CN211638531U - Steel pipe cutting machine - Google Patents

Abstract

The utility model provides a steel pipe cutting machine, deposit the mechanism including feeding mechanism, cutting mechanism, first mechanism and two seconds of depositing, the utility model discloses a steel pipe cutting machine deposits the mechanism through setting up cutting mechanism, first mechanism and the second of depositing, can place waste material and short finished product respectively in two seconds deposit the mechanism automatically, places the finished product of growing in first depositing the mechanism, has increased substantially production efficiency.

Description

Steel pipe cutting machine

Technical Field

The utility model relates to a technical field is made to the cutting machine, especially relates to a steel pipe cutting machine.

Background

The steel pipe cutting machine is widely applied to industries such as petroleum, chemical industry, electric power, natural gas, metallurgy, shipbuilding, boilers, pharmacy, water treatment and the like, and pipeline installation engineering, pipeline maintenance and the like of new projects. In the actual cutting production, because the length of the cast steel pipe is inconsistent before cutting, therefore, need personnel to distinguish finished product pipe and waste material specially after to the steel pipe ration cutting, the anchor clamps that generally use when cutting the steel pipe are two half clamp blocks moreover, can not press from both sides the steel pipe tightly completely when cutting the steel pipe, because the defect of above prior art leads to on-the-spot production inefficiency, consequently need design a steel pipe cutting machine in order to solve the problem that prior art exists.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a steel pipe cutting machine to solve the problem that above-mentioned prior art exists, make the steel pipe press from both sides tightly completely when the cutting, make the steel pipe separately deposit finished product and waste material after the cutting, improved production efficiency.

In order to achieve the above object, the utility model provides a following scheme: the utility model provides a steel pipe cutting machine, deposit the mechanism including feeding mechanism, cutting mechanism, first mechanism and two seconds of depositing.

Feeding mechanism includes first frame, second frame, lays first frame with material loading belt between the second frame, lays belt transport mechanism, rigid coupling in the second frame are in stopper and a supporting beam, rigid coupling in the second frame are in a supporting beam is last the first bracing piece, lay and is in the first bracing piece mechanism of second frame side liftable, the second backing roll has been laid to first backing roll opposite side, second backing roll rigid coupling is in the third frame, third frame side has laid the second bracing piece mechanism of liftable.

The cutting mechanism comprises two cutting devices, the two cutting devices are respectively arranged on the discharge side of the first supporting roller and the discharge side of the second supporting roller, each cutting device comprises a cutting table, two rotating columns are axially connected with the cutting table, a clamping seat is fixedly connected onto the cutting table, two guide columns are fixedly connected onto the clamping seat, two clamping heads are slidably connected onto the guide columns, a cutting support is fixedly connected onto the cutting table, a cutting disc is slidably connected onto the cutting support, and the clamping seat is arranged between the rotating columns and the cutting disc.

Two the mechanism is deposited respectively to the second lay two cutting device's both sides, the mechanism is deposited to the second includes two bracing pieces, the rigid coupling has the support ring on the bracing piece, two lay a plurality of cylinder between the bracing piece, the rigid coupling has oblique ejector pin on the cylinder piston rod, second down tube and fourth frame have been laid to oblique ejector pin one side, the rigid coupling has the stock belt between second down tube and the fourth frame.

First deposit the mechanism and include first slope pole and fifth frame, first slope pole with the rigid coupling has material stock belt II between the fifth frame, first slope pole with the fifth frame is laid second bracing piece mechanism one side, first slope pole with second bracing piece mechanism corresponds the setting from top to bottom.

Preferably, the first supporting rod mechanism comprises a first supporting rod, the first supporting rod is close to the end portion of the limiting block and fixedly connected with a first inclined block, the first supporting rod is far away from the end portion of the limiting block and fixedly connected with a first limiting rod, a first supporting plate is fixedly connected to the lower portion of the first supporting rod, a first straight rack is fixedly connected to the side face of the first supporting plate and meshed with a first gear, the first gear is fixedly connected with a first spindle, the first spindle is fixedly connected to the output end of the first motor, a sliding groove is formed in the side face, far away from the first straight rack, of the first supporting plate, a sliding rail is fixedly connected to the sliding groove in the first supporting plate, and the sliding rail is fixedly connected to the second rack.

