Steel pipe fixed length over-and-under type cutting equipment for construction
Technical Field
The invention relates to steel pipe cutting equipment for building construction, in particular to fixed-length lifting type steel pipe cutting equipment for building construction.
Background
The building is a general term of buildings and structures, and is an artificial environment created by people by using the grasped material technical means and applying certain scientific laws, geomantic omen concepts and aesthetic rules to meet the needs of social life.
Need use a large amount of steel pipes in the construction now, because the length of initial steel pipe is longer, certain length is under construction when needing to cut the steel pipe, all place the steel pipe under the cutting wheel by the staff during steel pipe cutting now to the steel pipe that is constantly promoted by the staff makes the cutting that realizes the steel pipe, and the length of cutting is controlled by the manual work, so the steel pipe length of cutting out has certain deviation, causes inconvenience to the construction.
Therefore, the fixed-length lifting type cutting equipment for the steel pipe for building construction, which does not need to manually push the steel pipe during cutting and has the same length for cutting the steel pipe, needs to be researched and developed urgently to overcome the defect that the steel pipe needs to be manually moved during cutting of the steel pipe and the length of the cut steel pipe is deviated.
Disclosure of Invention
The invention aims to overcome the defects that the steel pipe needs to be manually moved and the length of the cut steel pipe is deviated in the existing steel pipe cutting process, and provides steel pipe fixed-length lifting type cutting equipment for building construction, wherein the steel pipe does not need to be manually pushed during cutting, and the length of the cut steel pipe is consistent.
The technical scheme is as follows: a steel pipe fixed length lifting type cutting device for building construction comprises a first mounting frame, a mounting rod, a second mounting frame, a speed reducing motor, a sector gear, a first guide rail, a first guide sleeve, a stop block, a first rack, a fixed frame, a mounting plate, a first spring, a first lifting plate, a first lifting rod, a cutting wheel and a collecting frame, wherein the upper part of the right wall of the first mounting frame is connected with the mounting rod, the bottom of the upper side surface of the mounting rod is connected with the second mounting frame, the lower part of the right wall in the second mounting frame is connected with the speed reducing motor, the rear side of the speed reducing motor is connected with the sector gear, the lower part of the left side of the right side surface of the mounting rod is connected with the first guide rail, the first guide sleeve is slidably connected on the first guide rail, the right side of the bottom of the first guide sleeve is connected with the stop block, the top of the first guide sleeve is connected with a first rack, the, the left side bottom and the fixed frame top on right side of first guide rail are connected, open at the top of first installing frame has first through-hole, first through-hole is located between 2 fixed frames, left wall sub-unit connection has the mounting panel in the second installing frame, it has the second through-hole to open on the mounting panel, the top of mounting panel is connected with first spring, the top of first spring is connected with first lifter plate, the bottom of first lifter plate is connected with first lifter, first lifter passes first spring and second through-hole, the lower extreme of first lifter is connected with the cutting wheel, the cutting wheel is located first through-hole directly over, the collection frame has been placed in bottom left side in the first installing frame.
Optionally, the collecting device further comprises a sliding rail, a sliding block and a pull rod, the sliding rail is connected to the left side of the bottom in the first mounting frame, the sliding block is connected to the sliding rail in a sliding mode, the top of the sliding block is connected with the bottom of the collecting frame, and the pull rod is connected to the upper portion of the left wall of the collecting frame.
