CN109877588B - Automatic cutting equipment for rod-shaped building materials - Google Patents

Automatic cutting equipment for rod-shaped building materials Download PDF

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Publication number
CN109877588B
CN109877588B CN201810152545.2A CN201810152545A CN109877588B CN 109877588 B CN109877588 B CN 109877588B CN 201810152545 A CN201810152545 A CN 201810152545A CN 109877588 B CN109877588 B CN 109877588B
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China
Prior art keywords
clamping
pressing
chamfering
cutting
motor
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CN201810152545.2A
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CN109877588A (en
Inventor
朱文祥
叶胜根
朱兵
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Taizhou jinzai Intellectual Property Service Co.,Ltd.
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Taizhou Jinzai Intellectual Property Service Co ltd
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Abstract

The invention provides automatic cutting equipment for a rodlike building material, which comprises a frame body, a feeding device, a clamping mechanism, a cutting mechanism and a material returning mechanism, wherein the feeding device is used for conveying a bar to be processed, the clamping mechanism is used for clamping the bar conveyed by the feeding device, the cutting mechanism is used for cutting the clamped bar, the material returning mechanism is used for moving out the cut bar, the frame body is provided with a controller and a control panel which are used for controlling the automatic cutting equipment to operate, the feeding device, the clamping mechanism, the cutting mechanism and the material returning mechanism are all arranged on the frame body, and the material returning mechanism is provided with a pressing mechanism.

Description

Automatic cutting equipment for rod-shaped building materials
Technical Field
The invention relates to the field of machining, in particular to automatic cutting equipment for rodlike building materials.
Background
In actual production and life, the application of bar is comparatively extensive, the specification that different application field required the bar is different, at present, most bar cutting equipment passes through manual operation and accomplishes the cutting to the bar, the grinding, the labour has not only been increased, and production efficiency has been reduced, be unfavorable for carrying out large batch production and processing to the bar, and simultaneously, there is the potential safety hazard easily in manual operation cutting bar, be unfavorable for operating personnel's personal safety, and, manual operation cutting bar makes the machining precision of bar lower, influence follow-up installation to the bar, operations such as welding.
Disclosure of Invention
To solve the disadvantages of the prior art, it is an object of the present invention to provide an automatic cutting apparatus for bar-shaped building materials.
In order to achieve the technical purpose, the technical scheme adopted by the invention is as follows.
Automatic cutout equipment of bar-shaped building material, it includes the support body, is used for treating the feed arrangement that the bar carried, is used for carrying out the fixture of centre gripping to the bar after feed arrangement carries, is used for carrying out the cutting mechanism of cutting to the bar after the centre gripping, is used for carrying out the material returned mechanism that shifts out to the bar after the cutting, is provided with controller and the control panel who is used for controlling the operation of automatic cutout equipment on the support body, feed arrangement, fixture, cutting mechanism, material returned mechanism all set up on the support body, material returned mechanism on be provided with and be used for carrying out the hold-down mechanism of centre gripping to the bar.
The clamping mechanism is arranged between the feeding device and the cutting mechanism, the clamping mechanism comprises a clamping seat fixed on a frame body, a clamping motor providing power for clamping, a clamping block used for clamping a bar, a clamping screw rod used for transmitting power to the clamping, and a push block, the clamping motor is fixed above the clamping seat, an output shaft of the clamping motor is vertically downward, an output shaft of the clamping motor is connected with an input end of the clamping screw rod and is coaxially arranged with the clamping screw rod, the push block is provided with a threaded hole matched with the clamping screw rod and is in threaded fit with the clamping screw rod, the clamping seat is provided with two clamping guide rods which are vertically arranged and are fixedly connected with the clamping motor, the push block is sleeved outside the clamping guide rods and is in sliding guide fit with the clamping guide rods, the clamping block is sleeved outside the clamping guide rods and is in sliding guide fit with the clamping guide rods, the clamping guide rod is sleeved with a clamping spring, one end of the clamping spring is abutted to the clamping seat, the other end of the clamping spring is abutted to the clamping block, the clamping spring pushes the clamping block to deviate from the clamping seat, and the size of a clamping area formed between the clamping block and the clamping seat is adjusted.
The cutting mechanism comprises a cutting power mechanism for providing power for cutting the bar stock and a cutter lifting mechanism for cutting the bar stock;
the cutting power mechanism is arranged on the cutter lifting mechanism and comprises a cutting driving part, a cutting driven part and a blade, the blade is powered by a driving motor, an output shaft of the driving motor is connected with an input end of the cutting driving part, an output end of the cutting driven part is connected with an input end of the blade, the cutting driving part is connected with the cutting driven part through a synchronous belt or a transmission chain, the blade and the cutting driven part are coaxially arranged, and the central axis of the blade is horizontally arranged;
the cutter lifting mechanism comprises a cutting base for placing a cutting power mechanism, a cutter lifting motor for providing power for lifting a cutter of the cutting power mechanism, a cutter lifting screw rod for transmitting the power output by the cutter lifting motor, and a pressing block, the cutting base is arranged on a frame body and comprises a cutter lifting end and a connecting end which are distributed at two ends of the cutting base in the length direction, the connecting end of the cutting base is hinged with the frame body, a core wire of the hinged shaft is parallel to the conveying direction of a bar material, a blade is arranged at the cutter lifting end of the cutting base, the cutter lifting motor is arranged on the frame body and close to the cutter lifting end of the cutting base, an output shaft of the cutter lifting motor is vertically and upwards arranged, an input end of the cutter lifting screw rod is connected with the output shaft of the cutter lifting motor, an output end of the cutter lifting screw rod is movably connected on the frame body and can rotate around the axis of the output shaft, the pressing block is provided with a threaded hole matched with the cutter, the support body is also provided with a cutter lifting guide rod which is close to the cutter lifting motor and is axially parallel to the output shaft of the cutter lifting motor, and the pressing block is sleeved outside the cutter lifting guide rod and forms sliding guide fit with the cutter lifting guide rod.
The frame body is also provided with a chamfering mechanism, the chamfering mechanism comprises a back rake angle mechanism for chamfering the front cut section of the bar stock and a back rake angle mechanism for chamfering the back cut section of the bar stock, the back rake angle mechanism is arranged between the cutting mechanism and the material returning mechanism, the back rake angle mechanism is arranged between the feeding device and the back rake angle mechanism, and the back rake angle mechanism chamfer the cut section of the bar stock in opposite directions;
the chamfering mechanism comprises a chamfering power mechanism for providing power for chamfering the bar stock, a chamfering element for chamfering the bar stock and a chamfering adjusting mechanism for adjusting the chamfering element;
the chamfering power mechanism comprises a chamfering driving part and a chamfering driven part, the chamfering driving part and the chamfering driven part are connected through a synchronous belt or a transmission chain, the chamfering element comprises a rotating shaft, a sleeve ring and a chamfering contact which are coaxially arranged, the rotating shaft comprises a smooth section, a middle section and a limiting section, the chamfering contact comprises a chamfering section and a connecting section, the connecting section of the chamfering contact is sleeved in the limiting section of the rotating shaft, the middle section of the rotating shaft is positioned between the smooth section and the limiting section, an external spline is arranged on the middle section, the chamfering driven part and the sleeve ring are provided with an internal spline matched with the external spline, the chamfering driven part and the sleeve ring are sleeved outside the middle section of the rotating shaft, and the sleeve ring is arranged between the driven part and the chamfering contact;
the chamfering adjusting mechanism comprises an adjusting motor, an adjusting gear and an adjusting rack which are arranged on the frame body, wherein an output shaft of the adjusting motor is connected with the adjusting gear and is coaxially arranged, one end of the adjusting rack in the length direction is connected with the smooth section of the rotating shaft in a sliding manner, the other end of the adjusting rack is connected with the connecting section of the chamfering contact in a sliding manner, the length direction of the adjusting rack is parallel to the central axis of the rotating shaft, and the adjusting rack is meshed with the adjusting gear;
the chamfering surface of the chamfering contact is an arc-shaped concave surface, and slices for chamfering the bar are uniformly arranged around the circumference direction of the arc-shaped concave surface;
the chamfering mechanism comprises a chamfering mechanism, a chamfering driving part, a chamfering driven part, a driving motor, a chamfering driving part, a driving motor and a pressing wheel, wherein the chamfering mechanism is used for providing power for the chamfering power mechanism;
the back rake angle mechanism still including the elevating system who is used for adjusting chamfer component height, elevating system include elevator motor, lift lead screw, set up the lifting support on the chamfer component, elevator motor's the vertical drive end that upwards just links to each other with the lift lead screw that makes progress of output shaft, the driven end of lift lead screw be connected with support body fixed connection's backup pad and the lift lead screw can rotate around self axis, lifting support set up between elevator motor and backup pad, and be provided with on the lifting support with lift lead screw assorted screw hole and constitute screw-thread fit with the lift lead screw, elevator motor and backup pad between be provided with the lift guide bar parallel with the lift lead screw, the lifting support cup joints outside the lift guide bar and constitutes sliding guide cooperation with the lift guide bar.
The chamfering mechanism and the cutting mechanism are provided with a clamping mechanism between, the clamping mechanism comprises a clamping transmission mechanism for providing power for clamping the bar stock and a clamping element for clamping the bar stock, the clamping transmission mechanism comprises a clamping motor, a clamping master gear and a clamping slave gear, the clamping element comprises a clamping block, a clamping disc and a clamping seat, the clamping motor and the clamping disc are both arranged on the clamping seat, an output shaft of the clamping motor is connected with the clamping master gear and coaxially arranged, the clamping slave gear is meshed with the clamping master gear and is parallel to the central axis of the clamping master gear, the clamping slave gear and the clamping disc are coaxially arranged, concentric circles are arranged at the centers of the clamping slave gear and the clamping disc and are clamping areas of the clamping mechanism, and the clamping disc is provided with a plurality of guide grooves which are uniformly distributed at intervals along the circumferential direction of the clamping disc and are used for placing the clamping block and radially extending along the clamping disc The clamping slave gear is disc-shaped, the number of the clamping slave gear is equal to that of the guide grooves, and the guide grooves are uniformly distributed at intervals along the circumferential direction of the clamping slave gear, are arc-shaped, and are provided with guide blocks which form guide fit with the guide grooves.
