagnet; 5. a fixing mechanism; 51. a clamping motor; 52. an ellipsoid; 53. a clamping member; 54. a support bar; 55. a rotating rod; 56. a sliding sleeve; 57. a return spring; 58. fixing grooves; 59. a non-slip mat; 6. a partition plate; 7. and (5) steel pipes.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

As shown in fig. 1 to 4, an embodiment provides an auxiliary blanking mechanism of a pipe cutting machine, including:

the rack comprises a rack main body 1, wherein a containing box 2 is fixedly arranged on one side of the rack main body 1;

the rotary blanking mechanism 3 comprises a sleeve 31 and a transfer pillar 32, the sleeve 31 is fixedly arranged on the rack main body 1, the transfer pillar 32 is rotatably connected in the sleeve 31, and the transfer pillar 32 is provided with more than two accommodating grooves 33 for accommodating the steel pipes 7;

and a fixing mechanism 5 for fixing the steel pipe 7.

In this embodiment, rotatory unloading mechanism 3 is installed on frame main part 1 for in shifting the steel pipe 7 after the cutting to containing box 2, during the use, insert the holding tank 33 in with the steel pipe 7 one end of treating processing, in order to play the effect of supporting steel pipe 7, prevent among the cutting process because steel pipe 7 receives the dead weight and takes place the slope, cause the problem of cutting end face unevenness. The sleeve 31 is transversely fixed on the frame body 1, the accommodating grooves 33 are arc-shaped grooves, and more than two accommodating grooves 33 are arranged at equal intervals along the circumferential direction of the transfer support column 32. The diameter of the transferring support column 32 is smaller than the inner diameter of the sleeve 31, and the transferring support column can freely rotate in the sleeve 31, so that the accommodating groove 33 filled with the steel pipe 7 moves to the next station, and meanwhile, the other empty accommodating groove 33 moves to the processing position. Because pipe cutting machine is at the course of the work, inside motor work can produce the vibration, and then makes steel pipe 7 vibration in step, and fixed establishment 5 is used for fixing the steel pipe in holding tank 33 to prevent that steel pipe 7 from taking place the dislocation, lead to the cutting terminal surface unevenness. The main control box is further fixedly arranged on the frame main body 1, the rotary blanking mechanism 3 and the fixing mechanism 5 are electrically connected with the main control box, and the main control box controls the rotary blanking mechanism 3 and the fixing mechanism 5 to work.

Specifically, rotatory unloading mechanism 3 still includes rotating electrical machines 34, unloading pipe 35 and conveyer belt 36, and rotating electrical machines 34 sets up in sleeve pipe 31 one side, and rotating electrical machines 34 and frame main part 1 fixed connection, transports pillar 32 and sets firmly in rotating electrical machines 34's power take off end, and unloading pipe 35 sets firmly in the sleeve pipe 31 below, and unloading pipe 35 and sleeve pipe 31 intercommunication, and unloading pipe 35 below is provided with conveyer belt 36, and conveyer belt 36 one end extends to containing box 2 top.

In this embodiment, the rotating motor 34 is located at one end of the sleeve 31 far away from the cutting knife, and the rotating motor 34 is used for controlling the rotation of the transferring support post 32. The blanking pipe 35 is an L-shaped pipe fitting, the blanking pipe 35 can only allow one steel pipe 7 to pass through once, the discharge hole is formed in the lower portion of the sleeve 31, the top end of the blanking pipe 35 is communicated with the discharge hole, the bottom end of the blanking pipe 35 is located right above the conveying belt 36, the steel pipe 7 can just fall on the conveying belt 36 and is buffered by the conveying belt 36, and therefore the situation that the steel pipe 7 is scratched and other defects on the surface can be avoided due to rigid collision. The conveyer belt 36 is used for conveying the cut steel pipes 7 to the storage box 2 for temporary storage, manual carrying is not needed, and labor intensity of workers can be reduced.

Specifically, baffles 37 are further fixedly arranged at two ends of the inner side of the sleeve 31, and a through hole 38 is formed in one of the baffles 37.

