CN211304971U - Tubular product pay-off cutting system - Google Patents

Tubular product pay-off cutting system Download PDF

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Publication number
CN211304971U
CN211304971U CN201921405684.8U CN201921405684U CN211304971U CN 211304971 U CN211304971 U CN 211304971U CN 201921405684 U CN201921405684 U CN 201921405684U CN 211304971 U CN211304971 U CN 211304971U
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China
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feeding
cutting
assembly
pipe
frame
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CN201921405684.8U
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Chinese (zh)
Inventor
刘继德
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Guangzhou Great Year Laser Technology Co ltd
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Guangzhou Great Year Laser Technology Co ltd
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Abstract

The utility model provides a tubular product pay-off cutting system, include material loading portion and the pipe cutting lathe of placing side by side, be equipped with in the material loading portion and remove the material loading output subassembly to the pipe cutting lathe along the horizontal direction in perpendicular to tubular product axle center with tubular product, including two at least material loading systems of arranging side by side along tubular product axle center direction equidistance in the material loading output subassembly. The utility model provides a to the transmission of tubular product, cutting device, whole system degree of automation is high, and transmission effect is good, improves the efficiency of whole operation, convenient to use.

Description

Tubular product pay-off cutting system
Technical Field
The invention relates to the transfer and cutting of pipes, in particular to a pipe feeding and cutting system.
Background
Cutting need carry the cutting machine tool with tubular product on cutting to the cutting of tubular product, tubular product transport in the past needs manual control manipulator to press from both sides and gets the material loading, but this kind of operation is more difficult among the prior art, because tubular product is longer, its in-process of carrying appears the state of slope very easily, influences stable placing to the efficiency of transmission has been influenced.
Disclosure of Invention
The invention provides a pipe feeding and cutting system, which solves the problems in the prior art.
The technical scheme of the invention is realized as follows:
tubular product pay-off cutting system, including material loading portion and the pipe cutting lathe of placing side by side, be equipped with in the material loading portion and remove the material loading output subassembly to the pipe cutting lathe along the horizontal direction in perpendicular to tubular product axle center with tubular product, including two at least material loading systems who arranges side by side along tubular product axle center direction equidistance in the material loading output subassembly.
As a preferable scheme of the invention, the feeding system comprises a feeding assembly, a transmission assembly and a lifting assembly which are sequentially connected along the moving direction of the pipe, wherein a liftable material pressing plate is arranged above the transmission assembly, and the feeding system further comprises a feeding grabbing assembly which moves the material on the lifting assembly to a pipe cutting machine tool.
As a preferable scheme of the invention, the feeding output assembly comprises a cross beam, the upper part of the cross beam is parallel to the axis of the pipe, and two ends of the cross beam are connected with a rack for supporting.
As a preferred scheme of the invention, the feeding assembly comprises an outer support rod, a middle support rod and an inner material receiving frame which are sequentially arranged along the pipe conveying direction; the outer support rod is provided with a fixed end pipe for fixing the material containing belt, and the material containing belt penetrates through the middle support rod and is connected with the material receiving roller on the inner side material receiving frame.
As a preferred aspect of the present invention, the transmission assembly includes at least one drive chain structure.
As a preferred scheme of the invention, a lifting driving assembly for linking the pressure plate is arranged on the cross beam, the lifting driving assembly comprises a fixed plate fixed on the side surface of the cross beam, and a driving fixed seat is fixed beside the fixed plate;
the fixed plate is provided with a vertical guide device, and a connecting column connected with the material pressing plate is connected with the guide device in a matching way.
As a preferable scheme of the invention, the feeding grabbing component is clamped on a material guiding component, the material guiding component comprises a track frame fixed below the cross beam, and a driving device and a guiding device for driving the feeding grabbing component to move are arranged on the track frame.
As a preferable scheme of the invention, the feeding and grabbing component comprises a feeding and grabbing rack, and two clamping grabs which move up and down relatively are arranged on the front side surface of the feeding and grabbing rack.