The material returning mechanism and the clamping mechanism are provided with a material moving mechanism, the material moving mechanism comprises a moving motor, a first belt wheel, a second belt wheel, a third belt wheel and a moving screw rod, the central axes of the first belt wheel, the second belt wheel and the third belt wheel are parallel to each other and are perpendicular to the conveying direction of the bar, the moving screw rod comprises a first moving screw rod and a second moving screw rod, the output shaft of the moving motor is horizontally arranged and is connected with the first belt wheel, the second belt wheel is sleeved on the driving end of the first moving screw rod and is connected with the first belt wheel and the second belt wheel through a synchronous belt, the driven end of the first moving screw rod is movably arranged on the frame body and can rotate around the axial direction of the first moving screw rod, the axial direction of the first moving screw rod is perpendicular to the conveying direction of the bar, the third belt wheel is sleeved on the driving end of the second moving screw rod and is, the driven end of the second conveying screw rod is movably mounted on the frame body and can rotate around the axial direction of the second conveying screw rod, the axial direction of the second conveying screw rod is parallel to the axial direction of the first conveying screw rod, a threaded hole matched with the first conveying screw rod is formed in the clamping seat and is in threaded fit with the first conveying screw rod, a threaded hole matched with the second conveying screw rod is formed in the material returning mechanism and is in threaded fit with the second conveying screw rod, a conveying guide rod parallel to the conveying screw rod is arranged on the frame body, and the material returning mechanism and the clamping seat are sleeved outside the conveying guide rod and are in sliding guide fit with the conveying guide rod.
The material returning mechanism comprises a translation mechanism for moving the bar stock and a pressing mechanism for pressing the bar stock, the pressing mechanism is arranged on the translation mechanism, the translation mechanism comprises a translation motor for providing power for translation of the pressing mechanism, a translation main belt wheel for transmitting the power provided by the translation motor, a translation secondary belt wheel, a translation lead screw and a translation frame, the length direction of the translation frame is parallel to the central axis direction of the bar stock, end lugs are arranged at two ends of the translation frame, an output shaft of the translation motor is connected with and coaxially arranged with the translation main belt wheel, the central axes of the output shaft of the translation motor and the translation main belt wheel are parallel to the central axis direction of the bar stock, the translation secondary belt wheel is parallel to the central axis of the translation main belt wheel and the translation secondary belt wheel is connected with the translation main belt wheel through a synchronous belt, the translation slave belt wheel is sleeved at the driving end of the translation screw rod, the driven end of the translation screw rod penetrates through one end lug of the translation frame to be connected with the other end lug, the pressing mechanism is provided with a sliding sleeve, a threaded hole matched with the translation screw rod is formed in the sliding sleeve, the sliding sleeve is in threaded fit with the translation screw rod, a translation guide rod parallel to the translation screw rod is arranged between the two end lugs of the translation frame, and the sliding sleeve is sleeved outside the translation guide rod and is in sliding guide fit with the translation guide rod;
the pressing mechanism comprises a pressing power mechanism for pressing the bar to provide power and a pressing element for pressing the bar, the pressing power mechanism comprises a pressing motor, a pressing main belt wheel, a pressing secondary belt wheel, a pressing screw rod and a pressing guide rod, the pressing element comprises a shell, an upper pressing plate, a lower pressing plate, a pressing block and a pressing spring, an output shaft of the pressing motor is vertically arranged and connected with the pressing main belt wheel, the central axis of the pressing secondary belt wheel is parallel to the central axis of the pressing main belt wheel, the pressing secondary belt wheel and the pressing main belt wheel are connected through a synchronous belt, the pressing screw rod comprises a torsion transmission section arranged at the center of the pressing motor and screwing sections arranged at two ends of the torsion transmission section, threads are arranged on the screwing sections at the two ends of the torsion transmission section, the screwing directions of the threads of the two screwing sections are opposite, the pressing secondary belt wheel is sleeved on the pressed torsion transmission section and can transmit rotating force to the pressing, the driven end of the pressing screw rod is movably connected with the shell, the upper pressing plate and the lower pressing plate are both vertically provided with connecting lugs, each connecting lug comprises an upper connecting lug which is arranged on the upper plate surface of the upper pressing plate and vertically extends upwards, and a lower connecting lug which is arranged on the lower plate surface of the lower pressing plate and vertically extends downwards, the pressing block comprises an upper pressing block and a lower pressing block, the upper pressing block is sleeved outside the upper connecting lug, the lower pressing block is sleeved outside the lower connecting lug, the upper pressing block and the lower pressing block are both provided with threaded holes matched with the screwing sections of the pressing screw rod, the upper pressing block and one screwing section form threaded fit, the lower pressing block and the other screwing section form threaded fit, a compression spring is sleeved outside the upper connecting lug and is positioned between the upper compression block and the upper pressure plate, the lower connecting convex block is also sleeved with a pressing spring and is positioned between the lower pressing block and the lower pressing plate;
the support body on be provided with the stripper that is used for unloading, articulate in the support body and be located the piece of unloading of stripper both sides, the piece of unloading parallels with bar central axis with the articulated axle heart line of department of support body, the piece of unloading be the trigger face when turning over a state for the arc concave surface, the bottom of the piece of unloading still is connected with and is used for making the piece of unloading keep vertical balancing weight under the condition that does not receive external acting force to still be provided with on the support body and can restrict the spacing arch of the piece of unloading towards material returned mechanism direction upset with the balancing weight matching.
Compared with the prior art, the automatic feeding device has the advantages that the automatic feeding device can complete automatic feeding of bars and can be suitable for bars with different sizes, when the bars are cut, the automatic clamping and clamping of the bars can be completed by the automatic feeding device, the stability of the bars during cutting is guaranteed, meanwhile, chamfering and deburring treatment can be performed on the cut section of the cut bars by the automatic feeding device, the processing precision of the bars is guaranteed, and after chamfering is completed, automatic material moving and discharging operations can be performed on the bars by the automatic feeding device, so that the working efficiency is improved.
Drawings
FIG. 1 is a schematic view of the feed back rake angle of the present invention.
FIG. 2 is a schematic diagram of the cutting state of the present invention.
Fig. 3 is a schematic diagram of the state of the mobile chamfering angle of the present invention.
FIG. 4 is a schematic view of a stop block of the present invention.
Fig. 5 is a schematic diagram of the material moving and returning state of the present invention.
Fig. 6 is a schematic view of the complete unloading state of the present invention.
Fig. 7 is a schematic view of the frame structure of the present invention.
Fig. 8 is a schematic structural diagram of the present invention.
FIG. 9 is a schematic view of a feeding device of the present invention.
FIG. 10 is a schematic view of a feeding device of the present invention.
Fig. 11 is a schematic view of the feeding transmission mechanism and the feeding bracket of the present invention.
Fig. 12 is a schematic view of the feeding adjustment mechanism and the feeding support of the present invention.
FIG. 13 is a schematic view of a clamping mechanism and a chamfering mechanism according to the present invention.
Fig. 14 is a schematic view of the clamping mechanism and the feeding guide mechanism of the present invention.
FIG. 15 is a schematic view of a clamping mechanism of the present invention.
Fig. 16 is a schematic view of the feed guide mechanism of the present invention.
FIG. 17 is a schematic view of a clamping block structure according to the present invention.
FIG. 18 is a schematic view of the cutting mechanism of the present invention.
FIG. 19 is a schematic view of the cutting mechanism of the present invention.
Fig. 20 is a schematic view of the cutting mechanism and the back-clearance mechanism of the present invention.
FIG. 21 is a schematic view of a chamfer adjustment mechanism of the present invention.
FIG. 22 is a schematic view of a chamfer element of the present invention.
FIG. 23 is a schematic view of a chamfer element of the present invention.
FIG. 24 is a schematic view of a clamping mechanism and a material moving and returning mechanism according to the present invention.
FIG. 25 is a schematic view of the clamping mechanism of the present invention.
FIG. 26 is a schematic view of the clamping mechanism of the present invention.
FIG. 27 is a schematic view of the clamping mechanism of the present invention.
Fig. 28 is a schematic view of a clamping element of the present invention.
Fig. 29 is a schematic view of the clamping block structure of the present invention.
Fig. 30 is a schematic view of the elevating mechanism of the present invention.
Fig. 31 is a schematic view of the elevating mechanism of the present invention.
FIG. 32 is a schematic view of the synchronous guiding mechanism of the present invention.
Fig. 33 is a schematic view of the material moving and returning mechanism of the present invention.
FIG. 34 is a schematic view of a translation mechanism of the present invention.
Fig. 35 is a schematic view of the pressing mechanism of the present invention.
Fig. 36 is a schematic view of the pressing mechanism of the present invention.
FIG. 37 is a schematic view of the structure of the pressure plate of the present invention.
Detailed Description
As shown in fig. 1 to 6, the automatic cutting device for rod-shaped building materials includes a frame body 10, a feeding device 20 for conveying a rod to be processed, a clamping mechanism 40 for clamping the rod conveyed by the feeding device 20, a cutting mechanism 50 for cutting the clamped rod, and a material returning mechanism 80 for moving out the cut rod, wherein the frame body 10 is provided with a controller and a control panel for controlling the automatic cutting device to operate, the feeding device 20, the clamping mechanism 40, the cutting mechanism 50, and the material returning mechanism 80 are all arranged on the frame body 10, and the material returning mechanism 80 is provided with a pressing mechanism 820.
The frame body 10 is provided with a feeding area 110 for mounting the feeding device 20, a clamping area 120 for mounting the clamping mechanism 40, a cutting area 130 for mounting the cutting mechanism 50, and a material moving and returning area 140 for mounting the returning mechanism 80, and the bar stock sequentially passes through the feeding area 110, the clamping area 120, the cutting area 130, and the material moving and returning area 140 on the frame body 10.
As shown in fig. 9-12, the feeding device 20 includes a feeding support 220 and a feeding transmission mechanism 210 for providing a conveying power to the bar, the feeding transmission mechanism 210 is disposed on the feeding support 220, the feeding support 220 includes a feeding section and a conveying section, and the bar enters through the feeding section of the feeding support 220 and is then output through the conveying section under the action of the feeding transmission mechanism 210.
More specifically, the feeding bracket 220 includes an upper feeding bracket and a lower feeding bracket, the upper feeding bracket and the lower feeding bracket are located between the feeding sections of the feeding bracket 220 to form a feeding area, and the upper feeding bracket and the lower feeding bracket are located between the conveying sections of the feeding bracket 220 to form a conveying area.
More perfect, because the processing bar stock of this equipment is the shaft-like, in order to make the comparatively smooth feeding section through on the feeding support 220 of shaft-like processing bar stock get into the conveying section, the opening size in pan feeding region gradually narrows down along the direction of delivery of bar stock.