Preferably, second bracing piece mechanism includes the second bracing piece, the second bracing piece is close to the tip rigid coupling of first bracing roller has the second sloping block, the second bracing piece is kept away from the tip rigid coupling of first bracing roller has the second gag lever post, second bracing piece below rigid coupling has the second backup pad, second backup pad side rigid coupling has the second spur rack, second spur rack meshing transmission has the second gear, the second gear rigid coupling has the second main shaft, second main shaft rigid coupling is at second motor output, second bracing piece side rigid coupling has cylinder II, the rigid coupling has the third sloping block on the cylinder II piston rod, the second backup pad is kept away from spout II has been seted up to the side of second spur rack, spout II rigid coupling in the second backup pad has slide rail II, slide rail II rigid coupling is in the third frame.

Preferably, the limiting blocks are parallel to the first inclined blocks and are sequentially arranged above the first rack, the second rack is far away from the first rack, and the first limiting rods, the first supporting rollers and the second inclined blocks are located in the same vertical plane.

Preferably, the first support rod and the second support rod are obliquely arranged.

Preferably, the second supporting roller and the third inclined block are in the same vertical plane.

Preferably, lay two rotation post centers of first backing roll discharge side with first backing roll center is aimed at, lay two rotation post centers of second backing roll discharge side with second backing roll center is aimed at, two width between the rotation post equals the external diameter of steel pipe.

Preferably, the second frame is close to the top coupling of first frame has first belt pulley, key cooperation has the commentaries on classics roller on the first belt pulley shaft, the rigid coupling has the one end of material loading belt on the commentaries on classics roller, the other end rigid coupling of material loading belt is in first frame top, the coupling has the second belt pulley on the second frame, the second belt pulley is in first belt pulley with between the stopper, first belt pulley with second belt pulley cooperation transmission has conveyer, the second belt pulley rigid coupling has the third main shaft, the rigid coupling has the third gear on the third main shaft, third gear chain drive is at third motor output.

Preferably, the height from the support ring to the ground is not less than the height from the inclined ejector rod to the ground, so that the steel pipe on the support ring can be ejected out after the inclined ejector rod is ejected.

The utility model discloses a following technological effect: 1. the steel pipe cutting machine of the utility model can ensure the complete clamping of the steel pipe during cutting by the matching of the clamping seat and the clamping head in the cutting device; 2. the utility model discloses a steel pipe cutting machine deposits the mechanism through setting up first mechanism of depositing and the second, can place waste material and short finished product respectively in two second deposit the mechanism automatically, will grow the article and place in first mechanism of depositing, has increased substantially production efficiency.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive labor.

FIG. 1 is a side view of the steel pipe cutting machine of the present invention;

FIG. 2 is a top view of the steel pipe cutting machine of the present invention;

FIG. 3 is a schematic structural view of the cutting device of the present invention after the spin column is removed;

fig. 4 is a side view of a second storage mechanism of the present invention;

fig. 5 is the schematic structural diagram of the support rod, the support ring, the cylinder and the oblique mandril of the present invention.

Wherein, 1 is a first frame, 2 is a second frame, 3 is a feeding belt, 4 is a limiting block, 5 is a supporting beam, 6 is a first supporting roller, 7 is a second supporting roller, 8 is a third frame, 9 is a cutting table, 10 is a rotating column, 11 is a clamping seat, 12 is a guide column, 13 is a clamping head, 14 is a cutting bracket, 15 is a cutting disc, 16 is a supporting rod, 17 is a supporting ring, 18 is an air cylinder, 19 is an oblique ejector rod, 20 is a second oblique rod, 21 is a fourth frame, 22 is a material storage belt, 23 is a first oblique rod, 24 is a fifth frame, 25 is a material storage belt II, 26 is a first supporting rod, 27 is a first oblique block, 28 is a first limiting rod, 29 is a first supporting plate, 30 is a first straight rack, 31 is a first gear, 32 is a first main shaft, 34 is a first motor, 35 is a second supporting rod, 36 is a second oblique block, 37 is a second limiting rod, reference numeral 38 denotes a second support plate, 39 denotes a second spur rack, 40 denotes a second gear, 41 denotes a second spindle, 43 denotes a second motor, 44 denotes a cylinder II, 45 denotes a third swash block, 46 denotes a first pulley, 47 denotes a rotary roller, 48 denotes a second pulley, 49 denotes a transmission belt, 50 denotes a third spindle, 51 denotes a third gear, and 52 denotes a third motor.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In order to make the above objects, features and advantages of the present invention more comprehensible, the present invention is described in detail with reference to the accompanying drawings and the detailed description.