In this embodiment, by providing the baffle 37, the other housing grooves 33 can be closed, and further, chips, slag, or the like generated in the cutting process of the steel pipe 7 are prevented from entering the housing grooves 33 and adhering to the surface of the steel pipe 7. During the rotation of the transferring support 32, the through hole 38 can be aligned with the uppermost receiving groove 33, so that the steel pipe 7 can be smoothly inserted into the receiving groove 33.

Specifically, a partition plate 6 is arranged between the conveying belt 36 and the sleeve 31, the partition plate 6 is fixedly connected with the rack body 1, and the discharging pipe 35 is fixedly arranged on the partition plate 6.

In this embodiment, the partition plate 6 is vertically disposed to separate the housing main body 1 from the conveyor belt 36, so as to prevent the chips or slag from falling on the conveyor belt 36. The baffle 6 can support and fix the blanking pipe 35, and one end of the blanking pipe 35 penetrates through the baffle 6, so that the pressure at the joint of the blanking pipe 35 and the sleeve 31 is reduced.

Concretely, rotatory unloading mechanism 3 still includes adjusting part 4, adjusting part 4 includes first slider 41, pivot support 42, threaded shaft 43 and knob 44, first spout 311 has been seted up to sleeve pipe 31 inboard, first slider 41 sliding connection is in first spout 311, pivot support 42 has set firmly in first spout 311, threaded shaft 43 rotates to be connected on pivot support 42, and threaded shaft 43 one end and first slider 41 threaded connection, pivot support 42 one side is rotated and is connected with knob 44, knob 44 and the other end fixed connection of threaded shaft 43.

In this embodiment, there is one first sliding slot 311, and the first sliding slot 311 is located right above the transferring support 32. First slider 41 sliding connection is in first spout 311, and outside first spout 311 was stretched out to first slider 41's bottom for fix a position the cutting length of steel pipe 7, have that the positioning speed is fast, the machining precision is high and the good advantage of the uniformity after the cutting, and need guarantee in the installation that first slider 41 does not contact with transport pillar 32 side. The rotating shaft support 42 is fixedly arranged at one end of the first sliding groove 311, and the knob 44 is arranged outside the sleeve 31, so that the operation of a worker is facilitated, the position of the first sliding block 41 is adjusted, and the purpose of adjusting the cutting length of the steel pipe 7 is achieved.

Specifically, the adjusting assembly 4 further comprises a hydraulic cylinder 45, a push plate 46, a piston rod 47, a compression spring 48 and an electromagnet 49, the hydraulic cylinder 45 is fixedly arranged on one side of the first sliding block 41, the push plate 46 is fixedly connected with the power output end of the hydraulic cylinder 45 through the piston rod 47, the compression spring 48 is sleeved on the piston rod 47, and the electromagnet 49 is embedded in the push plate 46.

In this embodiment, the push plate 46 is slidably connected in the first sliding slot 311, the bottom end of the push plate 46 extends out of the first sliding slot 311, and the push plate 46 does not contact with the side surface of the transport strut 32. One end of the compression spring 48 is fixedly connected with the push plate 46, the other end of the compression spring 48 is fixedly connected with the hydraulic cylinder 45, when the hydraulic cylinder 45 does not work, the compression spring 48 is in a relaxed state, and at the moment, the piston rod 47 extends to the longest state. The electromagnet 49 can attract the steel pipe 7, and when the hydraulic cylinder 45 is contracted, the cut steel pipe 7 is completely retracted into the sleeve 31.

Specifically, fixed establishment 5 includes centre gripping motor 51, ellipsoid 52, holder 53, bracing piece 54, bull stick 55, sliding sleeve 56 and reset spring 57, fixed slot 58 has still been seted up on the transport pillar 32, fixed slot 58 bottom has set firmly centre gripping motor 51, ellipsoid 52 sets firmly in centre gripping motor 51's power take off end, centre gripping motor 51 bilateral symmetry is provided with holder 53, holder 53 one end is rotated and is connected in fixed slot 58 lateral wall, holder 53 below has set firmly bracing piece 54, bull stick 55 rotates and connects on bracing piece 54, bull stick 55 one end is rotated and is connected with sliding sleeve 56, and sliding sleeve 56 sliding connection is on holder 53, the bull stick 55 other end passes through reset spring 57 and fixed slot 58 lateral wall fixed connection, and bull stick 55 can the butt with ellipsoid 52.