The feeding transmission mechanism 210 comprises a feeding motor 211 for providing power, a feeding driving member 212, a feeding driven member 213 and rollers 214, wherein the rollers 214 are disposed at two ends of a length direction of a feeding bracket 220 and can rotate around their axes, and the central axes of the rollers 214 are perpendicular to a conveying direction of the bar, more specifically, the rollers 214 capable of rotating around their axes are movably mounted at a starting end of a feeding section of the feeding bracket 220 and a tail end of the conveying section of the feeding bracket 220, the rollers 214 capable of rotating around their axes are further disposed at a connection position of the feeding section and the conveying section of the feeding bracket 220, a power output end of the feeding motor 211 is connected with the feeding driving member 212, a power output end of the feeding driven member 213 is connected with an input end of one of the rollers 214, the feeding driven member 213 is disposed coaxially with the rollers 214, and the feeding driving member 212, the driven member 213, and the rollers 214, The feeding driven parts 213 are connected through a synchronous belt or a transmission chain, the upper feeding support and the lower feeding support are respectively wound with a roller 214 passing through the starting end part of the feeding section of the feeding support 220, the roller 214 positioned at the joint of the feeding section and the conveying section on the feeding support 220 and a roller 214 at the tail end part of the conveying section of the feeding support 220, and form a conveying belt 215 of a closed loop, the conveying belt 215 is contacted with the side wall of the roller 214 and generates contact friction force, when a bar is conveyed, the feeding motor 211 is started, the power output end of the feeding motor 211 drives the feeding driving part 212 to rotate and drives the feeding driven parts 213 to rotate, the rotation of the feeding driven parts 213 drives the synchronous rotation of the roller 214, the rotation of the roller 214 causes the conveying belt 215 contacted with the side wall of the roller 214 to move under the action of the contact friction force, the bar enters the conveying section through the feeding section, and the bar generates sliding, the sliding friction force causes the bar to be output through the conveying section.
More optimized, the conveying surface of the conveying belt 215 is provided with the convex ribs, so that the friction force between the conveying surfaces of the bar and the conveying belt 215 can be increased in the bar conveying process, the slipping phenomenon in the bar conveying process is avoided, and the bar conveying is facilitated.
In order to further improve the conveying stability of the conveying belt 215, the upper feeding support and the lower feeding support are both movably provided with rollers 214 between the joint of the feeding section and the conveying section and the tail end of the conveying section of the feeding support 220.
More perfect, last feeding bracket, lower feeding bracket between be provided with and be vertical direction and arrange and carry out the guard plate 230 that wraps up to feeding section, the transport section of feeding bracket 220, can avoid the bar because of putting the incident that can not normally carry and cause because of mistake or other external factors lead to through addding guard plate 230.
The automatic cutting equipment provided by the invention is used for cutting mechanisms for bars with different sizes, and is suitable for conveying the bars with different sizes, so that a gap between a conveying belt 215 arranged on an upper feeding support and the conveying belt 215 arranged on a lower feeding support needs to meet the requirements of conveying the bars with different diameters.
As shown in fig. 12, the feeding adjustment mechanism 240 includes a floating mechanism and a pressure regulating mechanism connected to the floating mechanism, the floating mechanism is configured to adjust a space between the upper feeding support and the lower feeding support to adapt to the transportation of the bars with different sizes, and the pressure regulating mechanism is configured to push the upper feeding support to move towards the lower feeding support and adjust the pressure applied to the upper feeding support according to the movement of the upper feeding support.
More perfectly, the floating mechanism comprises two swing rods which are hinged at the upper end part of the upper feeding support and are parallel to each other and a support rod 242 which is hinged between the two swing rods, the hinged end parts of the support rod 242 and the swing rods are also hinged on the frame body 10, the directions of the mandrels at the hinged parts of the swing rods and the upper feeding support and the frame body 10 and the directions of the mandrels at the hinged parts of the support rod 242 and the swing rods are all vertical to the conveying direction of the bar stock, and a four-bar mechanism is formed among the two swing rods, the support rod 242 and the upper feeding; the pressure regulating mechanism is arranged between the swing rod adjacent to the conveying section of the feeding bracket 220 and the upper feeding bracket.
More specifically, the pressure regulating mechanism includes a retractable adjusting rod 243, and an adjusting spring 241 sleeved outside the adjusting rod 243, wherein one end of the adjusting rod 243 is hinged to the upper feeding bracket, the other end of the adjusting rod 243 is hinged to the swing rod, the direction of the mandrel at the hinged position of the adjusting rod 243 and the upper feeding bracket is perpendicular to the conveying direction of the bar, when the bar with a larger diameter is conveyed, the adjusting rod 243 is in a retraction trend after the bar enters through the feeding section, the adjusting spring 241 is in a compression state, because the frame body 10 is fixed, the acting force applied by the wall of the bar to the upper feeding bracket causes the gap between the upper feeding bracket and the lower feeding bracket to be increased, the bar with a larger diameter can enter into the conveying section and be output through the conveying section, when the bar with a smaller diameter is conveyed, the adjusting spring 241 in the compression state is in an expansion trend and generates an expansion elastic force, and, because the support body 10 is fixed, the adjusting spring 241 pushes the upper feeding support to move close to the lower feeding support, the gap between the upper feeding support and the lower feeding support is reduced, and bars with smaller diameters can enter the conveying section and are output through the conveying section.
When the bar enters the conveying area through the feeding area, the bar pushes the upper feeding support to move away from the lower feeding support, the adjusting spring 241 is in a compression state at the moment, the elastic force of the adjusting spring 241 pushes the upper feeding support to move relative to the lower feeding support, so that the bar is clamped and conveyed, and the compression amount of the adjusting spring 241 is different according to bars with different diameters so as to clamp the bar.
The adjusting rod 243 is a telescopic rod, the adjusting rod 243 comprises a loop bar and a slide bar, the loop bar is of a cylindrical barrel structure with an open end and a closed other end, the closed end of the loop bar is hinged to the upper feeding support, the core wire of the hinged shaft is perpendicular to the conveying direction of the bar, one end of the slide bar is located in the inner cavity of the loop bar, the two ends of the slide bar are in sliding fit, the other end of the slide bar is hinged to the swing rod, and the core wire of the hinged shaft is.
More specifically, the two floating mechanisms are respectively arranged on one side of the upper feeding support in the width direction, the two floating mechanisms are connected through a connecting rod 244 with the axis direction perpendicular to the bar conveying direction, one end of the connecting rod 244 is connected to the hinged position of the swing rod and the support body 10 in one floating mechanism, and the other end of the connecting rod 244 is connected to the hinged position of the swing rod and the support body 10 in the other floating mechanism.
In the process of conveying the bar stock through the feeding device 20, the bar stock often deviates, so that the bar stock cannot accurately enter the clamping mechanism 40, and in order to realize the directional accurate conveying of the bar stock, the feeding guide mechanism 250 arranged at the discharging end of the feeding device 20 is further designed.
The feeding guide mechanism 250 comprises a guide housing 251, clamping plates 252 and a guide spring 253, wherein the guide housing 251 is arranged at the discharge end of the feeding device 20, a guide groove and a limit groove which are communicated with each other are arranged in the guide housing 251, the guide groove is close to the discharge end of the feeding device 20, the distance between the side walls of the guide groove is gradually narrowed along the advancing direction of the bar, the limit groove is a rectangular groove, two clamping plates 252 which are parallel to each other are arranged between the side walls of the limit groove in the length direction, the clamping plates 252 are parallel to the guiding direction of the bar, the guide spring 253 is arranged between the clamping plates 252 and the corresponding side walls of the limit groove in the length direction, one end of the guide spring 253 is connected with the side walls of the limit groove in the length direction, the other end of the guide spring 253 is connected with the clamping plates 252, the two clamping plates 252 can move close to each other, the front end of the bar stock is contacted with the side wall of the guide groove and moves relatively, then the front end of the bar stock enables the two clamping plates 252 to move away from each other and enter between the two clamping plates 252, when the two clamping plates 252 are away from each other, the guide spring 253 is in a compression state and generates elastic force enabling the two clamping plates 252 to be close to each other, therefore, the clamping plates 252 can limit the swing of the bar stock in the process that the bar stock moves along the guide direction, and the conveying process of the bar stock is more stable.
More specifically, the distance between the end portions of the two clamping plates 252 and the discharge end close to the feeding device 20 gradually narrows along the advancing direction of the bar, which is beneficial for the bar to smoothly enter between the two clamping plates 252.
As shown in fig. 2, 15 and 17, the clamping mechanism 40 is disposed between the feeding device 20 and the cutting mechanism 50, the clamping mechanism 40 includes a clamping seat 440 fixed on the frame 10, a clamping motor 410 for providing power for clamping, a clamping block 430 for clamping the bar, a clamping screw 450 for transmitting power to the clamping, and a pushing block 420, the clamping motor 410 is fixed above the clamping seat 440, an output shaft of the clamping motor 410 is vertically downward, an output shaft of the clamping motor 410 is connected with an input end of the clamping screw 450 and is disposed coaxially with the clamping screw 450, the pushing block 420 is provided with a threaded hole matched with the clamping screw 450 and forms a threaded fit with the clamping screw 450, the clamping seat 440 is provided with clamping guide rods 460 disposed in a vertical direction and fixedly connected with the clamping motor 410, preferably, two clamping guide rods 460 are provided, the pushing block 420 is sleeved outside the clamping guide rod 460 and forms sliding guide fit with the clamping guide rod 460, the rotation of the output shaft of the clamping motor 410 can drive the clamping screw rod 450 to rotate around the axis of the clamping screw rod, the rotation of the clamping screw rod 450 can drive the pushing block 420 to move along the guide direction of the clamping guide rod 460, the clamping block 430 is sleeved outside the clamping guide rod 460 and forms sliding guide fit with the clamping guide rod 460, the clamping guide rod 460 is further sleeved with a clamping spring 470, one end of the clamping spring abuts against the clamping seat 440, the other end of the clamping spring abuts against the clamping block 430, the clamping spring 470 pushes the clamping block 430 to deviate from the clamping seat 440 and adjusts the size of a clamping area formed between the clamping block 430 and the clamping seat 440, the clamping area can receive the bar discharged from the feeding device 20 and can adjust the size according to the size of the bar, when the bar is cut, the clamping motor 410 is turned on, the output shaft of the clamping motor 410 drives the clamping screw rod 450 to synchronously rotate, the rotation of the clamping screw rod 450 drives the push block 420 to move downwards along the guiding direction of the clamping guide rod 460, the push block 420 butts against the clamping block 430 in the downward movement process and enables the clamping block 430 to move downwards, the clamping spring 470 is in a compressed state in the downward movement process of the clamping block 430, the clamping area is gradually reduced and the clamping of the bar is completed, after the clamping is completed, the clamping motor 410 is started, the clamping screw rod 450 rotates reversely and drives the push block 420 to move upwards along the guiding direction of the clamping guide rod 460, the clamping spring 470 releases elastic potential energy and enables the clamping block 430 to move upwards, and the next bar is convenient to be clamped.