As a preferable scheme of the invention, the pipe cutting machine comprises a machine tool, a portal frame is arranged on a head end frame of the machine tool, a movable push rod box is arranged on a tail end frame of the machine tool, a rotary clamp is arranged in the portal frame, and a cutting machine assembly is arranged at the upper part of the portal frame.
As the preferred scheme of the invention, a centering device and at least two support frames which are arranged at equal intervals are arranged along the direction of the middle axis of the pipe on the inner bottom surface of the machine tool; the centering device is placed close to the portal frame, and the bottom surface of the machine tool on the front side of the centering device is connected with a residual material discharging plate inclining downwards.
Advantageous effects
The invention provides a pipe feeding and cutting system which comprises a feeding part and pipe cutting machine tools arranged side by side, wherein a feeding output assembly which moves a pipe to the pipe cutting machine tools along the horizontal direction perpendicular to the axis of the pipe is arranged in the feeding part, and at least two feeding systems which are arranged side by side at equal intervals along the axis of the pipe are arranged in the feeding output assembly. The invention provides a pipe conveying and cutting device, which has the advantages of high automation degree of the whole system, good conveying effect, improvement on the efficiency of the whole operation and convenience in use.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, 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 creative efforts.
FIG. 1 is a perspective view of the present invention;
FIG. 2 is a schematic perspective view of the feeding and discharging assembly;
FIG. 3 is a schematic side view of the feeding output assembly;
FIG. 4 is a schematic structural view of a pipe cutting machine;
FIG. 5 is a schematic view of a feeding claw assembly;
FIG. 6 is a schematic diagram of a centering assembly;
FIG. 7 is a schematic view of a centering assembly.
The device comprises a frame 1, a feeding component 2, an external stay bar 21, a heavy object block 22, a material containing belt 23, a fixed end pipe 24, a middle stay bar 25, a material receiving roller 26, a transmission component 3, a transmission chain 31, a driving motor 32, a first linkage rod 33, a second linkage rod 34, a transmission frame 35, a cross beam 4, a material pressing component 5, a material pressing plate 51, a fixed plate 52, a lifting slide block 53, a connecting column 54, a slide rail 55, a rack 56, a driving fixing seat 57, a material pressing gear 58, a material pressing linkage rod 59, a lifting component 6, a lifting connecting table 61, a lifting cylinder 62, a lifting table 63, a horizontal roller 64, a vertical roller 65, a material guiding component 7, an inclined beam 71, a rail frame 72, a material guiding rail 73, a synchronous belt wheel 74, a feeding grabbing component 8, a feeding grabbing frame 81, a feeding grabbing connecting seat 811, a feeding grabbing fixing plate 812, a feeding slide block 813, a feeding dragging chain 814, a power source 82, a feeding grabbing connecting plate 83 and a feeding, the pipe cutting machine comprises a feeding grabbing gear 85, a feeding grabbing rack 86, a clamping grabbing 87, a rubber pad 871, a pipe cutting machine tool 9, a machine tool 91, support legs 911, a portal frame 92, a push rod box 93, an upper panel 94, a case rack 941, a case slide rail 942, a cutting case 95, a lifting drag chain 951, a horizontal drag chain 952, a laser head 96, a clamping turntable 97, a support frame 98, a support seat 981, a centering device 99, a centering main frame 991, a centering operation plate 9911, a centering slide rail 9912, a centering lifting cylinder 992, a centering connection seat 9921, a centering connection rod 9922, a centering drive source 993, a centering slide block 994, a centering gear 995, a centering rack 996 and a centering poke rod 997.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
The pipe feeding and cutting system shown in fig. 1-7 comprises a feeding part and pipe cutting machine tools 9 arranged side by side, and is characterized in that a feeding output assembly which moves a pipe to the pipe cutting machine tools 9 along the horizontal direction perpendicular to the axis of the pipe is arranged in the feeding part, and the feeding output assembly comprises at least two feeding systems arranged side by side at equal intervals along the axis of the pipe.