Optionally, the steel wire rope guide frame further comprises a second guide rail, a second guide sleeve, a connecting plate, a baffle, a second rack, a first guide wheel, a second guide wheel, a steel wire rope and a second spring, wherein the right side of the top in the second installation frame is connected with the 2 second guide rails, the 2 second guide rails are connected with the second guide sleeves, the front walls of the second guide sleeves on the left side and the right side are connected with the connecting plate, the baffle is connected between the lower parts of the second guide rails on the left side and the right side, the bottom of the second guide sleeve is contacted with the top of the baffle, the right side of the connecting plate is connected with the second rack, the second rack can be meshed with the sector gear, the front side of the baffle is connected with the first guide wheel, the steel wire rope is connected in the middle of the front wall of the connecting plate and bypasses the first guide wheel, the steel wire rope penetrates through the top wall of the first installation, the wire rope bypasses the second guide wheel, the tail end of the wire rope is connected with the right wall of the collecting frame, a second spring is connected between the right wall of the collecting frame and the left wall in the first mounting frame, and the second spring is located below the wire rope.
Optionally, still including the bearing frame, the bull stick, the swinging arms, the contact wheel, second lifter and second lifter, the top left side is connected with the bearing frame in the second installing frame, install the bull stick in the bearing frame, the left and right sides of bull stick all is connected with the swinging arms, the bottom of swinging arms all is connected with the contact wheel, the top left side of connecting plate is connected with the second lifter, the top of second lifter is connected with the second lifter, left contact wheel and the top contact of first lifter, the contact wheel on right side and the top contact of second lifter.
Optionally, the left end of the installation rod is connected with the fixed plate, the bottom of the fixed plate is connected with the gooseneck, and the bottom end of the gooseneck is connected with the illuminating lamp.
When a steel pipe needs to be cut, a worker firstly controls the speed reducing motor to drive the sector gear to rotate anticlockwise, when the sector gear is separated from the first rack, the speed reducing motor is controlled to stop rotating, then the first guide sleeve and the stop block are moved to the rightmost side, then the steel pipe penetrates through the fixed frame from left to right, the steel pipe is placed at the top of the first installation frame, the left end of the steel pipe is positioned under the cutting wheel, then the first guide sleeve and the stop block are moved leftwards, the stop block is contacted with the right end of the steel pipe, then the speed reducing motor is controlled to drive the sector gear to rotate clockwise, the cutting wheel is controlled to start working, when the sector gear is meshed with the first rack, the first guide sleeve and the stop block move leftwards, the stop block pushes the steel pipe to move leftwards, when the sector gear is separated from the first rack, the first guide sleeve and the stop moving, the steel pipe stops moving, staff's first lifter plate of pushing down this moment, first lifter plate downstream, first lifter and cutting wheel downstream cutting steel pipe, loosen first lifter plate after the cutting is accomplished, upward movement under the elastic force of first spring is taken turns to first lifter and cutting, when sector gear continues to mesh with first rack, the dog can promote the steel pipe and move fixed length distance left again, and the steel pipe that the cutting was accomplished can be promoted left by the steel pipe of right side left motion, thereby enter into the collection frame, can realize the fixed length cutting to the steel pipe like this, close gear motor after the cutting is accomplished.
Because still including slide rail, slider and pull rod, the bottom left side is connected with the slide rail in the first installing frame, and the sliding connection has the slider on the slide rail, and the top of slider is connected with the bottom of collecting the frame, and the left wall upper portion of collecting the frame is connected with the pull rod. When the steel pipes are stacked in the collecting frame too messy and the amount of the steel pipes stored is less, the staff can move the collecting frame left and right through the pull rod continuously, so that the gap between the steel pipes can be effectively reduced, and more steel pipes can be stored in the collecting frame.