In this embodiment, the fixing grooves 58 are provided with two or more, each fixing mechanism 5 is provided in each fixing groove 58, and the fixing grooves 58 are communicated with the accommodating grooves 33. The clamping motor 51 is embedded at the bottom of the fixing groove 58, the ellipsoid 52 is transversely arranged, and the power output end of the clamping motor 51 is fixedly connected with the center of the ellipsoid 52. The clamping member 53 is an arc-shaped plate, and when not in use, the clamping member 53 is completely retracted into the fixing groove 58 without interfering with the steel pipe 7. The number of the sliding sleeves 56 is two, and one sliding sleeve 56 is sleeved on each clamping piece 53 and can freely slide on the clamping piece 53. The rotating rod 55 is a straight rod, the supporting rod 54 is rotatably connected to the middle point of the rotating rod 55, the top end of the rotating rod 55 is rotatably connected with the sliding sleeve 56, and the bottom end of the rotating rod 55 is abutted to the ellipsoid 52, so that the clamping piece 53 can be controlled to clamp the steel pipe 7 when the ellipsoid 52 rotates.

Specifically, the clamping member 53 is further fixedly provided with a non-slip pad 59.

In this embodiment, the anti-slip pad 59 is a rubber pad, and is elastically deformed when receiving a large extrusion force, so that the steel pipe 7 can be prevented from being scratched in the clamping process.

The working principle is as follows: before use, an operator rotates the knob 44, the knob 44 drives the threaded shaft 43 to rotate, and then the first sliding block 41 slides left and right in the first sliding groove 311 to change the length of the accommodating groove 33, so that the purpose of adjusting the cutting length of the steel pipe 7 is achieved;

during use, the steel pipe 7 is pushed, the steel pipe 7 is inserted into the accommodating groove 33 through the through hole 38, when the steel pipe 7 abuts against the push plate 46, the pushing of the steel pipe 7 is stopped, the steel pipe 7 is adsorbed by the electromagnet 49 at the moment and is preliminarily fixed, then the clamping motor 51 is controlled to be started, the clamping motor 51 drives the ellipsoid 52 to rotate, the ellipsoid 52 drives the rotating rod 55 to rotate clockwise around the supporting rod 54, the reset spring 57 is compressed, the rotating rod 55 rotates to drive the sliding sleeve 56 to slide along the clamping piece 53, the clamping piece 53 is further driven to rotate clockwise, the two clamping pieces 53 are further close to each other, the steel pipe 7 is fixed in the accommodating groove 33, and the cutting machine cuts the steel pipe 7 at the moment;

after the cutting is completed, control hydraulic cylinder 45 starts, hydraulic cylinder 45 drives push plate 46 through piston rod 47 and moves to the right, and then drive steel pipe 7 and move to the right synchronously under the adsorption of electro-magnet 49, make the steel pipe after being cut take in to the sleeve pipe 31 completely, then start rotating electrical machines 34, rotating electrical machines 34 drives transport pillar 32 and rotates to the below, centre gripping motor 51 reversal this moment, make ellipsoid 52 and bull stick 55 break away from the contact, bull stick 55 reversal under reset spring 57's effect this moment, thereby make holder 53 open, steel pipe 7 falls into in unloading pipe 35 under gravity this moment, and drop to conveyer belt 36 from unloading pipe 35 on, transport steel pipe 7 to storage box 2 by conveyer belt 36 and store temporarily.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the spirit and scope of the invention. The present invention is not to be limited by the specific embodiments disclosed herein, and other embodiments that fall within the scope of the claims of the present application are intended to be within the scope of the present invention.