Example 1

Referring to fig. 1 to 5, the present embodiment provides a steel pipe cutting machine, which includes a feeding mechanism, a cutting mechanism, a first storage mechanism, and two second storage mechanisms.

The feeding mechanism comprises a first rack 1, a second rack 2, a feeding belt 3 arranged between the first rack 1 and the second rack 2, a belt conveying mechanism arranged on the second rack 2, a limiting block 4 and a supporting beam 5 fixedly connected on the second rack 2, a first supporting roller 6 fixedly connected on the supporting beam 5, and a first supporting rod mechanism arranged on the side face of the second rack 2 and capable of ascending and descending, wherein a second supporting roller 7 is arranged on the opposite side of the first supporting roller 6, the second supporting roller 7 is fixedly connected on a third rack 8, and a second supporting rod mechanism arranged on the side face of the third rack 8 and capable of ascending and descending.

Cutting mechanism includes two cutting device, two cutting device lay respectively in 6 discharge sides of first backing roll and 7 discharge sides of second backing roll, cutting device includes cutting bed 9, the coupling has two rotation posts 10 on cutting bed 9, the rigid coupling has tight seat 11 on the cutting bed 9, the rigid coupling has two guide pillars 12 on pressing from both sides tight seat 11, two guide pillar 12 sliding connection have tight head 13, the rigid coupling has cutting support 14 on cutting bed 9, sliding connection has cutting dish 15 on cutting support 14, press from both sides tight seat 11 and set up between rotation post 10 and cutting dish 15.

The two second storage mechanisms are respectively arranged on two sides of the two cutting devices, each second storage mechanism comprises two supporting rods 16, supporting rings 17 are fixedly connected onto the supporting rods 16, a plurality of cylinders 18 are arranged between the two supporting rods 16, oblique ejector rods 19 are fixedly connected onto piston rods of the cylinders 18, second inclined rods 20 and a fourth rack 21 are arranged on one sides of the oblique ejector rods 19, and material storage belts 22 are fixedly connected between the second inclined rods 20 and the fourth rack 21.

The first storage mechanism comprises a first inclined rod 23 and a fifth rack 24, a material storage belt II25 is fixedly connected between the first inclined rod 23 and the fifth rack 24, the first inclined rod 23 and the fifth rack 24 are arranged on one side of the second support rod mechanism, and the first inclined rod 23 and the second support rod mechanism are arranged up and down correspondingly.

In a further preferred embodiment, the first supporting rod mechanism includes a first supporting rod 26, a first oblique block 27 is fixedly connected to an end portion of the first supporting rod 26 close to the limiting block 4, a first limiting rod 28 is fixedly connected to an end portion of the first supporting rod 26 far from the limiting block 4, a first supporting plate 29 is fixedly connected to a lower portion of the first supporting rod 26, a first rack 30 is fixedly connected to a side surface of the first supporting plate 29, the first rack 30 is in meshing transmission with a first gear 31, the first gear 31 is fixedly connected to a first spindle 32, the first spindle 32 is fixedly connected to an output end of a first motor 34, a sliding groove is formed in a side surface of the first supporting plate 29 far from the first rack 30, a sliding rail is fixedly connected to the sliding groove of the first supporting plate 29, and the sliding rail is fixedly connected.