Because the steel wire rope guide frame further comprises a second guide rail, a second guide sleeve, a connecting plate, a baffle, a second rack, a first guide wheel, a second guide wheel, a steel wire rope and a second spring, the right side of the top in the second mounting frame is connected with 2 second guide rails, the 2 second guide rails are connected with the second guide sleeves, the front walls of the second guide sleeves on the left side and the right side are connected with the connecting plate, the baffle is connected between the lower parts of the second guide rails on the left side and the right side, the bottom of the second guide sleeve is contacted with the top of the baffle, the right side of the connecting plate is connected with the second rack which can be meshed with the sector gear, the front side of the baffle is connected with the first guide wheel, the middle of the front wall of the connecting plate is connected with the steel wire rope, the steel wire rope winds around the first guide wheel, the steel wire rope passes through the top wall of the first mounting frame, the upper part of the, the tail end of the steel wire rope is connected with the right wall of the collecting frame, a second spring is connected between the right wall of the collecting frame and the left wall in the first mounting frame, and the second spring is located below the steel wire rope. When the sector gear rotates clockwise to be meshed with the second rack, the second rack moves upwards, the upper ends of the connecting plate and the steel wire rope also move upwards along with the sector gear, the left end of the steel wire rope pulls the collecting frame to move rightwards, the second spring is compressed, when the sector gear rotates clockwise to be separated from the second rack, under the elastic action and the gravity action of the second spring, the second rack moves downwards, the upper ends of the connecting plate and the steel wire rope move downwards, the collecting frame moves leftwards, the continuous clockwise rotation of the sector gear can be realized under the condition of not needing manual operation, and therefore the arrangement of the steel pipes in the collecting frame is more compact.
Because still including the bearing frame, the bull stick, the swinging arms, the contact wheel, second lifter and second lifter, top left side is connected with the bearing frame in the second installing frame, install the bull stick in the bearing frame, the left and right sides of bull stick all is connected with the swinging arms, the bottom of swinging arms all is connected with the contact wheel, the top left side of connecting plate is connected with the second lifter, the top of second lifter is connected with the second lifter, left contact wheel and the top contact of first lifter, the contact wheel on right side and the top contact of second lifter. When sector gear clockwise rotation and second rack toothing, the connecting plate upward movement, second lifter and second lifter upward movement, contact wheel on right side and the swinging arms upswing on right side, left contact wheel and left swinging arms downswing, first lifter downward movement, cutting wheel downswing cutting steel pipe, realize making cutting wheel downswing to the steel pipe after promoting fixed length steel pipe leftward movement like this, and during sector gear and second rack separation, second lifter and second lifter downward movement, under the spring action of first spring, cutting wheel upward movement, just so realized need not artifical first lifter and just can realize the cutting to the steel pipe, and it is more convenient to operate.
Because still including fixed plate, gooseneck and light, the left end of installation pole is connected with the fixed plate, and the bottom of fixed plate is connected with the gooseneck, and the bottom of gooseneck is connected with the light. When the cutting condition needs to be observed more carefully, the worker can turn on the illuminating lamp, so that the light can be enhanced, and the worker can observe the cutting condition more carefully.
The steel pipe cutting device has the advantages that the effect that the steel pipes are not required to be manually pushed during cutting, the length of the cut steel pipes is consistent, the steel pipes can be intermittently pushed to move leftwards due to the intermittent meshing of the sector gear and the first rack, the steel pipes can be intermittently moved, the steel pipes can be moved, the cutting wheels which move up and down can cut the steel pipes, the collecting frames which move left and right can effectively reduce gaps among the steel pipes, so that more steel pipes and oscillating rods can be stored in the collecting frames, the cutting wheels can move up and down without manpower, manpower is saved, light can be enhanced, and the steel pipes can be conveniently observed by workers carefully.
Drawings
Fig. 1 is a first front view structure diagram of the present invention.
Fig. 2 is a left side view schematic diagram of the fixing frame of the present invention.
Fig. 3 is a second front view structure diagram of the present invention.
Fig. 4 is a third schematic view of the present invention.
Fig. 5 is a schematic diagram of a fourth front view structure according to the present invention.
Fig. 6 is a schematic view of a fifth front view structure according to the present invention.
