CN108941228B - Full-automatic vertical red punching equipment - Google Patents

Full-automatic vertical red punching equipment Download PDF

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Publication number
CN108941228B
CN108941228B CN201810601250.9A CN201810601250A CN108941228B CN 108941228 B CN108941228 B CN 108941228B CN 201810601250 A CN201810601250 A CN 201810601250A CN 108941228 B CN108941228 B CN 108941228B
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China
Prior art keywords
plate
adjusting
chute
conveying
positioning
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CN201810601250.9A
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Chinese (zh)
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CN108941228A (en
Inventor
沈信延
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Biaoma Group Co ltd
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Biaoma Group Co ltd
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Priority to CN201810601250.9A priority Critical patent/CN108941228B/en
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21CMANUFACTURE OF METAL SHEETS, WIRE, RODS, TUBES OR PROFILES, OTHERWISE THAN BY ROLLING; AUXILIARY OPERATIONS USED IN CONNECTION WITH METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL
    • B21C23/00Extruding metal; Impact extrusion
    • B21C23/21Presses specially adapted for extruding metal
    • B21C23/212Details
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B07SEPARATING SOLIDS FROM SOLIDS; SORTING
    • B07CPOSTAL SORTING; SORTING INDIVIDUAL ARTICLES, OR BULK MATERIAL FIT TO BE SORTED PIECE-MEAL, e.g. BY PICKING
    • B07C5/00Sorting according to a characteristic or feature of the articles or material being sorted, e.g. by control effected by devices which detect or measure such characteristic or feature; Sorting by manually actuated devices, e.g. switches
    • B07C5/34Sorting according to other particular properties
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B07SEPARATING SOLIDS FROM SOLIDS; SORTING
    • B07CPOSTAL SORTING; SORTING INDIVIDUAL ARTICLES, OR BULK MATERIAL FIT TO BE SORTED PIECE-MEAL, e.g. BY PICKING
    • B07C5/00Sorting according to a characteristic or feature of the articles or material being sorted, e.g. by control effected by devices which detect or measure such characteristic or feature; Sorting by manually actuated devices, e.g. switches
    • B07C5/36Sorting apparatus characterised by the means used for distribution
    • B07C5/361Processing or control devices therefor, e.g. escort memory
    • B07C5/362Separating or distributor mechanisms
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21CMANUFACTURE OF METAL SHEETS, WIRE, RODS, TUBES OR PROFILES, OTHERWISE THAN BY ROLLING; AUXILIARY OPERATIONS USED IN CONNECTION WITH METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL
    • B21C23/00Extruding metal; Impact extrusion
    • B21C23/02Making uncoated products
    • B21C23/18Making uncoated products by impact extrusion
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21CMANUFACTURE OF METAL SHEETS, WIRE, RODS, TUBES OR PROFILES, OTHERWISE THAN BY ROLLING; AUXILIARY OPERATIONS USED IN CONNECTION WITH METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL
    • B21C29/00Cooling or heating work or parts of the extrusion press; Gas treatment of work
    • B21C29/003Cooling or heating of work
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21CMANUFACTURE OF METAL SHEETS, WIRE, RODS, TUBES OR PROFILES, OTHERWISE THAN BY ROLLING; AUXILIARY OPERATIONS USED IN CONNECTION WITH METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL
    • B21C31/00Control devices, e.g. for regulating the pressing speed or temperature of metal; Measuring devices, e.g. for temperature of metal, combined with or specially adapted for use in connection with extrusion presses
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21CMANUFACTURE OF METAL SHEETS, WIRE, RODS, TUBES OR PROFILES, OTHERWISE THAN BY ROLLING; AUXILIARY OPERATIONS USED IN CONNECTION WITH METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL
    • B21C33/00Feeding extrusion presses with metal to be extruded ; Loading the dummy block
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P70/00Climate change mitigation technologies in the production process for final industrial or consumer products
    • Y02P70/10Greenhouse gas [GHG] capture, material saving, heat recovery or other energy efficient measures, e.g. motor control, characterised by manufacturing processes, e.g. for rolling metal or metal working

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Feeding Of Articles To Conveyors (AREA)
  • Press Drives And Press Lines (AREA)

Abstract

The invention relates to full-automatic vertical red punching equipment which comprises a feeding frame assembly, a raw material transmission device, a raw material pushing device and a raw material feeding device, wherein the feeding frame assembly is used for conveying workpieces; the raw material transmission device is positioned at the upper end of the feeding frame assembly; the raw material pushing device corresponds to the raw material feeding device in position; the raw material pushing device and the raw material feeding device are positioned at the end part of the raw material transmission device; the device also comprises a red punching raw material heating furnace, a chute device, a conveying mechanism and a processing mechanism which are connected in sequence; the full-automatic vertical red punching equipment with the vertical structure is small in occupied space and high in automation degree, the personal safety of workers can be guaranteed when the protective cover and the observation groove are arranged for processing, and meanwhile, the working condition of the processing equipment can be observed at any time through the observation groove; simple structure and safe and reliable working process.

Description

Full-automatic vertical red punching equipment
Technical Field
The invention belongs to the technical field of mechanical equipment, and particularly relates to full-automatic vertical red punching equipment.
Background
The specific processing method of the red punching process is that after brass rods or iron rods are heated to red, the brass rods or iron rods are placed into a hot punching die of a punch press to be extruded and molded at one time. In the common production process, an operator is required to clamp the heated brass rod or iron rod and other workpieces to a punch press for processing.
In the patent document with the authorized bulletin number of CN203438577U, an automatic red punching machine is disclosed, and the traditional operation mode is changed, but the structure described in the document is too complex, the transmission parts and the control parts are too many, the control precision is not high, each device needs to be operated by a special person, the labor cost is high, and the maintenance is inconvenient;
the Chinese patent (the application number is 201721359200.1; the bulletin number is CN 207238780U), discloses an automatic horizontal hot extrusion machine, which comprises a bottom plate and a forming device arranged on the bottom plate, wherein the forming device comprises a male die, a female die, a left vertical plate and a right vertical plate which are fixedly arranged on the bottom plate, one end of a small guide post is fixedly connected with a short transverse plate, a push column is arranged at the middle part of the end, adjacent to the long transverse plate, of the short transverse plate, the push column slides through the long transverse plate, a locking block and a locking cylinder are arranged on the long transverse plate, corresponding to the push column, and a push rod is arranged at the middle part of the end, adjacent to the right vertical plate, of the short transverse plate; the extruder of this patent is horizontal structure, and occupation space is more, and production efficiency and security still wait to improve, are unfavorable for the popularization of enterprise.
In view of the above, improvements are needed.
Disclosure of Invention
The invention aims to overcome the defects in the prior art, and provides the full-automatic vertical red punching equipment which is reasonable in design, simple in structure, stable in operation, small in occupied space and high in automation degree.
In order to achieve the above purpose, the technical scheme adopted by the invention is as follows: a full-automatic vertical red punching device comprises a feeding frame assembly, a raw material transmission device, a raw material pushing device and a raw material feeding device, wherein the feeding frame assembly is used for conveying workpieces; the raw material transmission device is positioned at the upper end of the feeding frame assembly; the raw material pushing device corresponds to the raw material feeding device in position; the raw material pushing device and the raw material feeding device are positioned at the end part of the raw material transmission device; the device also comprises a red punching raw material heating furnace, a chute device, a conveying mechanism and a processing mechanism which are connected in sequence.
Preferably, the chute device is fixedly arranged on the side wall of the red-punching raw material heating furnace, one end of the chute device corresponds to the discharge hole of the red-punching raw material heating furnace, the other end of the chute device corresponds to the feeding opening of the conveying mechanism, and the chute device comprises a chute bracket mechanism and is fixedly arranged on the chute bracket mechanism; the chute device comprises a first chute and a second chute; the first chute is obliquely arranged on the chute bracket mechanism, the first chute is arranged at the upper end of the second chute, and the outlet of the first chute is communicated with the inlet of the second chute; the transverse inclination angle between the first chute and the chute support mechanism is 35-65 degrees, and the longitudinal inclination angle between the first chute and the chute support mechanism is 75-85 degrees; the first sliding chute comprises a side plate, a bottom plate, and an outer baffle plate and an inner baffle plate which are arranged on two sides of the bottom plate, wherein the side plate is fixedly arranged at the upper ends of the outer baffle plate, the inner baffle plate and the bottom plate, and the lower ends of the baffle plate, the inner baffle plate and the bottom plate are connected with a second sliding chute; the second chute is an arc chute, and the width of the second chute is gradually reduced from large to small; the outlet of the second chute is connected with a transition groove, and the second chute is fixedly connected with the transition groove and integrally formed; the width of the transition groove is consistent with the width of the outlet of the second chute; the transition groove comprises a transition bottom plate and transition baffles arranged on two sides of the transition bottom plate; the second chute comprises a chute bottom plate and chute baffles arranged at two sides of the chute bottom plate, and chute cover plates are arranged on the chute baffles at two sides; the height of the inner baffle is higher than that of the outer baffle.