Further preferred scheme, second bracing piece mechanism includes second bracing piece 35, the tip rigid coupling that second bracing piece 35 is close to first bracing roller 6 has second sloping block 36, the tip rigid coupling that first bracing roller 6 was kept away from to second bracing piece 35 has second gag lever post 37, second bracing piece 35 below rigid coupling has second backup pad 38, second backup pad 38 side rigid coupling has second spur rack 39, second spur rack 39 meshes the transmission and has second gear 40, second gear 40 rigid coupling has second main shaft 41, second main shaft 41 rigid coupling is at second motor 43 output end, second bracing piece 35 side rigid coupling has cylinder II44, the rigid coupling has third sloping block 45 on the cylinder II piston rod, spout II has been seted up to the side that second backup pad 38 is far away from second spur rack 39, spout II rigid coupling on the second backup pad has slide rail II, slide rail II rigid coupling is on third frame 8.

In a further preferable scheme, the limiting block 4 is parallel to the first oblique block 27 and is sequentially arranged above the second rack 2 far away from the first rack 1, and the first limiting rod 28, the first supporting roller 6 and the second oblique block 36 are located in the same vertical plane.

Further preferably, the first support bar 26 and the second support bar 35 are disposed obliquely.

Further preferably, the second support roller 7 and the third incline block 45 are in the same vertical plane.

Further preferably, the centers of the two rotating columns 10 arranged on the discharging side of the first supporting roller 6 are aligned with the center of the first supporting roller 6, the centers of the two rotating columns 10 arranged on the discharging side of the second supporting roller 7 are aligned with the center of the second supporting roller 7, and the width between the two rotating columns 10 is equal to the outer diameter of the steel pipe.

In a further preferable scheme, a first belt pulley 46 is coupled to the top end of the second frame 2 close to the first frame 1, a rotating roller 47 is keyed on the first belt pulley 46, one end of the feeding belt 3 is fixedly connected to the rotating roller 47, the other end of the feeding belt 3 is fixedly connected to the top end of the first frame 1, a second belt pulley 48 is coupled to the second frame 2, the second belt pulley 48 is located between the first belt pulley 46 and the limiting block 4, a conveying belt 49 is driven by the first belt pulley 46 and the second belt pulley 48 in a matching manner, a third main shaft 50 is fixedly connected to the second belt pulley 48, a third gear 51 is fixedly connected to the third main shaft 50, and the third gear 51 is chain-driven at the output end of the third motor 52.

Further preferably, the height of the support ring 17 to the ground is not less than the height of the lifter 19 to the ground.