The feeding system comprises a feeding assembly 2, a transmission assembly 3 and a lifting assembly 6 which are sequentially connected along the moving direction of the pipe, a liftable pressure plate 51 is arranged above the transmission assembly 3, and the feeding system further comprises a feeding grabbing assembly 8 which moves the material on the lifting assembly 6 to a pipe cutting machine tool 9.
The feeding output assembly comprises a cross beam 4, the upper part of the cross beam is parallel to the axis of the pipe, and two ends of the cross beam 4 are connected with a rack 1 for supporting.
The feeding assembly 2 comprises an outer support rod 21, a middle support rod 25 and an inner material receiving frame which are sequentially arranged along the pipe conveying direction; the outer support rod 21 is provided with a fixed end pipe 24 for fixing the material containing belt 23, and the material containing belt 23 penetrates through the middle support rod 25 and is connected with a material receiving roller 26 on the inner side material receiving frame.
The transmission assembly 3 comprises at least one drive chain structure.
A lifting driving assembly linked with the material pressing plate 51 is arranged on the cross beam 4, the lifting driving assembly comprises a fixing plate 52 fixed on the side surface of the cross beam 4, and a driving fixing seat 57 is fixed beside the fixing plate;
the fixed plate 52 is provided with a vertical guiding device, and a connecting column 54 connected with the material pressing plate 51 is connected with the guiding device in a matching way.
The feeding grabbing component 8 is clamped on a material guiding component 7, the material guiding component 7 comprises a track frame 72 fixed below the cross beam 4, and a driving device and a guiding device for driving the feeding grabbing component 8 to move are arranged on the track frame.
The feeding and grabbing component 8 comprises a feeding and grabbing rack 81, and two clamping grabbers 87 which can move up and down relatively are arranged on the front side surface of the feeding and grabbing rack 81.
The pipe cutting machine comprises a machine tool, a portal frame 2 is arranged on a head end frame of the machine tool, a movable push rod box 3 is arranged on a tail end frame of the machine tool, a rotating clamp is installed in the portal frame, and a cutting machine assembly is arranged on the upper portion of the portal frame.
A centering device 99 and at least two support frames 98 which are arranged at equal intervals are arranged along the direction of the middle axis of the pipe on the inner bottom surface of the machine tool; the centering device 99 is placed close to the portal frame, and the bottom surface of the machine tool at the front side of the centering device 99 is connected with a residual material discharging plate inclining downwards.
Example 1
As shown in fig. 1-3, the feeding output assembly comprises a frame 1 and a beam 4 on the upper part of the frame 1, a plurality of identical feeding systems are equidistantly arranged below the beam, each feeding system comprises a feeding assembly 2, a transmission assembly 3 and a lifting assembly 6 which are sequentially connected, a liftable pressure plate 51 is arranged above the transmission assembly 3, and a feeding grabbing assembly 8 for conveying materials on the lifting assembly 6 is connected to the beam.
The feeding system is vertical to the overlooking projection of the middle shaft of the cross beam 4 aiming at the material transmission direction.
The feeding assembly 2 comprises an outer support rod 21, a middle support rod 25 and an inner material receiving frame which are sequentially arranged along the transmission direction; the outer support rod 21 is provided with a fixed end pipe 24 for fixing the material containing belt 23, and the material containing belt 23 penetrates through the middle support rod 25 and is connected with a material receiving roller 26 on the inner side material receiving frame. .
Transmission assembly 3 includes that a plurality of edges direction of transfer set up the driving chain 31 that links up, including the action wheel in the driving chain 31 and follow the driving wheel, the action wheel is connected with the power supply.
The transmission assembly further comprises a transmission frame 35 for protection, the tail end of the transmission frame 35 is fixed with a lifting connecting table 61, the lifting assembly comprises a lifting table 63 capable of lifting above the lifting connecting table 61, and a steel pipe bearing and limiting bearing assembly is arranged on the lifting table 63.
The lifting driving assembly linked with the material pressing plate 51 is arranged on the cross beam 4 and comprises a fixing plate 52 fixed on the side surface of the cross beam 4, and a driving fixing seat 57 is fixed beside the fixing plate.