Preferably, the inner baffle is provided with a horizontal section and an inclined section, and the upper end of the horizontal section and the upper end of the side plate are on the same horizontal plane; the outer baffle is fixedly provided with a chute guide plate which inclines outwards, the upper end of the chute guide plate is higher than the upper end of the horizontal section, and the inclination angle between the chute guide plate and the outer baffle is 95-175 degrees; the chute support mechanism comprises a support bottom plate, a support plate fixedly arranged on the support bottom plate, a support supporting plate fixedly arranged on the support supporting plate, a chute support fixedly arranged on the other side of the support supporting plate, and a positioning groove for supporting the first chute is formed among the support supporting plate, the support supporting plate and the chute support; an adjusting plate is movably connected to the chute bracket, one end of the adjusting plate is propped against the outer baffle, and a side adjusting mechanism for adjusting the front-back distance of the adjusting plate on the chute bracket is arranged on the adjusting plate; the side adjusting mechanism comprises a side adjusting bolt, a side adjusting groove which is in a strip shape is formed in the adjusting plate, the side adjusting bolt penetrates through the side adjusting groove, and the adjusting plate is fixed on the chute bracket through the matching of the side adjusting bolt and the side adjusting groove.
Preferably, the conveying mechanism comprises a conveying device and a conveying device; the conveying device is connected with the conveying device through a transition plate; the conveying device comprises two conveying side walls and a conveying belt positioned between the two conveying side walls, two ends of the conveying belt are connected with conveying wheels, the conveying wheels are driven by a motor and used for pushing red punching raw materials positioned on the conveying belt to move towards the conveying device, the transition plate and the conveying belt are positioned on the same horizontal plane, and the conveying side walls are also provided with top barrier strips used for limiting the top surfaces of the red punching raw materials; the conveying side wall is provided with a top adjusting structure for adjusting the direction of the top barrier strip; the top adjusting structure comprises a top connecting plate fixedly arranged on the outer side of the conveying side wall, a top adjusting plate is connected to the top connecting plate, an upper positioning strip in an L shape is vertically and fixedly arranged on the top adjusting plate, a top blocking strip is vertically and fixedly arranged at the end part of the upper positioning strip, and the top blocking strip is positioned at the upper end of the conveying belt and leaves a gap with the conveying side wall; the top adjusting plate is provided with a top adjusting mechanism for adjusting the upper and lower spacing of the top barrier strips; the top adjusting mechanism comprises a top adjusting bolt, a top adjusting plate is provided with a strip-shaped top adjusting groove perpendicular to the moving direction of the red punching raw material, the top adjusting bolt is arranged in the top adjusting groove in a penetrating manner, and the top adjusting plate is fixed on the top connecting plate through the matching of the top adjusting bolt and the top adjusting groove; the conveying device comprises a guide rail shell, wherein the guide rail shell comprises a bottom plate and two side plates, and the bottom plate and the two side plates are integrally formed; the two side plates are respectively positioned at two sides of the bottom plate, and the bottom plate and the two side plates form an unsealed feeding groove for conveying red punching raw materials; the transition plate is propped against the end part of the bottom plate, the bottom plate and the transition plate are on the same horizontal plane, and the bottom of the conveying device is provided with a vibrating mechanism; a guide notch is formed in the middle of one side of the side plate, a side wall adjusting and fixing block is fixedly arranged on the outer side of the side plate and close to the bottom of the guide notch, and a positioning plate device is connected to the side wall adjusting and fixing block and used for adjusting the width of the feeding groove.
Preferably, the positioning plate device comprises a connecting plate, the end part of the connecting plate is fixedly provided with a positioning plate, and the positioning plate is obliquely arranged on the connecting plate; the rocker arm adjusting device comprises a locating pin, a rocker arm rotatably connected to the locating pin, an adjusting block is fixedly arranged on the outer side of the end part of the rocker arm, and a rocker arm locating block corresponding to the adjusting block in position is fixedly arranged on the side plate; the adjusting block is provided with a guide hole, and the guide hole is provided with a bolt for adjusting the rotation angle of the rocker arm; the vibration mechanism comprises a vibration shaft and a vibration seat sleeved on the vibration shaft; the top of the vibration shaft is fixedly provided with a vibration plate, the vibration plate is provided with a vibration disc, and an electromagnetic valve is arranged in the vibration disc; the top of the vibration disc is connected with the feeding groove, the vibration disc is obliquely arranged on the vibration plate, and the inclination angle of the vibration disc is consistent with that of the feeding groove; the vibration seat comprises a base and a positioning ring; the base and the positioning ring are fixedly connected and integrally formed; the side part of the positioning ring is provided with symmetrical connecting parts, a connecting groove is formed between the two connecting parts, and the connecting grooves are connected through bolts and used for limiting the up-and-down movement of the vibration shaft in the positioning ring; the bottom of the positioning ring is provided with a guide groove close to the connecting position, and the guide groove and the connecting groove are in an inverted T shape.
Preferably, the processing mechanism comprises a processing rack, an automatic feeding device and a main bedplate and a bedplate which are fixedly arranged on the processing rack and sequentially distributed along the vertical direction, wherein the periphery of the main bedplate is fixedly connected with the periphery of the bedplate through a connecting shaft, and the automatic feeding device is fixedly arranged on the processing rack; the middle part of the main bedplate is provided with a driving oil cylinder, the bottom of the driving oil cylinder is provided with a punch die device, a die opening mechanism matched with the punch die device is fixedly arranged on the bedplate corresponding to the driving oil cylinder, a flat die passing plate is arranged on the die opening mechanism, and a feeding hand pushing device, a vertical feeding adjusting frame and a jacking mechanism corresponding to the flat die passing plate are arranged on the bedplate corresponding to the die passing plate; the bedplate is also provided with a fixed material assembly device and a finished product guide rail assembly; the automatic feeding device comprises a conveying guide rail, the feeding hand-pushing device and the conveying guide rail are mutually matched, the feeding hand-pushing device comprises a base, a feeding hand seat is fixedly arranged on the base, a driving cylinder is fixedly arranged on the feeding hand seat, the driving cylinder penetrates through the feeding hand seat to be connected with a sliding block, two sleeves are fixedly arranged on the feeding hand seat, the two sleeves are positioned at the upper end of the driving cylinder and are symmetrically distributed, a guide post is slidably connected in the sleeves, the guide post penetrates through the sleeves to be fixedly connected with the sliding block, a push rod is connected with the sliding block, a push rod positioning plate for pushing materials is fixedly arranged at the end part of the push rod, and the push rod positioning plate is positioned above the conveying guide rail; one side of the feeding hand seat is fixedly provided with an induction fixing plate corresponding to the position of the driving cylinder, the induction fixing plate is provided with an induction switch matched with the driving cylinder, and when a material positioned on the conveying channel meets the conveying requirement, the induction switch is used for driving the cylinder to move, so that the push rod positioning plate is used for pushing the material; the sliding block is provided with a guide groove along the length direction, and the push rod is connected in the guide groove in a sliding way; an adjusting groove is formed on the push rod, a plurality of bolts are connected to the adjusting groove, and the bolts are used for adjusting the position of the push rod on the sliding block through the adjusting groove; the end part of the guide post is fixedly provided with a connecting plate, the middle part of the connecting plate is provided with a limit nut, the limit nut is rotationally connected with a limit rod, a limit buffer corresponding to the limit rod is arranged on the feeding hand seat, and the limit buffer is positioned between the two sleeves; the push rod locating plate is provided with a clamping opening for pushing materials, and the direction of the clamping opening is consistent with the driving direction of the driving cylinder.
Preferably, the ejection mechanism comprises an ejection sleeve, an ejection cylinder and an ejection positioning plate; the material ejection positioning plate and the material ejection cylinder are respectively and fixedly arranged at the upper end and the lower end of the material ejection sleeve; the method is characterized in that: the device comprises a conveying device, a material pushing cylinder, a material pushing sleeve, a material pushing positioning plate, a material pushing device, a material pushing shaft, a material pushing device and a material pushing device, wherein the material pushing device is used for receiving a workpiece from a material outlet of the conveying device; the middle part of the ejection sleeve is provided with at least one sliding groove, and a limiting rod matched with the sliding groove is fixedly arranged on the ejection shaft correspondingly, and the limiting rod is connected in the sliding groove in a sliding way; the two sliding grooves are symmetrically arranged on two sides of the ejection sleeve; the length of the sliding groove is consistent with the lifting height of the material ejection device; the material ejection device comprises a limiting plate and a supporting block arranged on the limiting plate, and a placing plate for placing a workpiece is fixedly arranged on the supporting block; the support block is L-shaped and comprises an adjusting plate and a support plate; the adjusting plate is provided with a top adjusting mechanism for adjusting the front-back distance of the shelving plate; the top adjusting mechanism comprises an adjusting bolt, a long-strip-shaped top adjusting groove parallel to the moving direction of the red punching raw material is formed in the adjusting plate, the adjusting bolt penetrates through the top adjusting groove, and the adjusting plate is fixed on the limiting plate through the matching of the adjusting bolt and the top adjusting groove; a guide opening is formed on the limiting plate, the ejection shaft is sleeved in the guide opening, and a side part adjusting mechanism for adjusting the distance of the limiting plate on the ejection shaft is arranged on the limiting plate; the side adjusting mechanism comprises a side adjusting bolt, and the side adjusting bolt penetrates through the guide opening to limit the position of the limiting plate on the jacking shaft; the supporting plate and the placing plate are obliquely arranged, and the inclination angle of the supporting plate is consistent with the conveying direction of the automatic feeding device.