Claims (8)

1. The utility model provides a supplementary unloading mechanism of pipe cutting machine which characterized in that includes:

the rack comprises a rack main body (1), wherein a containing box (2) is fixedly arranged on one side of the rack main body (1);

the rotary blanking mechanism (3) comprises a sleeve (31) and a transferring support column (32), the sleeve (31) is fixedly arranged on the rack main body (1), the transferring support column (32) is rotatably connected into the sleeve (31), and more than two accommodating grooves (33) are formed in the transferring support column (32) and used for accommodating the steel pipe (7);

and a fixing mechanism (5) for fixing the steel pipe (7).

2. The auxiliary blanking mechanism of the pipe cutting machine according to claim 1, wherein: rotatory unloading mechanism (3) still include rotating electrical machines (34), unloading pipe (35) and conveyer belt (36), rotating electrical machines (34) set up in sleeve pipe (31) one side, and rotating electrical machines (34) and frame main part (1) fixed connection, transport pillar (32) set firmly in the power take off end of rotating electrical machines (34), unloading pipe (35) set firmly in sleeve pipe (31) below, and unloading pipe (35) and sleeve pipe (31) intercommunication, unloading pipe (35) below is provided with conveyer belt (36), conveyer belt (36) one end extend to containing box (2) top.

3. The auxiliary blanking mechanism of the pipe cutting machine as claimed in claim 2, wherein: baffles (37) are fixedly arranged at two ends of the inner side of the sleeve (31), and a through hole (38) is formed in one baffle (37).

4. The auxiliary blanking mechanism of the pipe cutting machine as claimed in claim 2, wherein: a partition plate (6) is arranged between the conveying belt (36) and the sleeve (31), the partition plate (6) is fixedly connected with the rack main body (1), and the discharging pipe (35) is fixedly arranged on the partition plate (6).

5. The auxiliary blanking mechanism of the pipe cutting machine as claimed in claim 2, wherein: rotatory unloading mechanism (3) still include adjusting part (4), and adjusting part (4) include first slider (41), pivot support (42), threaded shaft (43) and knob (44), first spout (311) have been seted up to sleeve pipe (31) inboard, and first slider (41) sliding connection is in first spout (311), and first spout (311) internal fixation has pivot support (42), and threaded shaft (43) rotate to be connected on pivot support (42), and threaded shaft (43) one end and first slider (41) threaded connection, and pivot support (42) one side is rotated and is connected with knob (44), knob (44) and threaded shaft (43) other end fixed connection.

6. The auxiliary blanking mechanism of the pipe cutting machine as claimed in claim 5, wherein: adjusting part (4) still include pneumatic cylinder (45), push pedal (46), piston rod (47), compression spring (48) and electro-magnet (49), pneumatic cylinder (45) set firmly in first slider (41) one side, push pedal (46) are through the power take off end fixed connection of piston rod (47) with pneumatic cylinder (45), and the cover is equipped with compression spring (48) on piston rod (47), and push pedal (46) are embedded to have electro-magnet (49).

7. The auxiliary blanking mechanism of the pipe cutting machine according to claim 1, wherein: the fixing mechanism (5) comprises a clamping motor (51), an ellipsoid (52), a clamping piece (53), a supporting rod (54), a rotating rod (55), a sliding sleeve (56) and a return spring (57), a fixing groove (58) is further formed in the transfer strut (32), the clamping motor (51) is fixedly arranged at the bottom of the fixing groove (58), the ellipsoid (52) is fixedly arranged at the power output end of the clamping motor (51), the clamping piece (53) is symmetrically arranged on two sides of the clamping motor (51), one end of the clamping piece (53) is rotatably connected to the side wall of the fixing groove (58), the supporting rod (54) is fixedly arranged below the clamping piece (53), the rotating rod (55) is rotatably connected to the supporting rod (54), one end of the rotating rod (55) is rotatably connected with the sliding sleeve (56), the sliding sleeve (56) is slidably connected to the clamping piece (53), the other end of the rotating rod (55) is fixedly connected with the side wall of the fixing groove (58) through the return spring (57), and the rotating rod (55) can be abutted with the ellipsoid (52).

8. The auxiliary blanking mechanism of the pipe cutting machine as claimed in claim 7, wherein: and the clamping piece (53) is also fixedly provided with a non-slip pad (59).

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