The fixed plate 52 is provided with a vertical guiding device, and a connecting column 54 connected with the material pressing plate 51 is matched and connected with the guiding device.
The feeding grabbing component 8 is clamped on a material guiding component 7, the material guiding component 7 comprises a track frame 72 fixed below the cross beam 4, and a horizontally-arranged feeding grabbing slide rail 84 and a transmission synchronous belt are arranged on the side of the track frame 72.
The feeding grabbing component 8 is clamped on the feeding grabbing slide rail 84 through a feeding grabbing slide block 813, and a feeding grabbing connecting seat 811 on the feeding grabbing component 8 is fixedly connected with a corresponding point of the synchronous belt.
The feeding and grabbing component 8 comprises a feeding and grabbing rack 81, and two clamping grabbers 87 which can move up and down relatively are arranged on the front side surface of the feeding and grabbing rack 81.
Example 2
The pipe feeding frame shown in fig. 1 and 2 is provided with a plurality of feeding systems which are arranged side by side along the axial direction of a pipe.
The feeding system comprises a feeding assembly 2, a transmission assembly 3 and a lifting assembly 6 which are connected in sequence along the transmission direction of the steel pipe, and a liftable pressure plate 51 is arranged above the transmission assembly 3. The feeding assembly 2 comprises an outer support rod 21, a middle support rod 25 and an inner side material receiving frame which are sequentially arranged along the transmission direction. The outer support rod 21 is provided with a fixed end pipe 24 for fixing the material containing belt 23, and the material containing belt 23 penetrates through the middle support rod 25 and is connected with the material receiving roller on the inner side material receiving frame.
The outer support rod 21 is fixedly connected with the rack 1 through a connecting beam at the lower part, the height of the outer support rod 21 is one time of that of the middle support rod 25, one end of the material containing belt 23 is fixed on a fixed end pipe 24 at the upper end of the outer support rod 21, a guide roller for supporting the material containing belt 23 is arranged on the middle support rod, and a heavy object block 22 is clamped on the material containing belt 23 between the outer support rod 21 and the middle support rod 25.
The other free end of the material containing belt 23 is fixed on the material receiving frame on the inner side, a winding roller similar to a rope receiving roller is arranged on the material receiving frame, the winding roller is driven to rotate by a motor, the winding roller is fixedly connected with the free end of the material containing belt 23, and the material containing belt is rolled to complete the material containing belt receiving and releasing work.
The containing positions of the steel pipes are formed by the material containing belts 23 which are arranged side by side, the material containing belts are evenly distributed at the axial positions of the steel pipes, the steel pipes move towards the direction of the transmission assembly in the process of winding the belts by the winding roller, and when the steel pipes fall onto the transmission assembly, the steel pipes continue to move along the transmission direction along with the transmission of the transmission assembly.
The winding rollers in the feeding systems are all connected with the same connecting rod, one end of the connecting rod is connected with a driving motor, and all the winding rollers are driven to rotate simultaneously by the same driving motor.
Example 3
The technical scheme in the above embodiment, wherein:
the transmission assembly 3 comprises a plurality of transmission chains 31 which are arranged along the transmission direction and are connected end to end, the two transmission chains are adjacent, one of the two transmission chains is arranged at the discharge end of the other transmission chain side by side or staggered inwards, the two transmission chains are tightly attached to each other or arranged at intervals, and as long as the transmission chains have a connected structure, the whole transmission line is continuous and uninterrupted, and the problem that materials fall off cannot be caused.
The transmission chain 31 comprises a driving wheel and a driven wheel, the driving wheel is connected with a linkage rod, the linkage rod is connected with a driving motor 32, and all the transmission chains in one row complete transmission actions at the same time and the same speed through one linkage rod.