More perfect, the activity is provided with the grip block that extends towards grip block 430 direction on the grip block 440, links to each other through the elastic component between grip block and the grip block 440, and the elastic component produces vertical ascending elasticity to the grip block, and when carrying out the centre gripping to the bar, grip block 430 and grip block are close to each other, make the laminating between bar and grip block 430, the grip block inseparabler, have increased the steadiness to the bar centre gripping.
More optimally, a limiting hole is formed in the center of the clamping block 430, a compression spring 480 is arranged between the clamping block 430 and the pushing block 420, the compression spring 480 is sleeved in the limiting hole, the pushing block 420 butts against the compression spring 480 in the downward movement process and enables the compression spring 480 to push the clamping block 430 to move downward, the compression spring 480 can avoid contact and noise generation between the pushing block 420 and the clamping block 430, collision between the pushing block 420 and the clamping block 430 and damage to the clamping block 430 can be avoided, in addition, a certain floating space can exist in the clamping state of the clamping block 430 by additionally arranging the compression spring 480, and vibration generated in the cutting process of the bar can be eliminated.
After being conveyed by the feeding device 20, the bar passes through the clamping mechanism 40, then the front end of the bar enters the pressing mechanism 820 on the material returning mechanism 80 through the cutting mechanism 50, and the bar is clamped by the clamping mechanism 40 and pressed by the pressing mechanism 820 to be cut, so that the stability of the bar in the cutting process is ensured, and the cutting precision of the bar is improved.
As shown in fig. 18 to 19, the cutting mechanism 50 includes a cutting power mechanism for providing power to cut the bar stock, and a cutter lifting mechanism for cutting the bar stock, the cutting power mechanism is disposed on the cutter lifting mechanism, the cutting power mechanism includes a cutting driving member 510, a cutting driven member 520, and a blade 530, the blade 530 is powered by a driving motor, an output shaft of the driving motor is connected to an input end of the cutting driving member 510, an output end of the cutting driven member 520 is connected to an input end of the blade 530, the cutting driving member 510 is connected to the cutting driven member 520 through a synchronous belt or a transmission chain, the blade 530 and the cutting driven member 520 are coaxially disposed, a central axis of the blade 530 is horizontally disposed, rotation of the output shaft of the driving motor drives the cutting driving member 510 to rotate, rotation of the cutting driving member 510 drives the cutting driven member 520 to synchronously rotate, the rotation of the cutting follower 520 causes the blade 530 to rotate about its axis.
The cutter lifting mechanism comprises a cutting base 590 used for placing a cutting power mechanism, a cutter lifting motor 540 used for providing power for the cutter lifting of the cutting power mechanism, a cutter lifting screw rod 550 used for transmitting the power output by the cutter lifting motor 540, and a pressing block 560, wherein the cutting base 590 is arranged on the frame body 10, the cutting base 590 comprises cutter lifting ends and connecting ends which are distributed at two ends of the cutting base 590 in the length direction, the connecting end of the cutting base 590 is hinged with the frame body 10, the core line of the hinged shaft is parallel to the conveying direction of a bar stock, the blade 530 is arranged at the cutter lifting end of the cutting base 590, the cutter lifting motor 540 is arranged on the frame body 10 and close to the cutter lifting end of the cutting base 590, the output shaft of the cutter lifting screw rod 550 is connected with the output shaft of the cutter lifting motor 540, the output end of the cutter lifting screw rod 550 is movably connected to the frame body 10 and can rotate around the axis thereof, the tool lifting mechanism further comprises a tool lifting rod and a tool lifting spring 580 for lifting the cutting power mechanism, the tool lifting rod is arranged at the tool lifting end of the cutting base 590, one end of the tool lifting rod is hinged with the tool lifting end of the cutting base 590, the tool lifting rod is arranged at the tool lifting end of the cutting base 590, and the tool lifting rod is, The other end is hinged with the frame body 10, the core line of the hinged shaft is parallel to the conveying direction of the bar stock, the cutter lifting spring 580 is sleeved outside the cutter lifting rod, the elastic force of the cutter lifting spring 580 can enable the cutter lifting end to have a lifting trend, when the bar stock is cut, the driving motor and the cutter lifting motor 540 are simultaneously started, the rotation of the output shaft of the driving motor drives the cutting driving part 510 to rotate, the rotation of the cutting driving part 510 drives the cutting driven part 520 to synchronously rotate, the rotation of the cutting driven part 520 drives the cutter blade 530 to rotate around the axis of the cutter blade, the output shaft of the cutter lifting motor 540 drives the cutter lifting screw rod 550 to rotate, the rotation of the cutter lifting screw rod 550 drives the pressing block 560 to move upwards along the guiding direction of the cutter lifting guide rod 570, when the pressing block 560 moves upwards, the elastic force of the cutter lifting spring 580 enables the cutter lifting end of the cutting base 590 to slowly lift, and in the process of lifting the, the blade 530 arranged at the knife lifting end of the cutting base 590 moves up slowly to complete the cutting of the bar, the cut bar moves away from the blade 530 through the material returning mechanism 80, the knife lifting motor 540 is turned on reversely to turn the knife lifting screw rod 550 back and enable the pressing block 560 to move down along the guiding direction of the knife lifting guide rod 570, the knife lifting mechanism is reset, when the subsequent bar enters through the feeding device 20 and passes through the clamping mechanism 40, the front end of the bar enters into the pressing mechanism 820 on the material returning mechanism 80 through the cutting mechanism 50, the knife lifting motor 540 is turned on again to enable the knife lifting screw rod 550 to rotate and enable the pressing block 560 to move up along the guiding direction of the knife lifting guide rod 570, the blade 530 moves up slowly, and the cutting of the bar is completed repeatedly.
More specifically, the compressing block 560 is arranged in an L-shaped structure, the horizontal section of the compressing block 560 is a connecting section, the vertical section of the compressing block 560 is a pressing section, the pressing section abuts against the cutter lifting end of the cutting base 590 to press the cutter lifting end conveniently, and the connecting section is connected with the cutter lifting guide rod 570 and the cutter lifting screw rod 550 respectively.
The bar stock can form uneven burrs on the cutting section after being cut by the cutting mechanism 50, subsequent installation, welding and the like of the bar stock can be influenced if the burrs are not processed, the burrs risk the hands of operators to be punctured, and in order to improve the automation degree of the invention and solve the problem of the burrs, the invention is provided with the chamfering mechanism 30 arranged on the frame body 10.
As shown in fig. 20-23 and fig. 30-31, the chamfering mechanism 30 includes a back rake mechanism for chamfering the front cut section of the bar stock and a back rake mechanism for chamfering the back cut section of the bar stock, the back rake mechanism is disposed between the cutting mechanism 50 and the material returning mechanism 80, the back rake mechanism is disposed between the feeding device 20 and the back rake mechanism, and the back rake mechanism chamfer the cut section of the bar stock in opposite directions, the bar stock enters through the feeding device 20 and passes through the clamping mechanism 40, after being clamped by the clamping mechanism 40, the back rake mechanism chamfers the front end of the bar stock, after the back rake is completed, the front end of the bar stock enters into the pressing mechanism 820 on the material returning mechanism 80, the bar stock is cut under the clamping of the clamping mechanism 40 and the pressing of the pressing mechanism 820, the cut bar stock moves to the back rake mechanism after being moved by the material returning mechanism 80, and the rear end of the bar stock is subjected to a back-clearance angle finishing by the back-clearance angle mechanism, and after the back-clearance angle is finished, the bar stock is moved to the material moving and returning area 140 on the frame body 10 after being moved by the material returning mechanism 80, and the material returning is finished.
Chamfer angle mechanism, chamfer angle mechanism all including the mechanism of grinding the angle, the mechanism of grinding the angle including being used for carrying out the chamfer to the bar and providing the chamfer power unit of power, be used for carrying out the chamfer component 314 of chamfer to the bar, be used for carrying out the chamfer adjustment mechanism who adjusts chamfer component 314, when carrying out the chamfer to the bar, chamfer power unit drives chamfer component 314 and rotates, chamfer adjustment mechanism can adjust the distance between cutting section/back cutting section before chamfer component and the bar, be convenient for accomplish the chamfer operation to the bar.
The chamfering power mechanism comprises a chamfering driving part 312a and a chamfering driven part 312b, the chamfering driving part 312a and the chamfering driven part 312b are connected through a synchronous belt or a transmission chain, the chamfering element 314 comprises a rotating shaft 314a, a lantern ring 314b and a chamfering contact 314c which are coaxially arranged, the rotating shaft 314a comprises a smooth section, a middle section and a limiting section, the chamfering contact 314c comprises a chamfering section and a connecting section, the connecting section of the chamfering contact 314c is sleeved in the limiting section of the rotating shaft 314a, the middle section of the rotating shaft 314a is positioned between the smooth section and the limiting section, the middle section is provided with an external spline, the chamfering driven part 312b and the lantern ring 314b are provided with an internal spline matched with the external spline and the chamfering driven part 312b, the lantern ring 314b is sleeved outside the middle section of the rotating shaft 314a, and the lantern ring 314b is positioned between the driven part 312b and the chamfering contact 314c, the rotation of chamfer driving piece 312a drives chamfer follower 312b to rotate, and chamfer follower 312b rotates and drives pivot 314a to rotate around self axis, and the rotation of pivot 314a drives chamfer contact 314c to rotate, and when pivot 314a took place to remove along its central axis direction, through setting up in the external splines of pivot 314a and setting up in the cooperation of the internal splines of chamfer follower 312b, realized that chamfer follower 312b continues to the pivot 314a transmission revolving force.
The chamfer angle adjusting mechanism comprises an adjusting motor 313a, an adjusting gear 313b and an adjusting rack 313c which are arranged on the frame body 10, the output shaft of the adjusting motor 313a is connected with the adjusting gear 313b and is coaxially arranged, one end of the length direction of the adjusting rack 313c is connected with the smooth section of the rotating shaft 314a in a sliding way, the other end of the length direction of the adjusting rack 313c is connected with the connecting section of the chamfer contact 314c in a sliding way, the length direction of the adjusting rack 313c is parallel to the central axis of the rotating shaft 314a, and the adjusting rack 313c is meshed with the adjusting gear 313b, the rotation of the output shaft of the adjusting motor 313a drives the adjusting gear 313b to synchronously rotate, the adjusting gear 313b rotates to drive the adjusting rack 313c to move, the adjusting rack 313c can drive the chamfering contact 314c to move along the central axis direction of the rotating shaft 314a, the rotating chamfer contact 314c enables a chamfering operation on the end of the bar as the chamfer contact 314c approaches and contacts the end of the bar.