Wherein: 1: first mounting frame, 2: mounting rod, 3: second mounting frame, 4: gear motor, 5: sector gear, 6: first guide rail, 7: first guide bush, 8: stopper, 9: first rack, 10: fixed frame, 11: first through hole, 12: mounting plate, 13: second through hole, 14: first spring, 15: first lifter plate, 16: first lifter, 17: cutting wheel, 18: collection frame, 19: slide rail, 20: slider, 21: tie rod, 22: second guide rail, 23: second guide bush, 24: connecting plate, 25: baffle, 26: second rack, 27: first guide wheel, 28: second guide wheel, 29: wire rope, 30: second spring, 31: bearing seat, 32: turning rod, 33: swing lever, 34: contact wheel, 35: second lifter, 36: second lifter plate, 37: fixing plate, 38: gooseneck, 39: an illuminating lamp.
Detailed Description
The preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.
Example 1
A steel pipe fixed length lifting type cutting device for building construction is shown in figures 1-6 and comprises a first mounting frame 1, a mounting rod 2, a second mounting frame 3, a speed reducing motor 4, a sector gear 5, a first guide rail 6, a first guide sleeve 7, a stop block 8, a first rack 9, a fixed frame 10, a mounting plate 12, a first spring 14, a first lifting plate 15, a first lifting rod 16, a cutting wheel 17 and a collecting frame 18, wherein the upper portion of the right wall of the first mounting frame 1 is connected with the mounting rod 2, the bottom of the upper side surface of the mounting rod 2 is connected with the second mounting frame 3, the lower portion of the inner right wall of the second mounting frame 3 is connected with the speed reducing motor 4, the rear side of the speed reducing motor 4 is connected with the sector gear 5, the lower portion of the left side surface of the mounting rod 2 is connected with the first guide rail 6, the first guide sleeve 7 is slidably connected with the first guide sleeve 6, the right side of the bottom of, the top of first guide pin bushing 7 is connected with first rack 9, first rack 9 and the meshing of sector gear 5, the top left side of first installing frame 1 is connected with 2 fixed frames 10, the left side bottom of first guide rail 6 is connected with the fixed frame 10 top on right side, open at the top of first installing frame 1 has first through-hole 11, first through-hole 11 is located between 2 fixed frames 10, left wall sub-unit connection has mounting panel 12 in the second installing frame 3, it has second through-hole 13 to open on mounting panel 12, the top of mounting panel 12 is connected with first spring 14, the top of first spring 14 is connected with first lifter plate 15, the bottom of first lifter plate 15 is connected with first lifter 16, first lifter 16 passes first spring 14 and second through-hole 13, the lower extreme of first lifter 16 is connected with cutting wheel 17, cutting wheel 17 is located directly over first through-hole 11, collecting frame 18 has been placed to the bottom left side in first installing frame 1.
Example 2
A steel pipe fixed length lifting type cutting device for building construction is shown in figures 1-6 and comprises a first mounting frame 1, a mounting rod 2, a second mounting frame 3, a speed reducing motor 4, a sector gear 5, a first guide rail 6, a first guide sleeve 7, a stop block 8, a first rack 9, a fixed frame 10, a mounting plate 12, a first spring 14, a first lifting plate 15, a first lifting rod 16, a cutting wheel 17 and a collecting frame 18, wherein the upper portion of the right wall of the first mounting frame 1 is connected with the mounting rod 2, the bottom of the upper side surface of the mounting rod 2 is connected with the second mounting frame 3, the lower portion of the inner right wall of the second mounting frame 3 is connected with the speed reducing motor 4, the rear side of the speed reducing motor 4 is connected with the sector gear 5, the lower portion of the left side surface of the mounting rod 2 is connected with the first guide rail 6, the first guide sleeve 7 is slidably connected with the first guide sleeve 6, the right side of the bottom of, the top of first guide pin bushing 7 is connected with first rack 9, first rack 9 and the meshing of sector gear 5, the top left side of first installing frame 1 is connected with 2 fixed frames 10, the left side bottom of first guide rail 6 is connected with the fixed frame 10 top on right side, open at the top of first installing frame 1 has first through-hole 11, first through-hole 11 is located between 2 fixed frames 10, left wall sub-unit connection has mounting panel 12 in the second installing frame 3, it has second through-hole 13 to open on mounting panel 12, the top of mounting panel 12 is connected with first spring 14, the top of first spring 14 is connected with first lifter plate 15, the bottom of first lifter plate 15 is connected with first lifter 16, first lifter 16 passes first spring 14 and second through-hole 13, the lower extreme of first lifter 16 is connected with cutting wheel 17, cutting wheel 17 is located directly over first through-hole 11, collecting frame 18 has been placed to the bottom left side in first installing frame 1.