The number of the transmission chains in this embodiment is 2, the transmission directions of the two transmission chains are both material transmission directions, the two transmission chains are arranged in a staggered manner, the driving wheel of the rear side transmission chain is connected with a second linkage rod 34, the driving wheel of the front side transmission chain is connected with a first linkage rod 33, the first linkage rod and the second linkage rod are respectively connected with a driving motor 32, and each linkage rod drives the driving wheel corresponding to the same row to do the same rotation action.
Example 4
The transmission assembly further comprises a transmission frame 35 for protection, and a lifting connection table 61 is fixed at the tail end of the transmission frame 35.
A lifting platform 63 capable of lifting is arranged above the lifting connecting platform 61, and a bearing and limiting component for bearing and limiting the steel pipe is arranged on the lifting platform 63.
A lifting cylinder 62 is fixed on the ground below the lifting connecting table 61, a cylinder rod of the lifting cylinder penetrates through the lifting connecting table 61, and the upper end of the cylinder rod of the lifting cylinder is connected with a lifting table 63.
The reason that the connection of the lifting connection table 61 is at the tail end of the transmission frame 35 is that the better limiting air cylinder rod and the better limiting lifting table 63 simultaneously enable materials to be in seamless connection with the lifting table 63 after passing through the transmission chain, and blanking is prevented. Because the system is arranged in parallel, the lifting connecting table 61 can be not fixed on the transmission frame 35, and can also be independently grounded to form a cover body, an upper cylinder is fixed in the cover body, and the lifting table 63 at the upper part of the lifting cylinder can be a steel pipe which can be connected with the output of the transmission chain.
Here, the upper surface of the lifting platform 63 is fixed with a horizontal roller 64 and a vertical roller 65, which mainly function as a limit to prevent the steel pipe on the horizontal roller from rolling and sliding off.
Example 5
Horizontal rollers 64 are arranged on the lifting platform 63, the axes of the horizontal rollers are parallel to the transmission direction, vertical rollers 65 are arranged at two ends of each horizontal roller, and a vertical roller 65 is arranged at the front end of the optional horizontal roller.
Example 6
The beam 4 is provided with a lifting driving component for linking the pressure plate 51. The lifting driving assembly comprises a fixing plate 52 fixed on the side face of the cross beam 4, a driving fixing seat 57 is fixed beside the fixing plate, a vertical guiding device is arranged on the fixing plate 52, and a connecting column 54 connected with the material pressing plate 51 is connected with the guiding device in a matching manner. The connecting column 54 is connected with a vertical rack 56, a rotatable pressing gear 58 is arranged on the driving fixing seat 57, and the pressing gear 58 is meshed with the rack 56 to complete driving of the rack 56.
The front side of the fixed plate 52 is provided with a vertical slide rail 55, the slide rail 55 is connected with a lifting slide block 53 in a clamping manner, the front side of the lifting slide block 53 is connected with a connecting column 54, and the side edge of the connecting column 54 is connected with a rack 56.
A driving fixing seat 57 is fixed on the side of the fixing plate 52, a pressing gear 58 is rotatably connected to the driving fixing seat, the pressing gear is meshed with the rack 56, the pressing gear rotates, the linkage rack completes lifting movement, and the pressing plate is linked to lift.
The pressing gears 58 in each feeding system are linked through a pressing linkage rod 59, the pressing linkage rod 59 is connected with a driving motor or a rotating cylinder, and the pressing plates 51 in the same row complete lifting at the same time under the linkage of the pressing linkage rods 59.
Example 7
The feeding and grabbing assembly shown in fig. 5, which can be driven by a driving assembly on a main machine slide rail, includes a feeding and grabbing frame 81, and further includes:
the feeding claw connecting plate 83 is fixed on the front side surface of the feeding claw frame 81; the clamping claw driving assembly is arranged on the front side surface of the feeding claw connecting plate 83;
the two clamping claws 87 are symmetrically arranged on the clamping claw driving component to finish symmetrical movement. A feeding grabbing connecting seat 811 is fixed on the side surface of the feeding grabbing frame 81, and a feeding grabbing fixing plate 812 connected with the driving assembly is fixed on the feeding grabbing connecting seat 811.