More specifically, the chamfer surface of the chamfer contact 314c is an arc-shaped concave surface, and slices for chamfering the bar are uniformly arranged around the circumferential direction of the arc-shaped concave surface.
The chamfering mechanism further comprises a chamfering motor 311 for providing power for the chamfering power mechanism, an output shaft of the chamfering motor 311 is connected with a chamfering driving piece 312a of the chamfering power mechanism in the chamfering mechanism, the chamfering driving piece 312a in the chamfering mechanism is connected with an output shaft of the driving motor, preferably, a pressing wheel 321 for tensioning a synchronous belt or a transmission chain between the chamfering driving piece 312a and the chamfering driven piece 312b in the chamfering mechanism is arranged between the chamfering driving piece 312a and the chamfering driven piece 312b in the chamfering mechanism, the pressing wheel 321 can avoid the phenomenon that the chamfering driving piece 312a drives the chamfering driven piece 312b to slide in the rotating process, and smooth chamfering is guaranteed.
The chamfering mechanism further comprises a lifting mechanism 315 for adjusting the height of the chamfering element 314, the chamfering mechanism is arranged between the cutting mechanism 50 and the material returning mechanism 80, when the chamfering is completed, the bar needs to be moved by the material returning mechanism 80, the chamfering element 314 on the chamfering mechanism blocks the material returning mechanism 80 from moving the bar, and therefore the lifting mechanism 315 is additionally arranged to overcome the obstacle of the material returning mechanism 80 in the bar moving process.
The lifting mechanism 315 comprises a lifting motor 315a, a lifting screw 315b and a lifting support 315d arranged on the chamfering component 314, wherein an output shaft of the lifting motor 315a is vertically upward and connected with a driving end of the lifting screw 315b, a driven end of the lifting screw 315b is connected with a support plate fixedly connected with the frame body 10, the lifting screw 315b can rotate around the axis of the lifting motor 315b, the lifting support 315d is arranged between the lifting motor 315a and the support plate, the lifting support 315d is provided with a threaded hole matched with the lifting screw 315b and forms threaded fit with the lifting screw 315b, preferably, a lifting guide rod 315c parallel to the lifting screw 315b is arranged between the lifting motor 315a and the support plate, the lifting support 315d is sleeved outside the lifting guide rod 315c and forms sliding guide fit with the lifting guide rod 315c, and the rotation of the output shaft of the lifting motor 315a can drive the lifting screw 315b to rotate around the axis of the lifting screw 315b, the rotation of the lifting screw 315b can drive the lifting bracket 315d to move along the guiding direction of the lifting guiding rod 315c, when chamfering is performed on the front cut section of the bar, the lifting motor 315a is turned on, the rotation of the output shaft of the lifting motor 315a can drive the lifting screw 315b to rotate around the axis of the lifting screw, the rotation of the lifting screw 315b can drive the lifting bracket 315d to move upwards along the guiding direction of the lifting guiding rod 315c, the chamfering element 314 arranged on the lifting bracket 315d moves upwards, when the cutter on the chamfering contact 314c contacts with the front cut section of the bar, the lifting motor 315a is turned off, when the chamfering is completed, the lifting motor 315a is turned on, the rotation of the lifting screw 315b drives the lifting bracket 315d to move downwards along the guiding direction of the lifting guiding rod 315c, the chamfering element 314 arranged on the lifting bracket 315d moves downwards, and after the chamfering is completed, the bar stock is moved by the material returning mechanism 80.
In the actual processing process, due to the high-speed friction between the chamfering mechanism and the cut section of the bar stock, large vibration can be generated and can cause the bar stock to jump, so that burrs on the cut section of the bar stock can be removed incompletely, and the processing precision of the bar stock is influenced.
As shown in fig. 24-29, the clamping mechanism 60 includes a clamping transmission mechanism 610 for providing power to clamp the bar stock, and a clamping element 620 for clamping the bar stock, the clamping transmission mechanism 610 includes a clamping motor 611, a clamping main gear 612, and a clamping slave gear 613, the clamping element 620 includes a clamping block 621, a clamping disk 622, and a clamping seat 623, the clamping motor 611 and the clamping disk 622 are disposed on the clamping seat 623, an output shaft of the clamping motor 611 is connected with and coaxially disposed with the clamping main gear 612, the clamping slave gear 613 is engaged with the clamping main gear 612 and the clamping slave gear 613 is parallel to a central axis of the clamping main gear 612, the clamping slave gear 613 and the clamping disk 622 are coaxially disposed and provided with concentric circles at centers of the clamping slave gear 613 and the clamping disk 622, the concentric circles are clamping areas of the clamping mechanism 60, and the clamping disk 622 is provided with a plurality of clamping blocks uniformly spaced along a circumferential direction thereof for placing the clamping blocks thereon 621, and a guide groove extending along the radial direction of the clamping disk 622, preferably, three guide grooves are provided, the clamping block 621 is provided in the guide groove and forms a sliding guide fit with the guide groove, the clamping slave gear 613 is disc-shaped, the clamping slave gear 613 is further provided with guide grooves having the same number as the guide grooves and uniformly distributed at intervals along the circumferential direction thereof, the guide grooves are arc-shaped grooves, the clamping block 621 is provided with a guide block 621a forming a guide fit with the guide grooves, when the clamping slave gear 613 rotates around its own axis, the guide block 621a is matched with the guide block 621a through the guide grooves, and the guide block 621a moves along the radial direction of the clamping disk 622 in the guide groove; when a bar is clamped, the clamping motor 611 is started, the output end of the clamping motor 611 drives the clamping driving member 612 to rotate around the axis of the clamping driving member 612, the rotation of the clamping driving member 612 drives the clamping driven member 613 to rotate synchronously, the rotation of the clamping driven member 613 enables the clamping block 621 arranged in the guide groove on the clamping disc 622 and the clamping driven member 613 to move relatively, the guide block 621a which forms guide fit with the guide groove is close to the center of the clamping driven gear 613, and the clamping block 621 which gradually closes to the center of the clamping driven gear 613 can clamp the bar.
More perfectly, the clamping slave gear 613 is provided with a limit groove, the limit groove is an arc-shaped groove arranged around the circumferential direction of the clamping slave gear 613, the clamping disc 622 is provided with a limit block matched with the limit groove, the deflection angle of the clamping slave gear 613 is controlled by matching the limit groove and the limit block, and when the limit block is positioned at the initial end part of the limit groove, the interval between the end part of the clamping block 621, which points to the center of the clamping slave gear 613, and the center of the clamping slave gear 613 is at the maximum; when the stopper is located at the trailing end of the stopper groove, the interval between the end of the clamping piece 621 directed to the center of the clamping slave gear 613 and the center of the clamping slave gear 613 is at a minimum.
More optimally, the clamping end of the clamping block 621 is provided with a groove 621b, the central axis of the groove 621b is parallel to the central axis of the bar, and when the bar is clamped, the bar is surrounded by the groove 621b on the clamping block 621, so that the surface of the bar is not damaged, and the stability of the bar when being clamped is ensured.
After the back rake is completed, the bar moves through the material returning mechanism 80, the cutting mechanism 50 cuts the moved bar, the cut bar needs to be subjected to back rake angle operation, because the back rake angle mechanism and the back rake angle mechanism are different in position, when the back rake angle operation is performed on the bar, the bar needs to be moved to the position of the back rake angle mechanism, and because the back rake angle operation is performed on the bar, the central axis of the bar needs to be parallel to the central axis of the chamfering element 314 on the back rake angle mechanism, therefore, the material returning mechanism 80 and the clamping mechanism 60 need to keep synchronous movement and can be moved to the back rake angle mechanism, and the material moving mechanism 70 arranged on the material returning mechanism 80 and the clamping mechanism 60 can move the bar to the back rake angle mechanism and complete the back rake angle operation.
As shown in fig. 32, the material conveying mechanism 70 is used for conveying the bar material along a direction perpendicular to the central axis thereof and transmitting the bar material to the direction of the back-clearance mechanism, the material conveying mechanism 70 includes a conveying motor 710, a first pulley 720, a second pulley 730, a third pulley 740, and a conveying screw 750, the central axes of the first pulley 720, the second pulley 730, and the third pulley 740 are parallel to each other and perpendicular to the conveying direction of the bar material, the conveying screw 750 includes a first conveying screw and a second conveying screw, the output shaft of the conveying motor 710 is horizontally disposed and connected to the first pulley 720, the second pulley 730 is sleeved on the driving end of the first conveying screw and connected between the first pulley 720 and the second pulley 730 through a timing belt, the driven end of the first conveying screw is movably mounted on the frame 10 and can rotate around the axial direction thereof and the axial direction of the first conveying screw is perpendicular to the conveying direction of the bar material, the third belt wheel 740 is sleeved at the driving end of the second conveying screw rod, the third belt wheel 740 is connected with the second belt wheel 730 through a synchronous belt, the driven end of the second conveying screw rod is movably mounted on the frame body 10 and can rotate around the axial direction of the second conveying screw rod, the axial direction of the second conveying screw rod is parallel to the axial direction of the first conveying screw rod, the clamping seat 623 is provided with a threaded hole matched with the first conveying screw rod and is in threaded fit with the first conveying screw rod, the material returning mechanism 80 is provided with a threaded hole matched with the second conveying screw rod and is in threaded fit with the second conveying screw rod, the frame body 10 is provided with a conveying guide rod 760 parallel to the conveying screw rod 750, the material returning mechanism 80 and the clamping seat 623 are sleeved outside the conveying guide rod 760 and are in sliding guide fit with the conveying guide rod 760, and the rotation of the output shaft of the conveying motor 710 can, the rotation of the first belt wheel 720 drives the rotation of the second belt wheel 730, the rotation of the second belt wheel 730 drives the rotation of the third belt wheel 740 and drives the first conveying screw rod and the second conveying screw rod to rotate around the axes thereof, the rotation of the first conveying screw rod drives the clamping mechanism 60 to move along the guiding direction of the conveying guide rod 760, the rotation of the second conveying screw rod drives the material returning mechanism 80 to move along the guiding direction of the conveying guide rod 760, when the chamfering operation is performed on the cut bar, the conveying motor 710 is turned on, the rotation of the output shaft of the conveying motor 710 can drive the first belt wheel 720 to rotate around the axes thereof, the rotation of the first belt wheel 720 drives the rotation of the second belt wheel 730, the rotation of the second belt wheel 730 drives the rotation of the third belt wheel 740 and drives the first conveying screw rod and the second conveying screw rod to rotate around the axes thereof, the rotation of the first conveying screw rod drives the clamping mechanism 60 to move along the direction of the plane of the guiding direction of the, the rotation of the second conveying screw rod drives the material returning mechanism 80 to move towards the plane of the back-off angle mechanism along the guiding direction of the conveying guide rod 760, when the bar moves to the chamfering area of the back-off angle mechanism, the adjusting motor 313a in the back-off angle mechanism is turned on, the rotation of the output shaft of the adjusting motor 313a in the back-off angle mechanism drives the adjusting gear 313b to synchronously rotate, the adjusting gear 313b rotates to drive the adjusting rack 313c to move, the adjusting rack 313c drives the chamfering contact 314c to move towards the back cutting section of the bar, and when the chamfering contact 314c approaches and contacts the back cutting section of the bar, the chamfering slice on the chamfering contact 314c can grind the back cutting section.