The working principle of the steel pipe cutting machine of the embodiment is as follows: before the device is operated, the feeding belt 3 is overlapped between the first frame 1 and the rotating roller 47, and is in a non-straightened state, a plurality of long steel pipes are placed on the feeding belt 3, the third motor 52 is started to drive the second belt pulley 48 to rotate, the second belt pulley 48 drives the conveying belt 49 and the first belt pulley 46 to rotate, because the rotating roller 47 is connected with the shaft key of the first belt pulley 46, the rotating roller 47 is fixedly connected with one end of the feeding belt 3, the other end of the feeding belt 3 is fixedly connected at the top end of the first frame 1, therefore, under the driving of the third motor 52, the feeding belt 3 can be gradually wound on the rotating roller 47 along with the rotation of the rotating roller 47, so that the feeding belt 3 can be gradually straightened, the corresponding long steel pipes on the feeding belt 3 are lifted to the second frame 2 together and can be blocked at the position of the limiting block 4, and the first supporting rod mechanism just starts to be positioned below the second frame 2, at this time, the first motor 34 is started to drive the first main shaft 32 and the first gear 31 to rotate, the first gear 31 drives the first supporting rod 26 to ascend together with the first supporting plate 29 through the meshing with the first straight rack 30, when the first inclined block 27 ascends to the same height as the second rack, the first inclined block 27 can just lift a steel pipe clamped at the front most by the limiting block 4, the first supporting rod 26 is continuously lifted, when the first inclined block 27 lifts the steel pipe away from the highest position of the limiting block 4, the steel pipe can roll to the first limiting rod 28 along with the inclined surface of the first supporting rod 26, after the steel pipe rolls to the first limiting rod 28, the steel pipe can just overlap on the first supporting roller 6, and further the first motor 34 rotates reversely, so that the first supporting rod mechanism integrally moves downwards, the steel pipe completely overlaps on the first supporting roller 6, and after the steel pipe overlaps on the first supporting roller 6, one end of the steel pipe is also placed between two rotating columns 10 arranged on the discharging side of the first supporting roller 6, because the width between the rotating columns 10 is equal to the outer diameter of the steel pipe, at this time, the two rotating columns 10 are rotated to convey the steel pipe to the cutting table 9, the rotating columns are controlled by a motor (not shown in the figure) to enter between the clamping seat 11 and the clamping head 13, at this time, a hydraulic cylinder (not shown in the figure) for controlling the clamping head 13 to move downwards is started to clamp the steel pipe, then a cutting disc 15 is started to rotate, simultaneously the cutting disc 15 moves downwards, the cutting disc 15 moves downwards and is controlled by the hydraulic cylinder (not shown in the figure), finally the steel pipe is cut, the cutting of the head material belonging to the steel pipe, namely the cutting of the waste material, after the waste material is cut according to the calculated size, the length of the residual steel pipe is completely finished product after the second cutting, after the waste material is cut, the waste falls into the supporting ring 17 below, the cylinder 18 is started to push the inclined ejector rod 19 to eject the waste above the supporting ring 17 onto the second inclined rod 20 on one side, the waste further rolls onto the material storage belt 22 along with the second inclined rod 20 to complete the storage of the waste, the clamping head 13 moves upwards to loosen the steel pipe while storing the waste, the rotating column 10 rotates reversely, the steel pipe after cutting the head material is moved out of the cutting table 9, the second motor 43 is started simultaneously, the second main shaft 41 and the second gear 40 are driven to rotate, the second gear 40 drives the second supporting rod 35 to ascend together through the engagement with the second straight rack 39 by the second supporting plate 38, the second supporting rod 35 is arranged obliquely, when the second inclined block 36 at the end of the second supporting rod 35 rises to the height of the first supporting roller 6, the steel pipe on the first supporting roller 6 can be exactly lifted, and then the steel pipe rolls onto the third inclined block 45 along with the inclined plane of the second supporting rod 35 and is clamped, at this time, the height of the lifted steel pipe is higher than the height of the second supporting roller 7, and then the second motor 43 is rotated reversely, so that the steel pipe moves down along with the second supporting rod mechanism as a whole, when the height of the steel pipe is lower than the height of the second supporting roller 7, the steel pipe clamped at the third inclined block 45 can just be lapped on the second supporting roller 7, and finally the whole steel pipe is conveyed to the second supporting roller 7, at this time, the end part of the steel pipe lapped on the second supporting roller 7 is placed between the two rotating columns 10 at the discharging side of the second supporting roller 7, because the width between the rotating columns 10 is equal to the outer diameter of the steel pipe, at this time, the two rotating columns 10 are rotated to convey the steel pipe to the cutting table 9, and then the steel pipe enters between the clamping seat 11 and the clamping head 13, at this time, a hydraulic cylinder (not shown in the figure) for controlling the clamping head 13 to move, and at the same time, the cutting disc 15 moves downwards and is controlled by a hydraulic cylinder (not shown in the figure), the steel pipe is cut off finally, the cutting is carried out section by section according to the calculated size of the required steel pipe, because the head material is removed, the finished product is the required finished product after the cutting, the finished product falls into the supporting ring 17 after the cutting of the steel pipe, the cylinder 18 is started to drive the inclined ejector rod 19 to push the finished product steel pipe to the second inclined rod 20 and finally roll to the material storage belt 22, the waste materials and the finished product generated in the cutting process of the steel pipe can be automatically and independently stored through the two times of cutting, the special distinguishing of personnel is not needed, the working efficiency is greatly improved, and the clamping head 13 and the clamping seat 11 are matched and fixed up and down when the steel pipe is cut, the steel pipe can be ensured to be completely fixed, and the defect that the two left and right clamping mouths are used for fixing and loosening in the prior, the efficiency of steel pipe cutting production has been increased substantially.