A feeding grabbing sliding block 813 matched with a main machine sliding rail is fixed on the side surface of the feeding grabbing machine frame 81. The upper surface of the feeding and grabbing frame 81 is connected with a feeding and grabbing chain 814.
A rubber pad 871 is fixed on the inner side surface of the holding claw 87. The gripper drive assembly includes a feed gripper gear 85 rotationally fixed to the web. The feeding claw gear 85 is linked by a power source 2 fixed in the feeding claw frame 81.
The feeding grabbing sliding rails 84 are fixed on the feeding grabbing connecting plates 83 on the left side and the right side of the feeding grabbing gear 85, the two sliding rails are connected with a feeding grabbing rack 86 through a sliding block connecting piece, and the racks on the two sliding rails are arranged in a staggered mode. The rack is engaged with a feeding claw gear 85 in the middle.
Two holding grippers 87 are fixed to the outer ends of the two feeding gripper racks 86, respectively.
Example 8
According to the clamping device in the technical scheme, the feeding grabbing frame 81 is connected with the driving device, the driving device is driven by the synchronous belt slide rail, the feeding grabbing slide block 813 is clamped on the slide rail, the fixing plate is fixedly connected with the corresponding position of the synchronous belt, the synchronous belt placing position is parallel to the feeding grabbing frame 81, and the whole machine is driven to move back and forth under the movement of the synchronous belt.
The lower end of the feeding grabbing drag chain 814 is connected with the feeding grabbing rack 81, the upper end of the drag chain is connected with the main feeding grabbing rack of the whole machine, and the feeding grabbing rack 81 is placed to drop off due to accidents to hit other auxiliary devices.
Example 9
The front section of the feeding and grabbing frame 81 is provided with a clamping and grabbing driving device which mainly comprises a middle feeding and grabbing gear 85, and the rotation of the middle gear drives two feeding and grabbing racks 86 to move towards or away from each other.
The feeding grabbing gear 85 is connected with a power source, the power source is one of driving devices such as a rotary cylinder, a rotary oil cylinder and a rotary motor, and the feeding grabbing gear can be used as long as the linkage task aiming at the feeding grabbing gear 85 can be completed.
Example 10
According to the technical scheme in the embodiment, the feeding gripper frame 81 is provided with a photoelectric sensor, a displacement sensor and other devices at corresponding positions, the sensors are connected with a signal transceiver, an MCU, a power supply circuit and a control circuit, the control assembly is not repeated for the specific structure in the prior art, the structure is used as a driving source in the whole system, and the operation position of the whole machine is corrected accurately or not according to the signal feedback of the sensors, so that the clamping is in place or not.
The rail frame 72 is fixed on the cross beam through the oblique beam 71, and the rail frame 72 is placed in a direction parallel to the conveying direction.
Example 11
The pipe cutting machine 9 shown in fig. 4 includes a machine tool 91, guide rails are provided on both side walls in the longitudinal direction of the machine tool 91, a portal frame 92 is fixed to the head end of the machine tool, a push rod box 93 which reciprocates relative to the longitudinal direction of the machine tool is fixed to the tail end of the airport, a rotating jig is provided inside the portal frame 92, and a cutting machine assembly is provided on the upper portion of the portal frame 92.
A plurality of support frames 98 are fixed on the bottom surface of the machine tool 91 at equal intervals along the long side of the machine tool. A centering device 99 is fixed to the front side inside the machine tool. A support 911 is fixed to the lower portion of the machine tool 91.
The portal frame 92 comprises a clamping turntable 97 driven by gear engagement, the middle part of the clamping turntable 97 is provided with a through hole for the steel pipe to pass through, and spring type clamping claws are arranged around the turntable through hole. The structure of the clamping turntable 97 is prior art, and the outer teeth of the outer ring of the clamping turntable are meshed with the related driving gears and fixed by the connecting bearing, so that the rotation in the portal frame 92 is completed.
The spring type clamping claw on the upper part of the clamping rotary table is also a structure in the prior art, can be a clamping claw with a spring resilience structure, and can also be a clamping claw structure moving in a matching way through a screw rod sliding block component.