The collecting frame further comprises a sliding rail 19, a sliding block 20 and a pull rod 21, the sliding rail 19 is connected to the left side of the bottom in the first mounting frame 1, the sliding block 20 is connected to the sliding rail 19 in a sliding mode, the top of the sliding block 20 is connected with the bottom of the collecting frame 18, and the pull rod 21 is connected to the upper portion of the left wall of the collecting frame 18.
Example 3
A steel pipe fixed length lifting type cutting device for building construction is shown in figures 1-6 and comprises a first mounting frame 1, a mounting rod 2, a second mounting frame 3, a speed reducing motor 4, a sector gear 5, a first guide rail 6, a first guide sleeve 7, a stop block 8, a first rack 9, a fixed frame 10, a mounting plate 12, a first spring 14, a first lifting plate 15, a first lifting rod 16, a cutting wheel 17 and a collecting frame 18, wherein the upper portion of the right wall of the first mounting frame 1 is connected with the mounting rod 2, the bottom of the upper side surface of the mounting rod 2 is connected with the second mounting frame 3, the lower portion of the inner right wall of the second mounting frame 3 is connected with the speed reducing motor 4, the rear side of the speed reducing motor 4 is connected with the sector gear 5, the lower portion of the left side surface of the mounting rod 2 is connected with the first guide rail 6, the first guide sleeve 7 is slidably connected with the first guide sleeve 6, the right side of the bottom of, the top of first guide pin bushing 7 is connected with first rack 9, first rack 9 and the meshing of sector gear 5, the top left side of first installing frame 1 is connected with 2 fixed frames 10, the left side bottom of first guide rail 6 is connected with the fixed frame 10 top on right side, open at the top of first installing frame 1 has first through-hole 11, first through-hole 11 is located between 2 fixed frames 10, left wall sub-unit connection has mounting panel 12 in the second installing frame 3, it has second through-hole 13 to open on mounting panel 12, the top of mounting panel 12 is connected with first spring 14, the top of first spring 14 is connected with first lifter plate 15, the bottom of first lifter plate 15 is connected with first lifter 16, first lifter 16 passes first spring 14 and second through-hole 13, the lower extreme of first lifter 16 is connected with cutting wheel 17, cutting wheel 17 is located directly over first through-hole 11, collecting frame 18 has been placed to the bottom left side in first installing frame 1.
The collecting frame further comprises a sliding rail 19, a sliding block 20 and a pull rod 21, the sliding rail 19 is connected to the left side of the bottom in the first mounting frame 1, the sliding block 20 is connected to the sliding rail 19 in a sliding mode, the top of the sliding block 20 is connected with the bottom of the collecting frame 18, and the pull rod 21 is connected to the upper portion of the left wall of the collecting frame 18.
The novel guide rail device also comprises a second guide rail 22, a second guide sleeve 23, a connecting plate 24, a baffle 25, a second rack 26, a first guide wheel 27, a second guide wheel 28, a steel wire rope 29 and a second spring 30, wherein the right side of the top in the second mounting frame 3 is connected with 2 second guide rails 22, the 2 second guide rails 22 are all connected with the second guide sleeve 23, the front walls of the second guide sleeves 23 on the left side and the right side are connected with the connecting plate 24, the baffle 25 is connected between the lower parts of the second guide rails 22 on the left side and the right side, the bottom of each second guide sleeve 23 is contacted with the top of the baffle 25, the right side of the connecting plate 24 is connected with the second rack 26, the second rack 26 can be meshed with the sector gear 5, the front side of the baffle 25 is connected with the first guide wheel 27, the middle of the front wall of the connecting plate 24 is connected with the steel wire rope 29, the steel wire rope 29 winds around the first guide wheel 27, the, the right side of the top in the first mounting frame 1 is connected with a second guide wheel 28, a steel wire rope 29 bypasses the second guide wheel 28, the tail end of the steel wire rope 29 is connected with the right wall of the collecting frame 18, a second spring 30 is connected between the right wall of the collecting frame 18 and the left wall in the first mounting frame 1, and the second spring 30 is located below the steel wire rope 29.