Example 2

Referring to fig. 1-3, the difference between this embodiment and embodiment 1 is that the steel pipe finally manufactured by the two-time cutting in embodiment 1 belongs to the production of short steel pipe finished products, and when the steel pipe finally required is long and belongs to long steel pipe finished products, only the first-time cutting of the head stock is needed, that is, when the steel pipe head stock is conveyed to the second supporting roller 7 after being cut, at this time, the second supporting mechanism is located below the second supporting roller 7, at this time, the cylinder II is started to move the third inclined block 45 a small distance towards the second rack direction, and at the same time, the second motor 43 is started to move the second supporting rod mechanism integrally upward, and finally, when the height of the third inclined block 45 is the same as that of the second supporting roller 7, the joint of the third inclined block 45 and the cylinder II44 is flush with the right end of the second supporting roller 7 and is located on the same horizontal plane, that is, at this time, when the third inclined block 45 is, the inclined plane of third sloping block 45 just can lift up the steel pipe that is in on second backing roll 7, and then continue to lift up second bracing piece 35 and make the steel pipe that is lifted roll to second gag lever post 37 along with the inclined plane of second bracing piece 35 and locate to be blocked, make second motor 43 reversal this moment, make the steel pipe move down along with second bracing piece 35 is whole, because first bracing piece 23 is in second bracing piece 35 below, when second bracing piece 35 continues down to move to with first bracing piece 23 top height equal can with the steel pipe overlap joint to first bracing piece 23 on, and then final steel pipe rolls on material storage belt II along with the inclined plane of first bracing piece 23, accomplish depositing long steel pipe finished product. Therefore, the storage of the long steel pipe finished products which are only required to be cut once can be realized in the embodiment, the head materials and the long steel pipe finished products can be automatically distinguished, and the efficiency of on-site steel pipe cutting production is greatly improved.

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description of the present invention, and do not indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

The above-mentioned embodiments are only intended to describe the preferred embodiments of the present invention, but not to limit the scope of the present invention, and those skilled in the art should also be able to make various modifications and improvements to the technical solution of the present invention without departing from the spirit of the present invention, and all such modifications and improvements are intended to fall within the scope of the present invention as defined in the appended claims.

Claims (9)

1. A steel pipe cutting machine characterized by comprising: the cutting device comprises a feeding mechanism, a cutting mechanism, a first storage mechanism and two second storage mechanisms;

the feeding mechanism comprises a first rack (1), a second rack (2), a feeding belt (3) arranged between the first rack (1) and the second rack (2), a belt conveying mechanism arranged on the second rack (2), a limiting block (4) and a supporting beam (5) fixedly connected on the second rack (2), a first supporting roller (6) fixedly connected on the supporting beam (5), and a first supporting rod mechanism arranged on the side surface of the second rack (2) and capable of lifting, wherein a second supporting roller (7) is arranged on the opposite side of the first supporting roller (6), the second supporting roller (7) is fixedly connected on a third supporting roller (8), and a second supporting rod mechanism capable of lifting is arranged on the side surface of the third rack (8);

the cutting mechanism comprises two cutting devices, the two cutting devices are respectively arranged on the discharge side of the first supporting roller (6) and the discharge side of the second supporting roller (7), each cutting device comprises a cutting table (9), two rotating columns (10) are axially connected onto the cutting table (9), a clamping seat (11) is fixedly connected onto the cutting table (9), two guide columns (12) are fixedly connected onto the clamping seat (11), the two guide columns (12) are slidably connected with clamping heads (13), a cutting support (14) is fixedly connected onto the cutting table (9), a cutting disc (15) is slidably connected onto the cutting support (14), and the clamping seat (11) is arranged between the rotating columns (10) and the cutting disc (15);

the two second storage mechanisms are respectively arranged on two sides of the two cutting devices and comprise two supporting rods (16), a supporting ring (17) is fixedly connected onto each supporting rod (16), a plurality of cylinders (18) are arranged between the two supporting rods (16), inclined ejector rods (19) are fixedly connected onto piston rods of the cylinders (18), second inclined rods (20) and a fourth rack (21) are arranged on one sides of the inclined ejector rods (19), and material storage belts (22) are fixedly connected between the second inclined rods (20) and the fourth rack (21);

first deposit the mechanism and include first slope pole (23) and fifth frame (24), first slope pole (23) with the rigid coupling has material stock belt II (25) between fifth frame (24), first slope pole (23) with fifth frame (24) are laid second bracing piece mechanism one side, first slope pole (23) with second bracing piece mechanism corresponds the setting from top to bottom.