Example 12
An upper panel 94 is fixed on the upper portion of the gantry 92, a chassis rack 941 and a chassis slide rail 942 which are horizontally arranged along the short side direction of the machine tool 91 are arranged on the upper portion of the upper panel 94, and a cutting chassis 95 in the cutting machine assembly is matched and connected with the chassis rack 941 and the chassis slide rail 942 to finish the moving action of the cutting chassis 95 relative to the upper panel 94.
Specifically, a gear and a slider are arranged on the lower portion of the cutting case, the corresponding slider is clamped with the case slide rail 942, the corresponding gear is meshed with the case rack 941, the motor connected with the gear drives the gear to rotate, and meanwhile the cutting case is driven to move relative to the slide rail. A horizontal drag chain is also connected between the cutter box and the upper panel 94.
Example 13
A liftable laser head 96 is fixed on the side surface of the cutting machine case 95. The laser head can accomplish the lift action through the cylinder, also can be the lifting work who accomplishes through the screw-nut subassembly, and the laser head is installed at the leading flank or the trailing flank of cutting machine case 95, is connected with lift tow chain 951 between cutting machine case and the laser head.
The laser head is the laser cutting head subassembly that exists among the prior art, is connected with the optic fibre pipe.
Example 14
The support frame 98 includes a lifting support rod, and a support seat 981 is fixed at the free end of the support rod.
The upper portion of supporting seat 981 is equipped with the joint groove structure of v type, and the bracing piece lower extreme articulates on the bottom plate of lathe, and the cylinder pole of a cylinder seat can be connected at the bracing piece middle part, through the lift of the flexible linkage bracing piece of cylinder, also can move the lift that other aggregate unit controlled the bracing piece.
Example 15
As shown in fig. 6 and 7, the centering device 99 includes a liftable centering main frame 991, and a centering operation board 9911 is provided on the upper portion of the centering main frame 991.
The centering operation board 9911 is provided with two centering poke rods 997 which complete symmetrical movement through the cooperation of a gear and a rack.
School device, main frame 991 including school, school main frame 991 lower part is connected and is gone up and down to drive the subassembly, still includes: the centering assembly is fixed on the upper surface of the centering main frame 991;
the centering assembly comprises two centering racks 996 which move relatively, and a centering poke rod 997 for poking the pipe is fixed on the centering racks 996. The lifting driving component comprises a centering lifting cylinder 992, and the lower part of the centering lifting cylinder 992 is connected with a centering connecting seat 9921. The upper cylinder rod of the centering lifting cylinder 992 is connected with a centering connecting rod 9922, and two ends of the centering connecting rod 9922 are inserted into two parallel side walls in the centering main frame 991. The centering main frame 991 is a hood-shaped structure, and includes four side surfaces and a top surface of an upper portion, on which a centering operation board 9911 is fixed.
The centering assembly includes a centering gear 995 rotatably fixed at the center of the centering operation plate 9911, and the centering gear 995 is interlocked with a centering drive source 993 in the centering main frame 991. Centering slide rails 9912 are symmetrically arranged on two sides of the centering gear 995 in parallel, the centering slide rails 9912 are fixed on the centering operation board 9911, and the placement position of the centering slide rails 9912 is parallel to the long side of the centering operation board 9911. The two centering slide rails 9912 are respectively clamped with a centering slide block 994, and the two slide blocks are staggered relative to the middle centering gear 995. A centering rack 996 is fixed on the centering slider 994, and the rack is engaged with the centering gear 995. The centering tap lever 997 is fixed to the outer end of the rack.
Example 16
The corresponding positions of the frame 1 and the pipe cutting machine tool 9 are provided with a photoelectric sensor, a displacement sensor and other devices, the sensors are connected with a signal transceiver, an MCU, a power supply circuit and a control circuit, the control assembly is not repeated for the specific structure of the prior art, the running position of the whole machine is corrected accurately according to the signal feedback of the sensors, and the clamping transmission is in place.