Example 4
A steel pipe fixed length lifting type cutting device for building construction is shown in figures 1-6 and comprises a first mounting frame 1, a mounting rod 2, a second mounting frame 3, a speed reducing motor 4, a sector gear 5, a first guide rail 6, a first guide sleeve 7, a stop block 8, a first rack 9, a fixed frame 10, a mounting plate 12, a first spring 14, a first lifting plate 15, a first lifting rod 16, a cutting wheel 17 and a collecting frame 18, wherein the upper portion of the right wall of the first mounting frame 1 is connected with the mounting rod 2, the bottom of the upper side surface of the mounting rod 2 is connected with the second mounting frame 3, the lower portion of the inner right wall of the second mounting frame 3 is connected with the speed reducing motor 4, the rear side of the speed reducing motor 4 is connected with the sector gear 5, the lower portion of the left side surface of the mounting rod 2 is connected with the first guide rail 6, the first guide sleeve 7 is slidably connected with the first guide sleeve 6, the right side of the bottom of, the top of first guide pin bushing 7 is connected with first rack 9, first rack 9 and the meshing of sector gear 5, the top left side of first installing frame 1 is connected with 2 fixed frames 10, the left side bottom of first guide rail 6 is connected with the fixed frame 10 top on right side, open at the top of first installing frame 1 has first through-hole 11, first through-hole 11 is located between 2 fixed frames 10, left wall sub-unit connection has mounting panel 12 in the second installing frame 3, it has second through-hole 13 to open on mounting panel 12, the top of mounting panel 12 is connected with first spring 14, the top of first spring 14 is connected with first lifter plate 15, the bottom of first lifter plate 15 is connected with first lifter 16, first lifter 16 passes first spring 14 and second through-hole 13, the lower extreme of first lifter 16 is connected with cutting wheel 17, cutting wheel 17 is located directly over first through-hole 11, collecting frame 18 has been placed to the bottom left side in first installing frame 1.
The collecting frame further comprises a sliding rail 19, a sliding block 20 and a pull rod 21, the sliding rail 19 is connected to the left side of the bottom in the first mounting frame 1, the sliding block 20 is connected to the sliding rail 19 in a sliding mode, the top of the sliding block 20 is connected with the bottom of the collecting frame 18, and the pull rod 21 is connected to the upper portion of the left wall of the collecting frame 18.
The novel guide rail device also comprises a second guide rail 22, a second guide sleeve 23, a connecting plate 24, a baffle 25, a second rack 26, a first guide wheel 27, a second guide wheel 28, a steel wire rope 29 and a second spring 30, wherein the right side of the top in the second mounting frame 3 is connected with 2 second guide rails 22, the 2 second guide rails 22 are all connected with the second guide sleeve 23, the front walls of the second guide sleeves 23 on the left side and the right side are connected with the connecting plate 24, the baffle 25 is connected between the lower parts of the second guide rails 22 on the left side and the right side, the bottom of each second guide sleeve 23 is contacted with the top of the baffle 25, the right side of the connecting plate 24 is connected with the second rack 26, the second rack 26 can be meshed with the sector gear 5, the front side of the baffle 25 is connected with the first guide wheel 27, the middle of the front wall of the connecting plate 24 is connected with the steel wire rope 29, the steel wire rope 29 winds around the first guide wheel 27, the, the right side of the top in the first mounting frame 1 is connected with a second guide wheel 28, a steel wire rope 29 bypasses the second guide wheel 28, the tail end of the steel wire rope 29 is connected with the right wall of the collecting frame 18, a second spring 30 is connected between the right wall of the collecting frame 18 and the left wall in the first mounting frame 1, and the second spring 30 is located below the steel wire rope 29.