Preferably, the vertical feeding adjusting frame comprises an adjusting seat device and an adjusting induction device fixedly arranged on the adjusting seat device; the adjusting induction device comprises an adjusting sleeve, an adjusting shaft is rotationally connected to the adjusting sleeve, and two ends of the adjusting shaft are respectively connected with a first adjusting plate and a second adjusting plate; the adjusting sleeve is provided with an adjusting induction switch device which is matched with the second adjusting plate; the first adjusting plate is fixedly arranged at the upper end of the adjusting shaft, is positioned between the shelving plate and the flat die passing plate, and the top end of the first adjusting plate is propped against the side edge of the flat die passing plate; the first adjusting plate is fixedly arranged at one end of the adjusting shaft, the second adjusting plate is sleeved at the other end of the adjusting shaft, and an adjusting bolt is arranged between the second adjusting plate and the adjusting shaft; the adjusting induction switch device comprises a first fixed plate fixedly arranged at the end part of the adjusting sleeve, a second fixed plate is vertically connected to the first fixed plate, and the first fixed plate is fixedly connected with the second fixed plate and integrally formed; the side edge of the second fixing plate is fixedly provided with an L-shaped third fixing plate which is vertically arranged with the adjusting sleeve; the bottom of the third fixed plate is provided with an adjusting bolt, the adjusting bolt corresponds to the lower end of the second adjusting plate, the top of the second fixed plate is provided with an inductive switch, and the inductive switch corresponds to the top end of the second adjusting plate; the adjusting bolt is rotatably arranged at the bottom of the third fixed plate, and the top of the adjusting bolt corresponds to the center of the second adjusting plate; the adjusting seat device comprises an adjusting base in an L shape, the adjusting base comprises a horizontal adjusting plate and a vertical adjusting plate, an adjusting supporting plate is connected to the vertical adjusting plate, and an adjusting sleeve is fixedly arranged on the adjusting supporting plate; the vertical adjusting plate is provided with an upper adjusting mechanism for adjusting the vertical distance of the vertical adjusting plate on the adjusting supporting plate; the upper adjusting mechanism comprises an upper adjusting bolt, an upper adjusting groove which is perpendicular to the moving direction of the red punching raw material and takes a strip shape is formed in the vertical adjusting plate, the upper adjusting bolt penetrates through the upper adjusting groove and is propped against the adjusting support plate, and the vertical adjusting plate is fixed on the adjusting support plate through the matching of the upper adjusting bolt and the upper adjusting groove; the fixed material assembly device comprises a fixed material base, a fixed material seat fixedly arranged on the fixed material base, a fixed material driving cylinder fixedly arranged on the fixed material seat, a guide shaft fixing block connected with the fixed material seat, a positioning block fixing plate connected with the guide shaft fixing block, a material connecting disc fixedly arranged on the upper end of the positioning block fixing plate, and a positioning plate fixedly arranged at the front part of the positioning block fixing plate and matched with the push rod positioning plate for clamping the red punching workpiece; the positioning block fixing plate is a T-shaped body and is connected with the receiving tray through the hopper fixing plate; the receiving tray is positioned at the upper end of the positioning plate, and the center of the receiving tray corresponds to the forefront end of the positioning plate; the receiving tray and the fixed material driving cylinder form an angle of 30-60 degrees, the opening of the receiving tray is opposite to the driving direction of the fixed material driving cylinder, the opening of the receiving tray faces to the finished product guide rail assembly, and after the receiving tray receives materials, the receiving tray is positioned above the finished product guide rail assembly, and the finished product guide rail assembly is obliquely arranged on the bedplate; the positioning seat is also fixedly provided with two positioning sleeves which are positioned at two sides of the positioning driving cylinder and are symmetrically distributed, the positioning sleeves are slidably connected with guide shafts, and the guide shafts penetrate through the positioning sleeves and are fixedly connected with the guide shaft fixing blocks; a side plate is fixedly arranged on one side of the fixed material seat, and a cylinder protection plate corresponding to the fixed material driving cylinder is fixedly arranged at the end part of the side plate; the positioning fixing plate is fixedly arranged on the fixed material seat and corresponds to the fixed material driving cylinder in position, the positioning fixing plate is positioned at the lower end of the positioning sleeve, the positioning fixing plate is provided with a fixed material induction switch which is matched with the fixed material driving cylinder, and when the material positioned on the conveying channel meets the conveying requirement, the fixed material induction switch is used for moving the fixed material driving cylinder, so that the positioning plate is used for pushing the material; the locating plate is provided with a locating clamping opening for pushing materials, and the orientation of the locating clamping opening is consistent with the driving direction of the locating driving cylinder.
Preferably, a protective cover is arranged around the main bedplate and the bedplate, the protective cover is detachably connected between the main bedplate and the bedplate, a plurality of observation grooves are formed in the protective cover, and the observation grooves are equidistantly distributed on the protective cover.
Preferably, the device also comprises a removing mechanism, wherein the removing mechanism comprises a cylinder pushing assembly corresponding to the shelving plate and a temperature control assembly mechanism, and the temperature control assembly mechanism is positioned above the cylinder pushing assembly; a blanking groove which is opposite to the air cylinder pushing assembly is fixed on the bedplate, the temperature control assembly mechanism comprises a temperature control fixing frame sleeved on the vertical support column, a temperature control fixing plate is fixedly arranged on the temperature control fixing frame, a temperature control clamping seat fixing plate is connected to the temperature control fixing plate, a temperature control clamping seat is rotationally connected to the temperature control clamping seat fixing plate, and an induction device corresponding to the ejection mechanism is sleeved on the temperature control clamping seat; the cylinder pushing assembly comprises a cylinder fixing frame sleeved on the vertical support column, a rejecting cylinder is fixedly arranged on the cylinder fixing frame, a cylinder front fixing plate is connected to a driving shaft of the rejecting cylinder, and a cylinder pushing mechanism is detachably connected to the cylinder front fixing plate; the cylinder pushing mechanism comprises a pushing fixed plate, a pushing shaft and a pushing block; one end of the pushing shaft is vertically and fixedly arranged in the middle of the pushing fixed plate, and the other end of the pushing shaft is fixedly connected with the pushing block; the width of the pushing block is consistent with the outer diameter of the pushing shaft, and the length of the pushing block is 2 times of the outer diameter of the pushing shaft; the cylinder fixing frame comprises a cylinder left bracket and a cylinder right bracket; a bulge is arranged on one side of the left cylinder bracket, a notch matched with the bulge is formed on the right cylinder bracket, the bulge is in matched and clamping connection with the notch, and the other sides of the left cylinder bracket and the right cylinder bracket fix the cylinder fixing frame on the bracket through an adjusting mechanism; the convex part is in an arc shape, and the notch is also in an arc shape corresponding to the convex part; the adjusting mechanism comprises an adjusting screw, an adjusting hole is formed in the end portion of the left bracket of the air cylinder, the adjusting screw penetrates through the adjusting hole and is connected to the right bracket of the air cylinder, and the adjusting screw is used for fixing the left bracket and the right bracket of the air cylinder on the brackets; the adjusting screw is embedded in the adjusting hole; the two driving shafts are symmetrically arranged on two sides of the front fixing plate of the air cylinder; the temperature control clamping seat fixing plate is rotationally connected with the temperature control fixing plate; the temperature control clamping seat fixing plate is an F-shaped body and comprises a connecting plate, a first guide plate and a second guide plate, wherein the first guide plate and the second guide plate are fixedly arranged at the end part of the connecting plate; a guide groove is formed between the first guide plate and the second guide plate, and a connecting arm of the temperature control clamping seat is rotationally connected in the guide groove and used for adjusting the irradiation angle of the induction device; the connecting plate, the first guide plate and the second guide plate are fixedly connected and integrally formed; the outer side of the joint of the connecting plate and the first guide plate is in arc transition; the rotation angle between the temperature control clamping seat and the guide groove is 0-180 degrees; the temperature control fixing frame comprises a temperature control left bracket and a temperature control right bracket; a convex block is arranged on one side of the temperature control left bracket, a groove matched with the convex block is formed on the temperature control right bracket correspondingly, the convex block is in matched clamping connection with the groove, and the temperature control fixing frame is positioned on the other side of the temperature control left bracket and the temperature control right bracket through a temperature control adjusting mechanism; the convex block is in an arc shape, and the groove is also in an arc shape corresponding to the convex block; the temperature control adjusting mechanism comprises a temperature control adjusting screw, a connecting hole is formed in the end portion of the temperature control left bracket, and the temperature control adjusting screw penetrates through the connecting hole to be connected to the temperature control right bracket and is used for fixing the temperature control left bracket and the temperature control right bracket on the bracket; the temperature control adjusting screw is embedded in the connecting hole; the induction device is an infrared high-temperature thermometer.