As shown in fig. 33-37, the material returning mechanism 80 includes a translation mechanism 810 for moving the bar stock, and a pressing mechanism 820 for pressing the bar stock, the pressing mechanism 820 is disposed on the translation mechanism 810, the translation mechanism 810 includes a translation motor 811 for providing power for translation of the pressing mechanism 820, a translation primary pulley 812 for transmitting power provided by the translation motor 811, a translation secondary pulley 813, a translation lead screw 814, and a translation frame 816, a length direction of the translation frame 816 is parallel to a central axis direction of the bar stock, end lugs are disposed at two ends of the translation frame 816, an output shaft of the translation motor 811 is connected and coaxially disposed with the translation primary pulley 812, a central axis of the translation motor 811 and a central axis direction of the bar stock translation primary pulley 812 are parallel, the translation secondary pulley 813 is parallel to a central axis of the translation primary pulley 812, and the translation secondary pulley 813 is connected to the translation primary pulley 812 through a synchronous belt The translation slave pulley 813 is sleeved at the driving end of the translation lead screw 814, the driven end of the translation lead screw 814 passes through one end ear of the translation frame 816 to be connected with the other end ear, the hold-down mechanism 820 is provided with a sliding sleeve, the sliding sleeve is provided with a threaded hole matched with the translation lead screw 814 and forms threaded fit with the translation lead screw 814, the rotation of the output shaft of the translation motor 811 can drive the translation master pulley 812 to rotate around the axis of the translation motor, the rotation of the translation master pulley 812 drives the translation slave pulley 813 to rotate, the rotation of the translation slave pulley 813 drives the translation lead screw 814 to synchronously rotate, preferably, a translation guide rod 815 parallel to the translation lead screw 814 is arranged between the two end ears of the translation frame 816, the sliding sleeve is sleeved outside the translation guide rod 815 and forms sliding guide fit with the translation guide rod 815, and before the bar is moved, the hold-down mechanism 820 holds down the bar, and the clamping mechanism 60 eliminates the clamping of the bar, when the bar is moved, the translation motor 811 is turned on and transmits the rotating force to the translation screw 814, and the rotation of the translation screw 814 drives the pressing mechanism 820 to move along the guiding direction of the translation guide rod 815 to the direction far away from the cutting mechanism 50 and the clamping mechanism 60, so that the bar pressed on the pressing mechanism 820 moves to the direction far away from the cutting mechanism 50.
As shown in fig. 35-37, the pressing mechanism 820 includes a pressing power mechanism for pressing the bar to provide power, and a pressing element for pressing the bar, the pressing power mechanism includes a pressing motor 821, a pressing main pulley 822, a pressing secondary pulley 823, a pressing screw 824, and a pressing guide rod 825, the pressing element includes a housing, an upper pressing plate 826, a lower pressing plate 827, a pressing block 828, and a pressing spring 829, an output shaft of the pressing motor 821 is vertically disposed and connected to the pressing main pulley 822, a central axis of the pressing secondary pulley 823 is parallel to a central axis of the pressing main pulley 822 and connected to the pressing secondary pulley 823 and the pressing main pulley 822 through a timing belt, the pressing screw 824 includes a torsion transmission section disposed at a center thereof and screwing sections disposed at two ends of the torsion transmission section, threads are disposed on the screwing sections at two ends of the torsion transmission section, and thread screwing directions of the two screwing sections are opposite, the pressing slave belt wheel 823 is sleeved on a torsion force transmission section of the pressing screw rod 824 and can transmit a rotating force to the pressing screw rod 824, the driven end of the pressing screw rod 824 is movably connected with the shell, the upper pressing plate 826 and the lower pressing plate 827 are both vertically provided with a connecting bump 826c, the connecting bump 826c comprises an upper connecting bump which is arranged on the upper plate surface of the upper pressing plate 826 and vertically extends upwards and a lower connecting bump which is arranged on the lower plate surface of the lower pressing plate 827 and vertically extends downwards, the pressing block 828 comprises an upper pressing block and a lower pressing block, the upper pressing block is sleeved outside the upper connecting bump, the lower pressing block is sleeved outside the lower connecting bump, the upper pressing block and the lower pressing block are both provided with threaded holes matched with the screwing section of the pressing screw rod 824, the upper pressing block is in threaded fit with one screwing section, the lower pressing block is in threaded fit with the other screwing section, a pressing spring 829 is sleeved outside the upper connecting bump and is positioned between the upper pressing block and the upper pressing plate, the lower connecting convex block is further sleeved with a compression spring 829 and is located between the lower compression block and the lower compression plate, the rotation of the output shaft of the compression motor 821 can drive the compression main belt wheel 822 to rotate around the self axis, the rotation of the compression main belt wheel 822 drives the compression auxiliary belt wheel 823 to rotate, the rotation of the compression auxiliary belt wheel 823 drives the compression screw 824 to rotate around the self axis, a compression guide rod 825 parallel to the compression screw 824 is arranged between the top and the bottom of the shell, the upper compression plate 826 and the lower compression plate 827 are sleeved outside the compression guide rod 825 and form sliding guide fit with the compression guide rod 825, the rotation of the compression screw 824 drives the compression block 828 to move along the guide direction of the compression guide rod 825, when a bar enters between the upper compression plate 826 and the lower compression plate 827 and needs to move, the compression motor 821 is turned on, the rotation of the output shaft of the compression motor 821 can drive the compression main belt wheel 822 to rotate around the self axis, the rotation that compresses tightly main band wheel 822 drives the rotation that compresses tightly from band wheel 823, the rotation that compresses tightly from band wheel 823 drives and compresses tightly lead screw 824 and rotates around self axis, the rotation that compresses tightly lead screw 824 drives the direction downstream of compact heap along the direction that compresses tightly guide bar 825, the compact heap is along the direction upstream that compresses tightly guide bar 825 down, and go up the compact heap, the compact heap all extrudees compression spring 829 down, compression spring 829's elasticity makes top board 826, relative motion is to the direction that is close to each other to the holding down plate 827, thereby realize the compressing tightly to the bar.
As shown in fig. 37, the upper pressing plate 826 and the lower pressing plate 827 have the same structure, and both the upper pressing plate 826 and the lower pressing plate 827 include an avoiding hole 826b for receiving the pressing slave pulley 82 and a guide hole 826d for passing the pressing guide rod 825 therethrough, and preferably, one ends of the upper pressing plate 826 and the lower pressing plate 827 close to the cutting mechanism 50 are respectively provided with a guide block 826a, and a distance between the two guide blocks 826 is gradually reduced along a feeding direction of the bar stock, so that the bar stock can smoothly enter between the upper pressing plate 826 and the lower pressing plate 827.
The bar needs to be unloaded after the operation of back rake angle, cutting, back rake angle in proper order, in order to realize the automatic discharge to the bar, the material that moves that sets up on the above-mentioned support body 10 refunds regional 140 and can solve above-mentioned problem.
As shown in fig. 6-7, the material moving and returning area 140 is provided with a discharging plate for discharging, and discharging blocks hinged to the frame 10 and located at two sides of the discharging plate, the discharging blocks are parallel to the central axis of the rod at the hinge of the frame 10, when the rod is discharged, the synchronous guide motor 710 is turned on to move the returning mechanism 80 toward the material moving and returning area 140, during the moving process, the rod on the pressing mechanism 820 touches the discharging block and the discharging block is in a folded state, then the rod moves above the discharging plate, the pressing motor 821 is turned on, the rotation of the output shaft of the pressing motor 821 drives the pressing main pulley 822 to rotate, the rotation of the pressing main pulley 822 drives the pressing secondary pulley 823 to rotate, the rotation of the pressing secondary pulley 823 drives the pressing screw 824 to rotate around its own axis, the rotation of the pressing screw drives the pressing block 828 to move in a direction away from the rod 825 along the guiding direction of the pressing guide rod 825, thereby releasing the constraint on the bar stock, then starting the synchronous guide motor 710 to make the material returning mechanism 80 move towards the direction far away from the material moving and returning area 140, at this time, the discharging block is abutted against the bar stock and is in a material shifting state, the bar stock slides onto the discharging plate by the thrust of the discharging block, and finally the bar stock slides to the collecting area of the bar stock through the discharging plate.
As shown in fig. 1 to 6, more specifically, the triggering surface of the discharging block in the turning state is an arc concave surface, the arc concave surface can reduce the motion resistance of the discharging block to the bar, the bottom of the discharging block is further connected with a counterweight block for keeping the discharging block vertical without external force, and the frame body 10 is further provided with a limiting protrusion which can be matched with the counterweight block and can limit the discharging block to turn towards the direction of the material returning mechanism 80.