Still including bearing frame 31, the bull stick 32, the swinging arms 33, contact wheel 34, second lifter 35 and second lifter plate 36, top left side is connected with bearing frame 31 in the second installing frame 3, install the bull stick 32 in the bearing frame 31, the left and right sides of bull stick 32 all is connected with swinging arms 33, the bottom of swinging arms 33 all is connected with contact wheel 34, the top left side of connecting plate 24 is connected with second lifter 35, the top of second lifter 35 is connected with second lifter plate 36, left contact wheel 34 and the top contact of first lifter plate 15, the contact wheel 34 on right side and the top contact of second lifter plate 36.
Still including fixed plate 37, gooseneck 38 and light 39, the left end of installation pole 2 is connected with fixed plate 37, and the bottom of fixed plate 37 is connected with gooseneck 38, and the bottom of gooseneck 38 is connected with light 39.
When a steel pipe needs to be cut, a worker firstly controls the speed reducing motor 4 to drive the sector gear 5 to rotate anticlockwise, when the sector gear 5 is separated from the first rack 9, the speed reducing motor 4 is controlled to stop rotating, then the first guide sleeve 7 and the stop block 8 are moved to the rightmost side, then the steel pipe passes through the fixed frame 10 from left to right, the steel pipe is placed on the top of the first installation frame 1, the left end of the steel pipe is positioned under the cutting wheel 17, then the first guide sleeve 7 and the stop block 8 are moved leftwards, the stop block 8 is contacted with the right end of the steel pipe, then the speed reducing motor 4 is controlled to drive the sector gear 5 to rotate clockwise, the cutting wheel 17 is controlled to start working, when the sector gear 5 is meshed with the first rack 9, the first guide sleeve 7 and the stop block 8 move leftwards, the stop block 8 pushes the steel pipe to move leftwards, when the sector gear 5 is separated from, first rack 9, first guide pin bushing 7 and dog 8 stop moving, the steel pipe stop moving, the staff pushes down first lifter plate 15 this moment, first lifter plate 15 downstream, first lifter 16 and cutting wheel 17 downstream cut the steel pipe, loosen first lifter plate 15 after the cutting is accomplished, first lifter 16 and cutting wheel 17 upward movement under the elastic force effect of first spring 14, when sector gear 5 continues to mesh with first rack 9, dog 8 will promote the steel pipe and move the fixed length distance to the left, and the steel pipe that the cutting was accomplished can be promoted left by the steel pipe of right side leftward movement, thereby enter into and collect in the frame 18, can realize the fixed length cutting to the steel pipe like this, close gear motor 4 after the cutting is accomplished.
Because still including slide rail 19, slider 20 and pull rod 21, the bottom left side is connected with slide rail 19 in the first installing frame 1, and slide rail 19 upper sliding connection has slider 20, and the top of slider 20 is connected with the bottom of collecting frame 18, and the left wall upper portion of collecting frame 18 is connected with pull rod 21. When the steel pipes are stacked in the collecting frame 18 too messy and the storage amount is small, the worker continuously moves the collecting frame 18 left and right through the pull rod 21, so that the gap between the steel pipes can be effectively reduced, and more steel pipes can be stored in the collecting frame 18.