The beneficial effects of the invention are as follows:
1. the full-automatic vertical red punching equipment with the vertical structure is small in occupied space and high in automation degree, the personal safety of workers can be guaranteed when the protective cover and the observation groove are arranged for processing, and meanwhile, the working condition of the processing equipment can be observed at any time through the observation groove; the structure is simple, and the working process is safe and reliable;
2. the labor is effectively reduced, 1 worker can control 3-5 machines, and the production benefit is improved; the single set of equipment can easily reach the level of 10000 pieces in a single class; the rapid die replacement is performed within 20 minutes, so that the method is suitable for small-batch multi-variety conversion production; the blanks are cut and processed by adopting the section bar straight line, so that the processing and forming procedures and the stock of intermediate blanks are reduced, the process flow is reduced, and the raw material loss is reduced; the whole machine is driven and controlled by a servo motor system, and various real-time flexible adjustments can be performed at any time in the production process, including the running speed, the duration and the hydraulic forming pressure;
3. a real-time non-contact infrared temperature control detection system is adopted to accurately control the blank heating temperature in the whole process; different blank heating temperatures can be set according to various special process technology requirements, so that the optimal stamping forming temperature is ensured, and the product quality is improved.
4. The invention has simple operation and convenient disassembly and assembly, and can be popularized in a large scale;
drawings
FIG. 1 is a schematic diagram (I) of an embodiment of the present invention;
FIG. 2 is a schematic diagram (II) of an embodiment of the present invention;
FIG. 3 is a schematic diagram of a structure (II) according to an embodiment of the present invention;
FIG. 4 is a schematic diagram of the assembly structure of a loading frame according to an embodiment of the present invention;
FIG. 5 is a rear view of a loading bay assembly according to an embodiment of the present invention;
FIG. 6 is a cross-sectional view of embodiment A-A of the present invention;
FIG. 7 is a schematic view of a material driving device according to an embodiment of the present invention;
FIG. 8 is a view showing a state of use of the raw material transmission device according to the embodiment of the present invention;
FIG. 9 is a schematic diagram of a material pushing device according to an embodiment of the present invention;
FIG. 10 is a diagram showing the usage state of the material pushing device according to the embodiment of the present invention;
FIG. 11 is a schematic diagram (I) of a material feeding apparatus according to an embodiment of the present invention;
FIG. 12 is a schematic diagram of a material feeding apparatus according to an embodiment of the present invention;
FIG. 13 is a schematic diagram of a material feeding apparatus according to an embodiment of the present invention;
FIG. 14 is a schematic view of a conveying mechanism according to an embodiment of the present invention;
FIG. 15 is a view showing a state of use of the conveying mechanism according to the embodiment of the present invention;
FIG. 16 is a schematic view of a conveying device of a conveying mechanism according to an embodiment of the present invention;
FIG. 17 is a diagram showing a state of use of a conveyor of the conveying mechanism according to the embodiment of the present invention;
FIG. 18 is a schematic view of a positioning plate device of a conveying mechanism according to an embodiment of the present invention;
FIG. 19 is a schematic view showing the structure of a vibrating mechanism of a conveying mechanism according to an embodiment of the present invention;
FIG. 20 is a side view of a vibratory mechanism of a transport conveyor according to an embodiment of the present invention;
FIG. 21 is a side view of a vibratory seat of a conveyor according to an embodiment of the invention;
FIG. 22 is a schematic diagram of a vibration seat of a conveying mechanism according to an embodiment of the present invention;
FIG. 23 is a schematic view of a chute apparatus according to an embodiment of the invention;
FIG. 24 is a schematic view of a chute apparatus according to an embodiment of the invention;
FIG. 25 is a view showing a state of use of the chute device according to the embodiment of the invention;
FIG. 26 is a schematic view of a processing mechanism according to an embodiment of the present invention;
FIG. 27 is a schematic view of a processing mechanism according to an embodiment of the present invention with a protective cover removed;
FIG. 28 is a top view of a machining-mechanism autoloading device according to an embodiment of the present invention;
FIG. 29 is a schematic view of the structure of an automatic feeding device of a processing mechanism according to an embodiment of the present invention;
FIG. 30 is a side view of a liftout mechanism of a process mechanism according to an embodiment of the present invention;
FIG. 31 is a schematic view of a material ejection mechanism of a processing mechanism according to an embodiment of the present invention;
FIG. 32 is a schematic view of a vertical feed adjustment frame of a processing mechanism according to an embodiment of the present invention;
FIG. 33 is a view showing a state of use of a vertical feed adjustment stand of a processing mechanism according to an embodiment of the present invention;
FIG. 34 is a top view of a sizing assembly of a processing mechanism according to an embodiment of the present invention;
FIG. 35 is a schematic view of a sizing assembly device of a processing mechanism according to an embodiment of the present invention;
FIG. 36 is a side view of a sizing assembly of a processing mechanism according to an embodiment of the present invention;
FIG. 37 is a diagram showing the usage state of the temperature control assembly mechanism according to the embodiment of the present invention;
FIG. 38 is a schematic view of a temperature control assembly mechanism according to an embodiment of the present invention;
FIG. 39 is a schematic diagram of a cylinder pushing assembly according to an embodiment of the present invention
FIG. 40 is a top view of a cylinder pushing assembly according to an embodiment of the present invention;
fig. 41 is a side view of a cylinder pushing assembly according to an embodiment of the present invention.
Detailed Description
Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.
Examples: as shown in fig. 1-3, a full-automatic vertical red punching device comprises a feeding frame assembly 50, a raw material transmission device 51, a raw material pushing device 52 and a raw material feeding device 53, wherein the feeding frame assembly is used for conveying workpieces; the raw material transmission device 51 is positioned at the upper end of the feeding frame assembly 50; the raw material pushing device 52 corresponds to the raw material feeding device 53 in position; the raw material pushing device 52 and the raw material feeding device 53 are positioned at the end part of the raw material transmission device 51; the method is characterized in that: the device also comprises a red punching raw material heating furnace 20, a chute device 200, a conveying and conveying mechanism 201 and a processing mechanism 205 which are connected in sequence; the raw material feeding device 53 is used for conveying a workpiece to the red punching raw material heating furnace 20 for heating, and then conveying the workpiece to the conveying and conveying mechanism 201 through the chute device 200, and finally processing and forming the workpiece through the processing mechanism 205; the chute device 200 is fixedly arranged on the side wall of the red-punching raw material heating furnace 20, one end of the chute device 200 corresponds to a discharge hole of the red-punching raw material heating furnace 20, and the other end corresponds to a feed opening of the conveying and conveying mechanism 201; the full-automatic vertical red punching equipment with the vertical structure is small in occupied space and high in automation degree, the personal safety of workers can be guaranteed when the protective cover and the observation groove are arranged for processing, and meanwhile, the working condition of the processing equipment can be observed at any time through the observation groove; simple structure and safe and reliable working process.