When the automatic cutting equipment for the rod-shaped building materials works, the steps are as follows:
firstly, feeding bar stock;
s1, operating a control panel, starting a feeding motor 211, enabling an output end of the feeding motor 211 to drive a feeding driving part 212 to rotate and drive a feeding driven part 213 to rotate, enabling the feeding driven part 213 to rotate synchronously with a driving roller 214 connected with the feeding driven part, enabling a conveying belt 215 contacted with the side wall of the driving roller 214 to move under the action of contact friction force due to the rotation of the driving roller 214, enabling the bar to enter a conveying section through a feeding section, enabling the bar and a conveying surface of the conveying belt 215 to generate sliding friction force, and enabling the bar to be output through the conveying section through the sliding friction force;
(II) a back rake angle stage of the bar stock;
s2, clamping the bar stock when chamfering the front angle; the clamping motor 611 is started, the output end of the clamping motor 611 drives the clamping driving member 612 to rotate around the axis of the clamping driving member 612, the rotation of the clamping driving member 612 drives the clamping driven member 613 to rotate synchronously, the rotation of the clamping driven member 613 enables the clamping block 621 arranged in the guide groove on the clamping disc 622 and the clamping driven member 613 to move relatively, the guide block 621a which forms guide fit with the guide groove is close to the center of the clamping driven gear 613, and the clamping block 621 close to the center of the clamping driven gear 613 gradually can clamp the bar;
s3, lifting the back rake angle mechanism; the lifting motor 315a is started, the rotation of the output shaft of the lifting motor 315a drives the lifting screw 315b to rotate around the axis of the lifting screw, the rotation of the lifting screw 315b drives the lifting support 315d to move upwards along the guiding direction of the lifting guide rod 315c, the chamfering element 314 arranged on the lifting support 315d moves upwards, and when the cutter on the chamfering contact 314c is in contact with the front cutting section of the bar, the lifting motor 315a is closed;
s4, chamfering operation is carried out when the front angle is reversed; turning on the chamfering angle motor 311, the rotation of the output shaft of the chamfering angle motor 311 drives the chamfering driving part 312a of the chamfering power mechanism in the chamfering angle mechanism to rotate, and the rotation of the chamfering driving part 312a drives the chamfering driven part 312b to rotate and drives the chamfering contact 314c to rotate;
s5, adjusting operation during chamfering; turning on an adjusting motor 313a of the back rake angle mechanism, driving an adjusting gear 313b to synchronously rotate by rotation of an output shaft of the adjusting motor 313a, driving an adjusting rack 313c to move by rotation of the adjusting gear 313b, driving a chamfering contact 314c to move towards the front cutting section close to the bar stock along the central axis direction of a rotating shaft 314a by the adjusting rack 313c, and chamfering the end of the bar stock by the rotating chamfering contact 314c when the chamfering contact 314c approaches and contacts the end of the bar stock;
(III) cutting the bar stock;
s6, slowly descending the back rake angle mechanism; after the chamfering is completed, the lifting motor 315a is started, the lifting screw 315b rotates to drive the lifting bracket 315d to move downwards along the guiding direction of the lifting guide rod 315c, and the chamfering element 314 arranged on the lifting bracket 315d moves downwards;
s7, clamping the bar stock during cutting; starting a feeding motor 211 and pushing the bar to continuously advance to the material returning mechanism 80 and clamping the front end of the bar by the material returning mechanism 80; when a bar is cut, the clamping motor 410 is started, the output shaft of the clamping motor 410 drives the clamping screw rod 450 to synchronously rotate, the rotation of the clamping screw rod 450 drives the push block 420 to move downwards along the guiding direction of the clamping guide rod 460, the push block 420 butts against the clamping block 430 in the downward movement process and enables the clamping block 430 to move downwards, the clamping spring 470 is in a compressed state in the downward movement process of the clamping block 430, the clamping area is gradually reduced, the bar is clamped, and meanwhile, the clamping motor 611 is started, and the clamping of the clamping block 621 to the bar is realized;
s8, cutting the bar stock; the driving motor and the lifting motor 540 are started, the rotation of the output shaft of the driving motor drives the rotation of the cutting driving part 510, the rotation of the cutting driving part 510 drives the synchronous rotation of the cutting driven part 520, the rotation of the cutting driven part 520 drives the blade 530 to rotate around the axis of the cutting driven part, the output shaft of the lifting motor 540 drives the rotation of the lifting screw rod 550, the rotation of the lifting screw rod 550 drives the pressing block 560 to move upwards along the guiding direction of the lifting guide rod 570, the pressing block 560 moves upwards, simultaneously, the elastic force of the lifting spring 580 lifts the lifting end of the cutting base 590, in the process of lifting the lifting end of the cutting base 590, the blade 530 arranged at the lifting end of the cutting base 590 moves upwards slowly and finishes the cutting of the bar stock, the cut bar moves towards the direction far away from the blade 530 through the material returning mechanism 80, the lifting motor 540 is started to drive the pressing block 560 to move downwards along the guiding direction of the lifting guide rod 570, resetting the cutter lifting mechanism;
(IV) a back angle chamfering stage;
s9, drawing the cut bar to continue to advance; the clamping motor 410 is started to cancel the clamping of the clamping mechanism 40 on the cut bar, the clamping motor 611 is started to cancel the clamping of the clamping mechanism 60 on the cut bar, the translation motor 811 is started and transmits a rotating force to the translation screw rod 814, and the rotation of the translation screw rod 814 drives the pressing mechanism 820 to move along the guiding direction of the translation guide rod 815 to the direction far away from the cutting mechanism 50, so that the cut bar pressed on the pressing mechanism 820 is separated from the cutting mechanism 50;
s10, starting the carrying motor 710, wherein the rotation of an output shaft of the carrying motor 710 can drive the first belt pulley 720 to rotate around the axis of the first belt pulley 720, the rotation of the first belt pulley 720 drives the second belt pulley 730 to rotate, the rotation of the second belt pulley 730 drives the third belt pulley 740 to rotate and drives the first carrying screw rod and the second carrying screw rod to rotate around the axis of the second carrying screw rod, the rotation of the first carrying screw rod drives the clamping mechanism 60 to move along the direction of the carrying guide rod 760 to the direction of the chamfering mechanism, the rotation of the second carrying screw rod drives the material returning mechanism 80 to move along the direction of the carrying guide rod 760 to the direction of the chamfering mechanism, at the moment, the adjusting motor 313a of the chamfering mechanism is opened, the rotation of the output shaft of the adjusting motor 313a drives the adjusting gear 313b to synchronously rotate, the adjusting gear 313b rotates to drive the adjusting rack 313c to move, and the adjusting rack 313c drives, when the chamfer contact 314c approaches and contacts the rear cutting section of the bar stock, the chamfer slice on the chamfer contact 314c can grind the rear cutting section;
(V) moving the cut bar stock;
s11, the clamping motor 611 is started to remove the clamping of the clamping mechanism 60 on the cut bar, the translation motor 811 is started and transmits a rotating force to the translation screw 814, and the rotation of the translation screw 814 drives the pressing mechanism 820 to move in the direction far away from the clamping mechanism 60 along the guiding direction of the translation guide rod 815, so that the pressed bar on the pressing mechanism 820 moves in the direction far away from the clamping mechanism 60 and the cut bar is separated from the clamping mechanism 60;
(VI) discharging the cut bar;
s12, starting a synchronous guide motor 710 to enable a material returning mechanism 80 to move towards a direction close to a material moving and returning area 140, in the moving process, a bar on a pressing mechanism 820 touches a material discharging block and enables the material discharging block to be in a turnover state, then the bar moves to the upper part of a discharging plate, starting a pressing motor 821, enabling the rotation of an output shaft of the pressing motor 821 to drive a pressing main belt wheel 822 to rotate, enabling the pressing main belt wheel 822 to drive a pressing auxiliary belt wheel 823 to rotate, enabling the pressing auxiliary belt wheel 823 to rotate around the axis of the pressing auxiliary belt wheel 823, enabling a pressing screw rod 824 to rotate, enabling a pressing block 828 to move towards a direction far away from the bar along the guide direction of a pressing guide rod 825 to release the constraint on the bar, then starting the synchronous guide motor 710 to enable the material returning mechanism 80 to move towards a direction far away from the material moving and returning area 140, at the time, enabling the material discharging block to abut against the bar and to be in a material shifting state, and finally, the bar stock slides to a collecting area of the bar stock through a stripper plate.

Claims (4)

1. The automatic cutting equipment for the rod-shaped building materials is characterized by comprising a frame body, a feeding device, a clamping mechanism, a cutting mechanism and a material returning mechanism, wherein the feeding device is used for conveying a rod material to be processed, the clamping mechanism is used for clamping the rod material conveyed by the feeding device, the cutting mechanism is used for cutting the clamped rod material, the material returning mechanism is used for moving out the cut rod material, the frame body is provided with a controller and a control panel which are used for controlling the automatic cutting equipment to operate, the feeding device, the clamping mechanism, the cutting mechanism and the material returning mechanism are all arranged on the frame body, and the material returning mechanism is provided with a pressing mechanism used for clamping the rod material;
the clamping mechanism is arranged between the feeding device and the cutting mechanism, the clamping mechanism comprises a clamping seat fixed on a frame body, a clamping motor providing power for clamping, a clamping block used for clamping a bar, a clamping screw rod used for transmitting power to the clamping, and a push block, the clamping motor is fixed above the clamping seat, an output shaft of the clamping motor is vertically downward, an output shaft of the clamping motor is connected with an input end of the clamping screw rod and is coaxially arranged with the clamping screw rod, the push block is provided with a threaded hole matched with the clamping screw rod and is in threaded fit with the clamping screw rod, the clamping seat is provided with two clamping guide rods which are vertically arranged and are fixedly connected with the clamping motor, the push block is sleeved outside the clamping guide rods and is in sliding guide fit with the clamping guide rods, the clamping block is sleeved outside the clamping guide rods and is in sliding guide fit with the clamping guide rods, a clamping spring with one end abutting against the clamping seat and the other end abutting against the clamping block is sleeved outside the clamping guide rod, the clamping spring pushes the clamping block to deviate from the clamping seat and adjusts the size of a clamping area formed between the clamping block and the clamping seat;
the cutting mechanism comprises a cutting power mechanism for providing power for cutting the bar stock and a cutter lifting mechanism for cutting the bar stock;
the cutting power mechanism is arranged on the cutter lifting mechanism and comprises a cutting driving part, a cutting driven part and a blade, the blade is powered by a driving motor, an output shaft of the driving motor is connected with an input end of the cutting driving part, an output end of the cutting driven part is connected with an input end of the blade, the cutting driving part is connected with the cutting driven part through a synchronous belt or a transmission chain, the blade and the cutting driven part are coaxially arranged, and the central axis of the blade is horizontally arranged;
the cutter lifting mechanism comprises a cutting base for placing a cutting power mechanism, a cutter lifting motor for providing power for the cutter lifting of the cutting power mechanism, a cutter lifting screw rod for transmitting the power output by the cutter lifting motor, and a pressing block, the cutting base is arranged on a frame body and comprises cutter lifting ends and connecting ends which are distributed at two ends of the cutting base in the length direction, the connecting end of the cutting base is hinged with the frame body, a hinge shaft core wire formed by the hinged part of the cutting base and the frame body is parallel to the conveying direction of a bar, the blade is arranged at the cutter lifting end of the cutting base, the cutter lifting motor is arranged on the frame body and close to the cutter lifting end of the cutting base, an output shaft of the cutter lifting motor is vertically and upwards arranged, the input end of the cutter lifting screw rod is connected with an output shaft of the cutter lifting motor, and the output end of the cutter lifting screw rod is movably connected to the frame, the tool lifting guide rod is sleeved outside the tool lifting guide rod and forms sliding guide fit with the tool lifting guide rod;
the frame body is also provided with a chamfering mechanism, the chamfering mechanism comprises a back rake angle mechanism for chamfering the front cut section of the bar stock and a back rake angle mechanism for chamfering the back cut section of the bar stock, the back rake angle mechanism is arranged between the cutting mechanism and the material returning mechanism, the back rake angle mechanism is arranged between the feeding device and the back rake angle mechanism, and the back rake angle mechanism chamfer the cut section of the bar stock in opposite directions;
the chamfering mechanism comprises a chamfering power mechanism for providing power for chamfering the bar stock, a chamfering element for chamfering the bar stock and a chamfering adjusting mechanism for adjusting the chamfering element;
the chamfering power mechanism comprises a chamfering driving part and a chamfering driven part, the chamfering driving part and the chamfering driven part are connected through a synchronous belt or a transmission chain, the chamfering element comprises a rotating shaft, a sleeve ring and a chamfering contact which are coaxially arranged, the rotating shaft comprises a smooth section, a middle section and a limiting section, the chamfering contact comprises a chamfering section and a connecting section, the connecting section of the chamfering contact is sleeved in the limiting section of the rotating shaft, the middle section of the rotating shaft is positioned between the smooth section and the limiting section, an external spline is arranged on the middle section, the chamfering driven part and the sleeve ring are provided with an internal spline matched with the external spline, the chamfering driven part and the sleeve ring are sleeved outside the middle section of the rotating shaft, and the sleeve ring is arranged between the driven part and the chamfering contact;
the chamfering adjusting mechanism comprises an adjusting motor, an adjusting gear and an adjusting rack which are arranged on the frame body, wherein an output shaft of the adjusting motor is connected with the adjusting gear and is coaxially arranged, one end of the adjusting rack in the length direction is connected with the smooth section of the rotating shaft in a sliding manner, the other end of the adjusting rack is connected with the connecting section of the chamfering contact in a sliding manner, the length direction of the adjusting rack is parallel to the central axis of the rotating shaft, and the adjusting rack is meshed with the adjusting gear;
the chamfering surface of the chamfering contact is an arc-shaped concave surface, and slices for chamfering the bar are uniformly arranged around the circumference direction of the arc-shaped concave surface;
the chamfering mechanism comprises a chamfering mechanism, a chamfering driving part, a chamfering driven part, a driving motor, a chamfering driving part, a driving motor and a pressing wheel, wherein the chamfering mechanism is used for providing power for the chamfering power mechanism;
the back rake angle mechanism still including the elevating system who is used for adjusting chamfer component height, elevating system include elevator motor, lift lead screw, set up the lifting support on the chamfer component, elevator motor's the vertical drive end that upwards just links to each other with the lift lead screw that makes progress of output shaft, the driven end of lift lead screw be connected with support body fixed connection's backup pad and the lift lead screw can rotate around self axis, lifting support set up between elevator motor and backup pad, and be provided with on the lifting support with lift lead screw assorted screw hole and constitute screw-thread fit with the lift lead screw, elevator motor and backup pad between be provided with the lift guide bar parallel with the lift lead screw, the lifting support cup joints outside the lift guide bar and constitutes sliding guide cooperation with the lift guide bar.