Because the fan-shaped gear rack further comprises a second guide rail 22, a second guide sleeve 23, a connecting plate 24, a baffle 25, a second rack 26, a first guide wheel 27, a second guide wheel 28, a steel wire rope 29 and a second spring 30, the right side of the top in the second mounting frame 3 is connected with the 2 second guide rails 22, the 2 second guide rails 22 are connected with the second guide sleeves 23, the front walls of the second guide sleeves 23 on the left side and the right side are connected with the connecting plate 24, the baffle 25 is connected between the lower parts of the second guide rails 22 on the left side and the right side, the bottom of the second guide sleeve 23 is contacted with the top of the baffle 25, the right side of the connecting plate 24 is connected with the second rack 26, the second rack 26 can be meshed with the sector gear 5, the front side of the baffle 25 is connected with the first guide wheel 27, the middle of the front wall of the connecting plate 24 is connected with the steel wire rope 29, the steel wire rope 29 bypasses the first guide wheel 27, the steel, the right side of the top in the first mounting frame 1 is connected with a second guide wheel 28, a steel wire rope 29 bypasses the second guide wheel 28, the tail end of the steel wire rope 29 is connected with the right wall of the collecting frame 18, a second spring 30 is connected between the right wall of the collecting frame 18 and the left wall in the first mounting frame 1, and the second spring 30 is located below the steel wire rope 29. When the sector gear 5 rotates clockwise to be meshed with the second rack 26, the second rack 26 moves upwards, the upper ends of the connecting plate 24 and the steel wire rope 29 also move upwards along with the upper ends, the collecting frame 18 is pulled by the left end of the steel wire rope 29 to move rightwards, the second spring 30 is compressed, when the sector gear 5 rotates clockwise to be separated from the second rack 26, the second rack 26 moves downwards under the action of the elastic force and the gravity of the second spring 30, the upper ends of the connecting plate 24 and the steel wire rope 29 move downwards, and the collecting frame 18 moves leftwards, so that the sector gear 5 rotates clockwise continuously, the continuous left-right movement of the collecting frame 18 can be realized without manual operation, and the arrangement of the steel pipes in the collecting frame 18 is more compact.
Because still including bearing frame 31, the bull stick 32, the swinging arms 33, contact wheel 34, second lifter 35 and second lifter plate 36, top left side is connected with bearing frame 31 in the second installing frame 3, install the bull stick 32 in the bearing frame 31, the left and right sides of bull stick 32 all is connected with swinging arms 33, the bottom of swinging arms 33 all is connected with contact wheel 34, the top left side of connecting plate 24 is connected with second lifter 35, the top of second lifter 35 is connected with second lifter plate 36, left contact wheel 34 and the top contact of first lifter plate 15, the contact wheel 34 on right side and the top contact of second lifter plate 36. When the sector gear 5 rotates clockwise and is meshed with the second rack 26, the connecting plate 24 moves upwards, the second lifting rod 35 and the second lifting plate 36 move upwards, the contact wheel 34 on the right side and the swing rod 33 on the right side swing upwards, the contact wheel 34 on the left side and the swing rod 33 on the left side swing downwards, the first lifting plate 15 moves downwards, the cutting wheel 17 moves downwards to cut the steel pipe, therefore, the cutting wheel 17 moves downwards to cut the steel pipe after the fixed-length steel pipe is pushed to move leftwards, and when the sector gear 5 is separated from the second rack 26, the second lifting rod 35 and the second lifting plate 36 move downwards, the cutting wheel 17 moves upwards under the action of the elastic force of the first spring 14, so that the cutting of the steel pipe can be realized without manually pressing the first lifting plate 15, and the operation is more convenient.
Because still including fixed plate 37, gooseneck 38 and light 39, the left end of installation pole 2 is connected with fixed plate 37, and the bottom of fixed plate 37 is connected with gooseneck 38, and the bottom of gooseneck 38 is connected with light 39. When the cutting condition needs to be observed more carefully, the worker can turn on the illuminating lamp 39, so that the light can be enhanced, and the worker can observe the cutting condition more carefully.
The embodiments of the present invention have been described in detail with reference to the drawings, but the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the gist of the present invention.