The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (10)

1. Tubular product pay-off cutting system, including material loading portion and the pipe cutting lathe (9) of placing side by side, its characterized in that, be equipped with in the material loading portion and remove the material loading output subassembly to pipe cutting lathe (9) on along the horizontal direction in perpendicular to tubular product axle center with tubular product, including two at least material loading systems who arranges side by side along tubular product axle center direction equidistance in the material loading output subassembly.
2. The pipe feeding and cutting system according to claim 1, wherein the feeding system comprises a feeding assembly (2), a conveying assembly (3) and a lifting assembly (6) which are sequentially connected along the moving direction of the pipe, a liftable material pressing plate (51) is arranged above the conveying assembly (3), and the pipe feeding and cutting system further comprises a feeding grabbing assembly (8) which moves the material on the lifting assembly (6) to a pipe cutting machine (9).
3. The pipe feeding and cutting system according to claim 2, wherein the feeding and outputting assembly comprises a cross beam (4) which is arranged above and parallel to the axis of the pipe, and a frame (1) for supporting is connected to two ends of the cross beam (4).
4. The tube feeding and cutting system according to claim 2, wherein the feeding assembly (2) comprises an outer support rod (21), an intermediate support rod (25) and an inner material receiving frame which are arranged in sequence along the tube conveying direction; the outer support rod (21) is provided with a fixed end pipe (24) for fixing the material containing belt (23), and the material containing belt (23) is connected with a material receiving roller (26) on the inner side material receiving frame after penetrating through the middle support rod (25).
5. The tube feed cutting system according to claim 2, characterized in that the transport assembly (3) comprises at least one drive chain structure.
6. The pipe feeding and cutting system according to claim 3, wherein a lifting driving assembly linked with the material pressing plate (51) is arranged on the cross beam (4), the lifting driving assembly comprises a fixing plate (52) fixed on the side surface of the cross beam (4), and a driving fixing seat (57) is fixed beside the fixing plate;
the fixed plate (52) is provided with a vertical guide device, and a connecting column (54) connected with the material pressing plate (51) is connected with the guide device in a matching way.
7. The pipe feeding and cutting system according to claim 3, wherein the feeding grabbing component (8) is clamped on a material guiding component (7), the material guiding component (7) comprises a track frame (72) fixed below the cross beam (4), and a driving device and a guiding device for driving the feeding grabbing component (8) to move are arranged on the track frame.
8. The pipe feeding and cutting system as claimed in claim 2, wherein the feeding and grabbing assembly (8) comprises a feeding and grabbing frame (81), and two clamping grabs (87) which move up and down relatively are arranged on the front side surface of the feeding and grabbing frame (81).
9. The tube feeding and cutting system according to claim 1, wherein the tube cutting machine comprises a machine tool, a portal frame (92) is arranged on a head end frame of the machine tool, a movable push rod box (93) is arranged on a tail end frame of the machine tool, a rotary clamp is arranged in the portal frame, and a cutting machine assembly is arranged on the upper portion of the portal frame.
10. The pipe feeding and cutting system according to claim 9, wherein a centering device (99) and at least two support frames (98) which are arranged at equal intervals are arranged on the inner bottom surface of the machine tool along the direction of the central axis of the pipe; the centering device (99) is placed close to the portal frame, and the bottom surface of the machine tool on the front side of the centering device (99) is connected with a residual material discharging plate inclining downwards.
CN201921405684.8U 2019-08-27 2019-08-27 Tubular product pay-off cutting system Active CN211304971U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201921405684.8U CN211304971U (en) 2019-08-27 2019-08-27 Tubular product pay-off cutting system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201921405684.8U CN211304971U (en) 2019-08-27 2019-08-27 Tubular product pay-off cutting system

Publications (1)

Publication Number Publication Date
CN211304971U true CN211304971U (en) 2020-08-21

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Family Applications (1)

Application Number Title Priority Date Filing Date
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Country Link
CN (1) CN211304971U (en)

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