As shown in fig. 4-6, the loading frame assembly 50 comprises a frame 111, and a feed box 201 for containing red-punching raw materials is arranged on the frame 111; the material box 201 is used for containing red punching raw materials, and the material box 201 comprises a bottom plate 2-1 and side plates 2-2 fixedly arranged on two sides of the bottom plate 2-1; the bottom plate 2-1 is obliquely arranged between the side plates 2-2, and a lifting fixed plate device 6 and a lifting sliding block device 444 matched with the lifting fixed plate device 6 are also fixedly arranged between the two side plates 2-2; the top of the lifting fixing plate device 6 and the top of the lifting sliding block device 444 are inclined outwards and inwards, and the inclination angles of the lifting fixing plate device and the lifting sliding block device are consistent with the inclination angle of the bottom plate 2-1; the top of the frame 111 is provided with a base 222, the base 222 is provided with a conveyor belt 21 with the inclination angle consistent with that of the lifting fixing plate device 6, and the conveyor belt 21 corresponds to the top of the lifting fixing plate device 6; a driving air cylinder 5 is arranged at the bottom of the frame 111, and the driving air cylinder 5 is connected with a lifting slide block device 444 and drives the lifting slide block device 444 to move up and down so as to lift red punching raw materials to the conveyor belt 21 for conveying; after the structure is adopted, the raw materials can be quickly and orderly conveyed and conveyed to the conveying belt by utilizing the mutual matching between the lifting sliding blocks and the lifting fixing plates; not only can the production efficiency be improved, but also the labor cost and time are saved; the first angle steel 270 corresponds to the position outside the conveyor belt 21; when the red punching raw material is conveyed onto the conveyor belt 21 through the lifting slide block device 444, the first angle steel 270 can prevent the raw material on the conveyor belt 21 from falling off the frame, so that the use safety of the raw material is ensured; meanwhile, a blanking plate 18 is arranged on the base 222 close to the output direction of the red punching raw material, the blanking plate 18 is obliquely and fixedly arranged on the side plate 2-2, and a blanking baffle 19 is fixedly arranged at the outer end of the blanking plate 18; by adopting the scheme, the materials can be orderly conveyed in the conveying process, when the materials are not conveyed according to the preset travel and the track, the materials can slide into the feed box 201 through the blanking plate 18 and then are lifted and conveyed through the lifting slide block device 444, so that the automation degree of conveying the materials is improved; the lifting slide block device 444 comprises a plurality of lifting slide blocks, corresponding to the lifting slide blocks, a plurality of lifting fixing plates corresponding to the lifting slide blocks are arranged on the lifting fixing plate device 6, and the lifting slide blocks and the lifting fixing plates are distributed in a staggered manner; the inclination angle between the top of the lifting slide block device 444 and the lifting fixed plate device 6 and the bottom plate 2-1 is 60-80 degrees; the inclination angle is inclined inwards from the outer side, so that the material can slide to the bottom of the bottom plate 2-1 by means of the self weight of the material, and the material also slides to the first lifting slide block 4-1 because the bottom plate 2-1 and the first lifting slide block 4-1 on the lifting slide block device 444 are on the same inclined plane, and the lifting slide block device 444 is driven to move upwards by the driving cylinder 5, so that the material is driven to be conveyed to the conveying belt 8; the lift slider device 444 includes a first lift slider 4-1, a second lift slider 4-2, a third lift slider 4-3, and a fourth lift slider 4-4; the two sides of the bottom of the first lifting slide block 4-1 are fixedly connected with the two sides of the top of the second lifting slide block 4-2 through a first spacer bush 4-5; the two sides of the bottom of the second lifting slide block 4-2 are fixedly connected with the two sides of the top of the third lifting slide block 4-3 through a second spacer bush 4-6; the two sides of the bottom of the third lifting slide block 4-3 are fixedly connected with the two sides of the top of the fourth lifting slide block 4-4 through a third spacer bush 4-7; the lifting fixing plate device 6 comprises a first lifting fixing plate 6-1, a second lifting fixing plate 6-2, a third lifting fixing plate 6-3 and a fourth lifting fixing plate 6-4; the two sides of the bottom of the first lifting fixing plate 6-1 are fixedly connected with the two sides of the top of the second lifting fixing plate 6-2 through a first connecting shaft 6-5; the first connecting shaft 6-5 is rotationally connected with first sliding wheels 11, a first sliding groove 11-1 is formed in the middle of each first sliding wheel 11, and the first lifting sliding blocks 4-1 are clamped in the first sliding grooves 11-1 in the middle of each first sliding wheel 11; the two sides of the bottom of the second lifting fixing plate 6-2 are fixedly connected with the two sides of the top of the third lifting fixing plate 6-3 through a second connecting shaft 6-6; the second connecting shaft 6-6 is rotatably connected with second sliding wheels 12, a second sliding groove 12-1 is formed in the middle of each second sliding wheel 12, and the second lifting sliding blocks 4-2 are clamped in the second sliding grooves 12-1 in the middle of the two second sliding wheels 12; the two sides of the bottom of the third lifting fixing plate 6-3 are fixedly connected with the two sides of the top of the fourth lifting fixing plate 6-4 through a third connecting shaft 6-7; the third connecting shaft 6-7 is rotatably connected with third sliding wheels 13, a third sliding groove 13-1 is formed in the middle of each third sliding wheel 13, and a third lifting sliding block 4-3 is clamped in the third sliding grooves 13-1 in the middle of each third sliding wheel 13; the two sides of the bottom of the fourth lifting fixing plate 6-4 are fixedly connected with the two sides of the top of the two side plates 2-2 through a fourth connecting shaft 6-8; the fourth connecting shaft 6-8 is rotationally connected with fourth sliding wheels 14, a fourth sliding groove 14-1 is formed in the middle of each fourth sliding wheel 14, and fourth lifting sliding blocks 4-4 are clamped in the fourth sliding grooves 14-1 in the middle of each fourth sliding wheel 14; the driving cylinder 5 is fixedly arranged at the bottom of the first lifting slide block 4-1, and the driving cylinder 5 drives the first lifting slide block 4-1 to slide up and down, so as to drive the second lifting slide block 4-2, the third lifting slide block 4-3 and the fourth lifting slide block 4-4 to slide up and down at the same time; the heights of the first lifting slide block 4-1, the second lifting slide block 4-2, the third lifting slide block 4-3 and the fourth lifting slide block 4-4 are consistent; the heights of the first lifting fixing plate 6-1, the second lifting fixing plate 6-2, the third lifting fixing plate 6-3 and the fourth lifting fixing plate 6-4 are consistent; the upper end of the fourth lifting slide block 4-4 and the upper end of the bottom plate 2-1 are on the same inclined plane, and the fourth lifting slide block 4-4 and the bottom plate 2-1 are mutually attached and connected; correspondingly, the upper end of the fourth lifting fixing plate 6-4 and the upper end of the third lifting sliding block 4-3 are on the same inclined plane, and the fourth lifting fixing plate 6-4 and the third lifting sliding block 4-3 are mutually attached and connected; the upper end of the third lifting fixing plate 6-3 and the upper end of the second lifting sliding block 4-2 are on the same inclined plane, and the third lifting fixing plate 6-3 and the second lifting sliding block 4-2 are mutually attached and connected; the upper end of the second lifting fixing plate 6-2 and the upper end of the first lifting sliding block 4-1 are on the same inclined plane, and the second lifting fixing plate 6-2 and the first lifting sliding block 4-1 are mutually attached and connected; the side plate 2-2 is fixedly provided with an oil tank support frame 16, the oil tank support frame 16 is provided with an oil tank 15, the oil tank 15 is detachably connected to the support frame 16, and the upper end of the side plate 2-2 is fixedly provided with an oil tank protection cover 17 for protecting the safety of the oil tank 15; the base 222 is fixedly provided with a bearing positioning plate 8-1 and a driving motor 8-5; bearing seats 8-2 are fixedly arranged on two sides of the bearing positioning plate 8-1, a driving shaft 8-3 is rotatably connected between the bearing seats 8-2 on two sides, a driving gear 8-4 is fixedly arranged on the driving shaft 8-3, and a conveying belt 21 is connected to the driving gear 8-4; the driving motor 8-5 drives the driving gear 8-4 to rotate, thereby driving the conveyor belt 21 to rotate for conveying the red punching raw material.