2. The steel pipe cutting machine according to claim 1, characterized in that: the first supporting rod mechanism comprises a first supporting rod (26), a first inclined block (27) is fixedly connected to the end part, close to the limiting block (4), of the first supporting rod (26), a first limiting rod (28) is fixedly connected to the end part of the first supporting rod (26) far away from the limiting block (4), a first supporting plate (29) is fixedly connected below the first supporting rod (26), a first straight rack (30) is fixedly connected to the side surface of the first supporting plate (29), the first straight rack (30) is engaged with and driven by a first gear (31), the first gear (31) is fixedly connected with a first main shaft (32), the first spindle (32) is fixedly connected with the output end of a first motor (34), a sliding groove is formed in the side surface, away from the first straight rack (30), of the first supporting plate (29), and a sliding rail is fixedly connected with a sliding groove in the first supporting plate (29), and the sliding rail is fixedly connected to the second rack (2).

3. The steel pipe cutting machine according to claim 2, characterized in that: the second bracing piece mechanism includes second bracing piece (35), second bracing piece (35) are close to the tip rigid coupling of first supporting roller (6) has second sloping block (36), the tip rigid coupling that first supporting roller (6) was kept away from in second bracing piece (35) has second gag lever post (37), second bracing piece (35) below rigid coupling has second backup pad (38), second backup pad (38) side rigid coupling has second spur rack (39), second spur rack (39) meshing transmission has second gear (40), second gear (40) rigid coupling has second main shaft (41), second main shaft (41) rigid coupling is at second motor (43) output, second bracing piece (35) side rigid coupling has cylinder II (44), the rigid coupling has third sloping block (45) on the cylinder II piston rod, spout II has been seted up to the side of keeping away from second spur rack (39) in second backup pad (38), and a sliding groove II on the second supporting plate is fixedly connected with a sliding rail II, and the sliding rail II is fixedly connected to the third rack (8).

4. A steel pipe cutting machine according to claim 3, characterized in that: stopper (4) with first sloping block (27) are parallel, and lay in proper order second frame (2) are kept away from the top of first frame (1), first gag lever post (28) first backup roll (6) and second sloping block (36) are in same vertical plane.

5. The steel pipe cutting machine according to claim 4, wherein: the first support rod (26) and the second support rod (35) are obliquely arranged.

6. A steel pipe cutting machine according to claim 3, characterized in that: the second supporting roller (7) and the third inclined block (45) are located in the same vertical plane.

7. The steel pipe cutting machine according to claim 1, characterized in that: lay two rotation post (10) centers of first backing roll (6) discharge side with first backing roll (6) center is aimed at, lays two rotation post (10) centers of second backing roll (7) discharge side with second backing roll (7) center is aimed at, two width between rotation post (10) equals the external diameter of steel pipe.

8. The steel pipe cutting machine according to claim 1, characterized in that: the second frame (2) is connected with a first belt pulley (46) near the top end of the first frame (1), a rotating roller (47) is keyed on the first belt pulley (46), one end of a feeding belt (3) is fixedly connected on the rotating roller (47), the other end of the feeding belt (3) is fixedly connected with the top end of the first frame (1), a second belt pulley (48) is coupled on the second frame (2), the second belt pulley (48) is arranged between the first belt pulley (46) and the limiting block (4), the first belt pulley (46) and the second belt pulley (48) are matched with each other to drive a transmission belt (49), the second belt pulley (48) is fixedly connected with a third main shaft (50), the third main shaft (50) is fixedly connected with a third gear (51), the third gear (51) is in chain transmission with the output end of the third motor (52).

9. The steel pipe cutting machine according to claim 1, characterized in that: the height of the support ring (17) to the ground is not less than the height of the inclined ejector rod (19) to the ground.

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