2. The automatic cutting apparatus for bar-shaped building materials according to claim 1, wherein a clamping mechanism is disposed between the back rake angle mechanism and the cutting mechanism, the clamping mechanism includes a clamping transmission mechanism for providing power for clamping the bar, and a clamping element for clamping the bar, the clamping transmission mechanism includes a clamping motor, a clamping master gear, and a clamping slave gear, the clamping element includes a clamping block, a clamping disk, and a clamping seat, the clamping motor and the clamping disk are disposed on the clamping seat, an output shaft of the clamping motor is connected and coaxially disposed with the clamping master gear, the clamping slave gear is engaged with the clamping master gear and the clamping slave gear is parallel to a central axis of the clamping master gear, the clamping slave gear and the clamping disk are coaxially disposed and concentric circles are disposed at centers of the clamping slave gear and the clamping disk, the concentric circles are clamping areas of the clamping mechanisms, a plurality of guide grooves which are distributed at equal intervals along the circumferential direction of the clamping discs and used for placing clamping blocks and extend along the radial direction of the clamping discs are formed in each clamping disc, the clamping blocks are arranged in the guide grooves and matched with the guide grooves in a sliding guide mode, the clamping driven gears are disc-shaped, guide grooves which are equal to the guide grooves in number and distributed at equal intervals along the circumferential direction of the clamping driven gears are further formed in the clamping driven gears, the guide grooves are arc-shaped grooves, and guide blocks which are matched with the guide grooves in a guide mode are arranged on the clamping blocks.
3. The automatic cutting device for rod-shaped building materials according to claim 2, wherein the material returning mechanism and the clamping mechanism are provided with a material moving mechanism, the material moving mechanism comprises a moving motor, a first belt wheel, a second belt wheel, a third belt wheel and a moving screw rod, the central axes of the first belt wheel, the second belt wheel and the third belt wheel are parallel to each other and perpendicular to the conveying direction of the rod, the moving screw rod comprises a first moving screw rod and a second moving screw rod, the output shaft of the moving motor is horizontally arranged and connected with the first belt wheel, the second belt wheel is sleeved on the driving end of the first moving screw rod and connected with the first belt wheel and the second belt wheel through a synchronous belt, the driven end of the first moving screw rod is movably mounted on the frame body and can rotate around the axial direction of the first moving screw rod, the axial direction of the first moving screw rod is perpendicular to the conveying direction of the rod, the third belt wheel is sleeved on the driving end of the second moving screw rod, and the third belt wheel The driven end of the second conveying screw rod is movably mounted on the frame body and can rotate around the axial direction of the second conveying screw rod, the axial direction of the second conveying screw rod is parallel to the axial direction of the first conveying screw rod, a threaded hole matched with the first conveying screw rod is formed in the clamping seat and is in threaded fit with the first conveying screw rod, a threaded hole matched with the second conveying screw rod is formed in the material returning mechanism and is in threaded fit with the second conveying screw rod, a conveying guide rod parallel to the conveying screw rod is arranged on the frame body, and the material returning mechanism and the clamping seat are sleeved outside the conveying guide rod and are in sliding guide fit with the conveying guide rod.
4. The automatic cutting device for the rod-shaped building materials according to claim 1, wherein the material returning mechanism comprises a translation mechanism for moving the rod-shaped building materials and a pressing mechanism for pressing the rod-shaped building materials, the pressing mechanism is arranged on the translation mechanism, the translation mechanism comprises a translation motor for providing power for translation of the pressing mechanism, a translation primary pulley for transmitting the power provided by the translation motor, a translation secondary pulley, a translation lead screw and a translation frame, the length direction of the translation frame is parallel to the central axis direction of the rod-shaped building materials, end lugs are arranged at two ends of the translation frame, an output shaft of the translation motor is connected with the translation primary pulley and coaxially arranged, the central axes of the output shaft of the translation motor and the translation primary pulley are parallel to the central axis direction of the rod-shaped building materials, the translation secondary pulley is parallel to the central axis of the translation primary pulley and connected with the translation primary pulley through a synchronous belt, the translation slave belt wheel is sleeved at the driving end of the translation screw rod, the driven end of the translation screw rod penetrates through one end lug of the translation frame to be connected with the other end lug, the pressing mechanism is provided with a sliding sleeve, a threaded hole matched with the translation screw rod is formed in the sliding sleeve, the sliding sleeve is in threaded fit with the translation screw rod, a translation guide rod parallel to the translation screw rod is arranged between the two end lugs of the translation frame, and the sliding sleeve is sleeved outside the translation guide rod and is in sliding guide fit with the translation guide rod;
the pressing mechanism comprises a pressing power mechanism for pressing the bar to provide power and a pressing element for pressing the bar, the pressing power mechanism comprises a pressing motor, a pressing main belt wheel, a pressing secondary belt wheel, a pressing screw rod and a pressing guide rod, the pressing element comprises a shell, an upper pressing plate, a lower pressing plate, a pressing block and a pressing spring, an output shaft of the pressing motor is vertically arranged and connected with the pressing main belt wheel, the central axis of the pressing secondary belt wheel is parallel to the central axis of the pressing main belt wheel, the pressing secondary belt wheel and the pressing main belt wheel are connected through a synchronous belt, the pressing screw rod comprises a torsion transmission section arranged at the center of the pressing motor and screwing sections arranged at two ends of the torsion transmission section, threads are arranged on the screwing sections at the two ends of the torsion transmission section, the screwing directions of the threads of the two screwing sections are opposite, the pressing secondary belt wheel is sleeved on the pressed torsion transmission section and can transmit rotating force to the pressing, the driven end of the pressing screw rod is movably connected with the shell, the upper pressing plate and the lower pressing plate are both vertically provided with connecting lugs, each connecting lug comprises an upper connecting lug which is arranged on the upper plate surface of the upper pressing plate and vertically extends upwards, and a lower connecting lug which is arranged on the lower plate surface of the lower pressing plate and vertically extends downwards, the pressing block comprises an upper pressing block and a lower pressing block, the upper pressing block is sleeved outside the upper connecting lug, the lower pressing block is sleeved outside the lower connecting lug, the upper pressing block and the lower pressing block are both provided with threaded holes matched with the screwing sections of the pressing screw rod, the upper pressing block and one screwing section form threaded fit, the lower pressing block and the other screwing section form threaded fit, a compression spring is sleeved outside the upper connecting lug and is positioned between the upper compression block and the upper pressure plate, the lower connecting convex block is also sleeved with a pressing spring and is positioned between the lower pressing block and the lower pressing plate;
the support body on be provided with the stripper that is used for unloading, articulate in the support body and be located the piece of unloading of stripper both sides, the piece of unloading parallels with bar central axis with the articulated axle heart line of department of support body, the piece of unloading be the trigger face when turning over a state for the arc concave surface, the bottom of the piece of unloading still is connected with and is used for making the piece of unloading keep vertical balancing weight under the condition that does not receive external acting force to still be provided with on the support body and can restrict the spacing arch of the piece of unloading towards material returned mechanism direction upset with the balancing weight matching.
CN201810152545.2A 2018-02-16 2018-02-16 Automatic cutting equipment for rod-shaped building materials Active CN109877588B (en)

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CN111482649B (en) * 2020-04-18 2021-06-15 广东恒联管道科技股份有限公司 High-stability surrounding type cutting process for stainless steel pipe fitting
CN111571227B (en) * 2020-05-25 2021-05-28 青岛威富迪自动化设备有限公司 Ship and mechanical engineering lug cutting equipment

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CN201109130Y (en) * 2007-11-19 2008-09-03 胡明强 Automatic cutting machine
KR101075190B1 (en) * 2009-12-17 2011-10-19 강신복 A chamfering machine for pipe
CN204295748U (en) * 2014-12-04 2015-04-29 台州精华环保设备有限公司 A kind of bar hold down gag of bar cutting machine
CN205817277U (en) * 2016-05-26 2016-12-21 郭飚 A kind of machining tool of surface trimming frosted bar
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