As shown in fig. 7 to 8, the raw material transmission device comprises a base 222, a conveyor belt 21 arranged on the base 222, and a motor 22 for driving the conveyor belt 21 to convey; the base 222 is fixedly provided with a positioning strip 223 and a plurality of positioning block devices; the positioning strip 223 is attached to the inner side of the positioning block device; square steel 26 and connecting strips 224 which are symmetrical to the positioning strips 223 in position are also fixedly arranged on the base 222; a feeding groove 27 for conveying red punching raw materials is formed between the positioning strip 223 and the square steel 26 and the connecting strip 224; a material blocking mechanism 250 and a sensing mechanism 260 are sequentially arranged on the base 222; the device is provided with the material blocking mechanism 250, so that red punching raw materials which do not meet the size requirement on the conveyor belt can be always blocked, the pushing device is used for enabling the materials blocked by the material blocking rod to enter the material box through the material pushing opening, and the materials are lifted by the lifting mechanism to be re-fed and conveyed, so that the stability and safety of raw material conveying are improved; meanwhile, the feeding stability can be improved through the sensing mechanism 260, excessive or insufficient workpiece conveying is avoided, and the conveying stability is further improved. Moreover, the feeding transmission device automatically feeds materials, has high automation degree and higher practical value; the positioning block device consists of a positioning block 28; the positioning block 28 is provided with a first angle steel 270 and a second angle steel 271 which are L-shaped; the dam mechanism 250 is positioned between the first angle steel 270 and the second angle steel 271; the sensing mechanism 260 is fixedly arranged at the end part of the second angle steel 271 and is close to the position of the material blocking mechanism 250; the second angle steel 271 corresponds to the square steel 26 in position; the first angle steel 270 corresponds to the connection bar 224; the material blocking mechanism 250 comprises a material blocking screw 24, and a material blocking rod 25 is sleeved on the material blocking screw 24; a limit post 251 is fixedly arranged at the end part of the first angle steel 270, one end of the material blocking rod 25 is rotatably connected to the material blocking screw 24, and the other end of the material blocking rod is propped against the space between the first angle steel 270 and the limit post 251; the height of the material blocking rod 25 can be adjusted according to actual use, and the distance between the material blocking rod 25 and the conveyor belt corresponds to the height of the red punching raw material, so that the red punching raw material conforming to the size can conveniently pass smoothly, and the red punching raw material not conforming to the size is blocked by the material blocking rod 25; the lower end of the blocking rod 25 is provided with a pushing device, and correspondingly, the base 222 is provided with a pushing opening 273 corresponding to the pushing device, and the pushing opening 273 is positioned between the square steel 26 and the connecting strip 224; the pushing device is used for enabling materials blocked by the blocking rod 25 to enter the material box through the pushing opening 273, and the materials are lifted by the lifting mechanism to be re-fed and conveyed; the pushing device comprises a connecting plate 281 arranged on the positioning block 28, a baffle 282 is fixedly arranged at the end part of the connecting plate 281, the baffle 282 is obliquely arranged on the connecting plate 281, and the length of the pushing hole 273 is longer than that of the baffle 282; the inclination angle of the baffle 282 and the connecting plate 281 is 30 to 60 degrees, and the preferred angle is 45 degrees in the embodiment; the induction mechanism 260 comprises a bracket 261, a guide sleeve 262 is fixedly arranged at the top of the bracket 261, a connecting shaft 263 is connected in a rotating way to the guide sleeve 262, and two ends of the connecting shaft 263 are respectively connected with a first induction plate 264 and a second induction plate 265; the first sensing plate 264 and the second sensing plate 265 are oppositely oriented; the bracket 261 is provided with an inductive switch device which is matched with the second inductive plate 265; the first sensing plate 264 corresponds to the position of the feed chute 27; the first sensing plate 264 is fixedly arranged at one end of the connecting shaft 263, the second sensing plate 265 is sleeved at the other end of the connecting shaft 263, and an adjusting bolt 267 is arranged between the second sensing plate 265 and the connecting shaft 263; the inductive switch device comprises a first adjusting plate 266 which is fixedly arranged at the position, close to the guide sleeve 262, of the upper end of the support 261, the first adjusting plate 266 is vertically arranged with the support 261, a second adjusting plate 268 which is in an L shape is vertically connected to the middle of the first adjusting plate 266, an adjusting bolt 269 is arranged at the top of the second adjusting plate 268, the adjusting bolt 269 corresponds to the upper end of the second sensing plate 265, an inductive switch 290 is arranged at the end part of the first adjusting plate 266, and the inductive switch 290 corresponds to the bottom end part of the second sensing plate 265. The bottom of the inductive switch 290 is connected with a conveying wire which is connected with a conveying motor for conveying red punching raw materials; when the detection inductive switch 290 detects the material which does not meet the requirements, the conveying motor can be stopped, and after the fault is removed, the conveying motor is started, so that the normal operation of the red punching raw material conveying device can be controlled in real time, and the use safety and stability are ensured; the end of the first sensing plate 264 has an upward arc structure; the material has a stable transition effect in the conveying process, so that the impact force of the material which does not meet the requirements on the first induction plate 264 is reduced, the service life of the first induction plate 264 is prolonged, and the use safety is ensured; an adjusting plate 291 is fixedly arranged on the square steel 26, and the adjusting plate 291 comprises a connecting part 291-1 and an adjusting part 291-2; the connecting part 291-1 is vertically connected with the adjusting part 291-2, the connecting part 291-1 is positioned in the feeding groove 27 and is attached to the inner side of the square steel 26, the adjusting part 291-2 is connected to the top of the square steel 26, an adjusting groove 291-3 is formed in the adjusting part 291-2, and an adjusting screw 291-4 is arranged on the adjusting groove 291-3; the end part of the connecting part 291-1, which is close to the conveying direction of the material, is in arc transition; since the feeding actuator is inclined to the side of the adjustment plate 291, in order to be suitable for different material transfer and conveyance, convenience and stability of material transfer are improved by providing the adjustment plate 291.
As shown in fig. 9 to 10, the raw material pushing device 52 includes a main fixing frame 3 and a third driving cylinder 32 fixed on the main fixing frame 3; the third driving cylinder 32 penetrates through the main fixing frame 3 and is fixedly connected with a connecting plate 33; two sleeves 34 are fixedly arranged in the main fixing frame 3, and the two sleeves 34 are symmetrically arranged on two sides of the third driving cylinder 32; a guide post 35 is connected in a sliding manner in the sleeve 34, the guide post 35 penetrates through the sleeve 34 to be fixedly connected with the connecting plate 33, a pushing plate 36 is vertically connected to the connecting plate 33, and a baffle plate 37 is vertically connected to the pushing plate 36; a containing cavity 38 for pushing red punching raw materials is formed among the connecting plate 33, the pushing plate 36 and the baffle plate 37, the orientation of the containing cavity 38 is consistent with the conveying direction of the raw materials, and the containing cavity 38 is positioned at the end part of the conveying belt of the raw materials; after the structure is adopted, the third driving cylinder 32 is matched with the connecting plate 33, the pushing plate 36 and the baffle plate 37, so that the raw materials can be quickly and orderly pushed into the guide rail from the conveying belt, the production efficiency can be improved, and the labor cost and time are saved; the working principle of the invention is as follows: the receiving cavity 38 for pushing the red punching raw materials is formed among the connecting plate 33, the pushing plate 36 and the baffle plate 37 and corresponds to the output direction of the conveyor belt 21 of the raw material transmission device 51, the receiving cavity 38 is positioned at the end part of the conveyor belt 21, when the red punching raw materials are sequentially conveyed into the receiving cavity 38 through the conveyor belt 21, the connecting plate 33 is driven by the third driving cylinder 32, the pushing plate 36 and the baffle plate 37 integrally move, the red punching raw materials positioned in the receiving cavity 38 move along the driving shaft direction of the third driving cylinder 32, the moving distance of the third driving cylinder 32 can be adjusted according to actual needs, the third driving cylinder 32 can sequentially push the red punching raw materials positioned in the receiving cavity 38 into adjacent feeding tanks, and the number of the feeding tanks can be selected according to actual needs, so that the processing efficiency of the raw materials can be improved, and the labor cost and time can be saved; the bottom ends of the connecting plate 33, the pushing plate 36 and the baffle plate 37 are on the same horizontal plane; convenience in pushing of the third driving cylinder 32 is facilitated, and meanwhile, safety in use is guaranteed; the pushing plate 36 is vertically connected with a pushing connecting plate 36-1, the pushing connecting plate 36-1 is positioned in the middle of the pushing plate 36, and the pushing connecting plate 36-1 is fixedly connected with the pushing plate 36 and integrally formed; a pushing guide groove 36-2 is formed on the pushing connecting plate 36-1, a plurality of bolts 36-3 are connected to the pushing guide groove 36-2, and the bolts 36-3 are used for adjusting the position of the pushing plate 36 on the connecting plate 33 through the pushing guide groove 36-2; by adopting the scheme, the distance between the pushing plate 36 and the connecting plate 33 can be adjusted, so that raw materials with different specifications can be conveniently pushed, the diversity of raw material processing is provided, and the application range is wide; the top of the striker plate 37 is vertically connected with a striker connecting plate 37-1, and the striker connecting plate 37-1 is fixedly connected with the striker plate 37 and integrally formed; a blocking guide groove 37-2 is formed on the blocking connecting plate 37-1, a plurality of positioning screws 37-3 are connected to the blocking guide groove 37-2, and the positioning screws 37-3 are used for adjusting the position of the blocking plate 37 on the pushing plate 36 through the blocking guide groove 37-2; by adopting the scheme, the distance between the baffle plate 37 and the pushing plate 36 can be adjusted, so that raw materials with different specifications can be conveniently pushed, the diversity of raw material processing is provided, and the application range is wide; the main fixing frame 3 is fixedly provided with an air cylinder jacket 31, and the length of the air cylinder jacket 31 is consistent with that of the third driving air cylinder 32; by adopting the scheme, the use safety of the third driving cylinder 32 can be effectively protected, and the damage to the third driving cylinder 32 caused by external force is avoided; a side fixing plate 39 is fixedly arranged at the position, close to the accommodating cavity 38, of the end part of the connecting plate 33, and the side fixing plate 39 is attached to one side of the main fixing frame 3; by adopting the scheme, the stability and the safety of the third driving cylinder 32 are further improved, and meanwhile, the accommodating area of the accommodating cavity 38 is increased, so that the device is suitable for pushing materials without specifications; the width of striker plate 37 is greater than the distance between pushing plate 36 to side fixed plate 39 for we are pushing the raw materials in-process, and striker plate 37 and raw materials's area of contact increase guarantees the safety of pushing the material.
As shown in fig. 11 to 13, the raw material feeding device 53 includes a main fixing plate 40, and a first driving cylinder 41 and a second driving cylinder 42 fixed to the main fixing plate 40; the driving shafts of the first driving cylinder 41 and the second driving cylinder 42 pass through the main fixing plate 40 to be connected with the first side fixing plate 43 and the second side fixing plate 44, respectively; the top of the first side fixing plate 43 is provided with a first pushing plate 431, the top of the second side fixing plate 44 is provided with a second pushing plate 432, and correspondingly, the top of the main fixing plate 40 is provided with a first track 433 and a second track 434 which are matched with the first pushing plate 431 and the second pushing plate 432; the first pushing plate 431 and the second pushing plate 432 pass through the main fixing plate 40 to be connected with the first track 433 and the second track 434 in an adaptive manner; the first driving cylinder 41 and the second driving cylinder 42 respectively drive the first side fixing plate 43 and the second side fixing plate 44 to move back and forth, so as to push the red punching raw materials placed in the first track 433 and the second track 434 forward and sequentially through the first pushing plate 431 and the second pushing plate 432; by adopting the structure, the first pushing plate and the second pushing plate are driven by the first driving cylinder and the second driving cylinder to push the red punching raw materials on the first track and the second track, and the two tracks are arranged, so that the raw materials can be quickly pushed into the tracks through the pushing mechanism, and the first pushing plate and the second pushing plate are sequentially pushed, thereby improving the conveying working efficiency, improving the production efficiency and saving the labor cost and time; the working principle of the invention is as follows: when the red punching raw materials are sequentially pushed into the first track 433 and the second track 434 by the raw material pushing device 52, the first driving cylinder 41 and the second driving cylinder 42 can sequentially push the red punching raw materials positioned in the first track 433 and the second track 434 into the raw material heating furnace for heating, so that the processing efficiency of the raw materials can be improved, and the labor cost and time are saved; meanwhile, by arranging the first sleeve 45 and the second sleeve 46 and arranging the first guide post 47 and the second guide post 48 in the first sleeve 45 and the second sleeve 46, the stability and the safety of raw material feeding are improved; the main fixing plate 40 is also fixedly provided with a first sleeve assembly and a second sleeve assembly corresponding to the first driving cylinder 41 and the second driving cylinder 42; the first sleeve assembly comprises two first sleeves 45, and the two first sleeves 45 are vertically symmetrically arranged on two sides of the first driving cylinder 41; a first guide post 47 is slidably connected to the first sleeve 45, and the first guide post 47 passes through the first sleeve 45 and is fixedly connected with the first side fixing plate 43; the second sleeve assembly comprises two second sleeves 46, and the two second sleeves 46 are arranged on two sides of the second driving cylinder 42 in an up-down symmetrical manner; a second guide post 48 is slidably connected to the second sleeve 46, and the second guide post 48 passes through the second sleeve 46 to be fixedly connected with the second side fixing plate 44; by arranging the first guide post 47 and the second guide post 48, the driving stability of the first driving cylinder 41 and the second driving cylinder 42 is improved, and the feeding safety is ensured; the upper end of the main fixing plate 40 is provided with an L-shaped bottom plate 435 near the bottoms of the first track 433 and the second track 434, and the bottom plate 435 comprises a horizontal plate 435-1 and a vertical plate 435-2; a supporting rod 436 is fixedly arranged on the vertical plate 435-2, one end of the supporting rod 436 is fixedly arranged in the middle of the vertical plate 435-2, and the other end of the supporting rod is fixedly arranged between the first track 433 and the second track 434; a bottom plate 435 is provided for supporting the first track 433 and the second track 434 to prevent excessive material on the first track 433 and the second track 434, so that deformation of the first track 433 and the second track 434 affects subsequent material conveyance; two guide grooves 437 are formed in the vertical plate 435-2, the two guide grooves 437 are positioned on two sides of the support rod 436, the guide grooves 437 are connected with positioning bolts 438, and the positioning bolts 438 are used for adjusting the supporting force of the horizontal plate 435-1 on the first track 433 and the second track 434 through the guide grooves 437; the first rail 433 and the second rail 434 are fixedly connected and integrally formed; the first track 433 and the second track 434 are in a "W" shape; by adopting the scheme, firstly, the first track 433 and the second track 434 can sequentially push red impact raw materials for feeding, and meanwhile, the connection firmness and the use stability of the first track 433 and the second track 434 are increased, and the use safety is ensured; the length of the first guide post 47 corresponds to the length of the first pusher plate 431; the second guide post 48 corresponds to the length of the second pusher plate 432; the top of the main fixing plate 40 is provided with a connecting plate 444, and the position of the connecting plate 444 close to the first side fixing plate 43 and the second side fixing plate 44 is fixedly provided with a mounting plate 445; the connection plate 444 is fixedly connected with the mounting plate 445 vertically, and the mounting plate 445 is spaced from the first side fixing plate 43 and the second side fixing plate 44; an adjusting groove 447 is formed on the connection plate 444, an adjusting bolt 446 is arranged on the adjusting groove 447, and the adjusting bolt 446 is used for adjusting the movement of the connection plate 444 on the main fixing plate 40 through the adjusting groove 447, and the moving direction is the same as the driving direction of the first driving cylinder 41 and the second driving cylinder 42; the width of the connection plate 444 is 2/3 of the sum of the widths of the first pusher plate 431 and the second pusher plate 432.
As shown in fig. 14 to 22, the conveying conveyance mechanism 201 includes a conveying device 3 and a conveying device 31; the conveying device 3 is connected with the conveying device 31 through a transition plate 32; the conveying device 3 comprises two conveying side walls 301 and a conveying belt 302 positioned between the two conveying side walls 301, two ends of the conveying belt 302 are connected with conveying wheels 303, the conveying wheels 303 are driven by a motor and used for pushing red punching raw materials positioned on the conveying belt 302 to move towards the conveying device 31, the transition plate 32 and the conveying belt 302 are positioned on the same horizontal plane, and the conveying side walls 301 are also provided with top barrier strips 304 used for limiting the top surfaces of the red punching raw materials; the device conveys the red punching raw material workpiece through the conveying device 3, and conveys the red punching raw material workpiece through the conveying device 31, so that the heated workpiece can be orderly conveyed to processing equipment, and meanwhile, the vibrating mechanism 34 is arranged at the bottom of the conveying device, so that the workpiece can be stably and orderly conveyed in the feeding process, and the conveying efficiency is ensured; further improving the conveying stability.
In use, a workpiece lies flat on the feed conveyor 302 and, due to the top barrier 304, the workpiece can be more stably positioned on the conveyor 302. When the workpiece is conveyed on the conveyor belt 302, the workpiece enters the conveyor 31 through the transition plate 32, and in the process, the transition plate 32 and the conveyor belt 302 are on the same horizontal plane, so that stable workpiece conveying is ensured, the top barrier strip 304 plays a limiting role on the top surface of the workpiece, the workpiece is prevented from falling off the conveyor belt 302, and the workpiece conveying is stable. The length of the transition plate 32 can be selected according to actual needs; the conveying side wall 301 is provided with a top adjusting structure 33 for adjusting the orientation of the top barrier rib 304; through the top adjusting structure 33, the direction of the top barrier strip 304 can be conveniently adjusted, so that the device can adapt to the conveying of workpieces with different sizes, and the top barrier strip 304 is in the optimal direction, so that the workpieces are conveyed smoothly.
The top adjusting structure 33 comprises a top connecting plate 33-1 fixedly arranged on the outer side of the conveying side wall 301, the top connecting plate 33-1 is connected with a top adjusting plate 33-2, an upper positioning strip 33-3 in an L shape is vertically fixedly arranged on the top adjusting plate 33-2, a top blocking strip 304 is vertically fixedly arranged at the end part of the upper positioning strip 33-3, the top blocking strip 304 is positioned at the upper end of the conveying belt 302, and a gap is reserved between the top blocking strip 304 and the conveying side wall 301; a top adjusting mechanism for adjusting the vertical distance of the top barrier rib 304 is arranged on the top adjusting plate 33-2; the top adjusting mechanism comprises a top adjusting bolt 33-6, a top adjusting groove 33-7 which is perpendicular to the moving direction of the red punching raw material and takes a strip shape is formed in the top adjusting plate 33-2, the top adjusting bolt 33-6 is arranged in the top adjusting groove 33-7 in a penetrating mode, and the top adjusting plate 33-2 is fixed on the top connecting plate 33-1 through the matching of the top adjusting bolt 7-6 and the top adjusting groove 33-7.
The top adjusting structure 33 can be used for conveniently adjusting the top of the workpiece on the conveyor belt 302, so that the device can adapt to the conveying of the workpieces with different sizes, and the top barrier strip 304 at the top is in the optimal orientation, so that the red punching raw material is conveyed smoothly; the conveying device 31 comprises a guide rail shell 1, wherein the guide rail shell 1 comprises a bottom plate 1-1 and two side plates 1-2, and the bottom plate 1-1 and the two side plates 1-2 are integrally formed; the two side plates 1-2 are respectively positioned at two sides of the bottom plate 1-1, and the bottom plate 1-1 and the two side plates 1-2 form an unsealed feeding groove 1-3 for conveying red punching raw materials; the transition plate 32 is abutted against the end part of the bottom plate 1-1, and the bottom plate 1-1 and the transition plate 32 are on the same horizontal plane, so that the conveying and conveying of red punching raw materials can be more stable; the bottom of the conveyor 31 is provided with a vibrating mechanism 34; a guide notch 103 is formed in the middle of one side of the side plate 1-2, a side wall adjusting fixed block 102 is fixedly arranged on the outer side of the side plate 1-2 near the bottom of the guide notch 103, a positioning plate device 101 is connected to the side wall adjusting fixed block 102, and the positioning plate device 101 is used for adjusting the width of the feeding groove 1-3; by adopting the scheme, the side parts of the feeding grooves 1-3 can be adjusted by arranging the positioning plate device 101, so that the device can feed bar workpieces with more sizes or models, and has high adaptability; the end parts of the side plates 1-2 are also provided with rocker arm adjusting devices 104, the rocker arm adjusting devices 104 are positioned at the rear ends of the positioning plate devices 101, and the rocker arm adjusting devices 104 are positioned at the same side with the positioning plate devices 101; the locating plate device 101 comprises a connecting plate 101-1, a locating plate 101-2 is fixedly arranged at the end part of the connecting plate 101-1, and the locating plate 101-2 is obliquely arranged on the connecting plate 101-1; the inclination angle of the positioning plate 101-2 and the connecting plate 101-1 is 30-60 degrees, and the inclination angle of the embodiment is 45 degrees, so that the red punching material is conveyed more stably and efficiently, the use safety is ensured, and the production efficiency is improved.
The length of the positioning plate 101-2 is 2/3 of the length of the bottom plate 1-1; the connection plate 101-1 is formed with an adjustment hole 101-3; the adjusting hole 101-3 corresponds to the side wall adjusting fixed block 102 in position, and an adjusting bolt 101-4 for adjusting the width of the feeding groove 1-3 is connected to the adjusting hole 101-3; the distance between the positioning plate 101-2 and the side plate 1-2 can be adjusted through the adjusting bolt 101-4, so that the device is suitable for conveying red punching raw materials of different types and specifications; the two ends of the connecting plate 101-1 are of inward arc transition structures, and by adopting the scheme, the material has a stable transition effect in the conveying process, so that the impact force on the connecting plate 101-1 is reduced, the use safety is ensured, and meanwhile, the other end of the connecting plate 101-1 is propped against the rocker arm 106, so that the conveyed material can be stably transited, and convenience is provided for subsequent material processing; the rocker arm adjusting device 104 comprises a locating pin 105, a rocker arm 106 rotatably connected to the locating pin 105, an adjusting block 108 is fixedly arranged on the outer side of the end part of the rocker arm 106, and a rocker arm locating block 107 corresponding to the adjusting block 108 is fixedly arranged on the side plate 1-2; the adjusting block 108 is provided with a guide hole 108-1, the guide hole 108-1 is provided with a bolt 108-2 for adjusting the rotation angle of the rocker arm 106, and the end part of the rocker arm 106 corresponds to the end part of the bottom plate 1-1; by arranging the rocker arm adjusting device 104, the rocker arm 106 on the rocker arm adjusting device 104 is matched with the positioning plate 101-2, so that the stability and the safety of material conveying are facilitated; the vibration mechanism 34 comprises a vibration shaft 2 and a vibration seat 21 sleeved on the vibration shaft 2; the top of the vibration shaft 21 is fixedly provided with a vibration plate 23, the vibration plate 23 is provided with a vibration plate 24, and an electromagnetic valve 25 is arranged in the vibration plate 24; by adopting the structure, the electromagnetic valve 25 vibrates, so that the bottom plate 1-1 of the conveying device 31 vibrates, materials can be stable and orderly in the feeding process, and the transmission efficiency is ensured; further improving the conveying stability; the top of the vibration plate 24 is connected with a conveying device 31, the vibration plate 24 is obliquely arranged on the vibration plate 23, and the inclination angle of the vibration plate 24 is consistent with that of the raw material conveying guide rail; the inclined arrangement is beneficial to the stability of red punching raw material conveying, and meanwhile, the electromagnetic valve 25 is beneficial to driving the vibration of the vibration disc 24, so that the vibration of the conveying guide rail is driven, and the material conveying efficiency is improved; the inclination angle of the vibration disc 24 is 30-60 degrees, and in the embodiment, the inclination angle of the vibration disc 24 is 55 degrees, and the vibration disc can be adjusted according to actual needs; the shock mount 21 includes a base 2221-1 and a retaining ring 21-2; the base 2221-1 and the positioning ring 21-2 are fixedly connected and integrally formed; by adopting the scheme, the structural strength and the firmness of the vibration seat 21 are improved, and meanwhile, the vibration of the vibration mechanism is stable and orderly; the base 2221-1 and the positioning ring 21-2 are in an inverted T shape, the base 2221-1 is connected to the frame, symmetrical connecting parts 21-3 are arranged on the side parts of the positioning ring 21-2, a connecting groove 21-4 is formed between the two connecting parts 21-3, and the connecting groove 21-4 is connected through a bolt 21-5 and used for limiting the up-and-down movement of the vibration shaft 2 in the positioning ring 21-2; the vibration seat 21 is arranged, so that the distance between the vibration disc 24 and the raw material conveying guide rail can be adjusted, and the device is suitable for conveying vibration of different materials, so that bar workpieces with more sizes or models can be fed by the device, and the device is high in adaptability; a guide groove 26 is formed at the bottom of the positioning ring 21-2 and close to the connecting part 21-3, the guide groove 26 and the connecting groove 21-4 are in an inverted T shape, the guide groove 26 is formed, and the length of the guide groove 26 is 1/3 of the circumference of the positioning ring 21-2; by adopting the scheme, the guide groove 26 is arranged, so that the torque of the bolt can be reduced in the process of bolting the connecting part 21-3, the bolt can be conveniently and rapidly adjusted, and the operation is convenient.
As shown in fig. 23-25, the chute apparatus 200 includes a chute support mechanism 40, and a chute apparatus 41 fixedly disposed on the chute support mechanism 40; the chute means 41 comprises a first chute 42 and a second chute 43; the first chute 42 is obliquely arranged on the chute bracket mechanism 40, the first chute 42 is arranged at the upper end of the second chute 43, and the outlet of the first chute 42 is communicated with the inlet of the second chute 43; according to the device, the first chute 42 and the second chute 43 are arranged, materials enter the first chute 42 through the heating furnace and then slide out of the second chute 43, so that workpieces can enter the conveying belt through the transition grooves in order, the workpieces can be stable and orderly, and the conveying efficiency is ensured; further improving the conveying stability.
The working principle of the embodiment is as follows: after the materials are heated by the heating furnace, the materials sequentially fall into the first chute 42, and as the first chute 42 is obliquely arranged on the chute support mechanism 40, the materials fall into the second chute 43 under the action of self weight, the second chute 43 is an arc chute, the width of the second chute 43 is gradually reduced from large to small, the materials automatically adjust the direction in the falling process, slide out along the outlet of the second chute 43 and enter the transition chute 44, and the transition chute 44 and a conveying belt of the materials are horizontally arranged, so that the materials can sequentially enter the conveying belt for the next operation processing; the transverse inclination angle between the first chute 42 and the chute support mechanism 40 is 35-65 degrees, and the transverse inclination angle between the first chute 42 and the chute support mechanism 40 in the scheme is 45 degrees; the longitudinal inclination angle between the first runner 42 and the runner bracket mechanism 40 is 75 ° to 85 °. The longitudinal inclination angle between the first chute 42 and the chute bracket mechanism 40 in this embodiment is 80 °; the first chute 42 comprises a side plate 420, a bottom plate 421, and an outer baffle 422 and an inner baffle 423 arranged on two sides of the bottom plate 421, wherein the upper ends of the outer baffle 422, the inner baffle 423 and the bottom plate 421 are fixedly provided with the side plate 420, and the lower ends of the baffle 422, the inner baffle 423 and the bottom plate 421 are connected with the second chute 43; the height of the inner baffle 423 is higher than that of the outer baffle 422, a horizontal section 423-1 and an inclined section 423-2 are formed on the inner baffle 423, and the upper end of the horizontal section 423-1 and the upper end of the side plate 420 are on the same horizontal plane; the length of the horizontal segment 423-1 is consistent with the width of the outlet of the heating furnace, or the length of the horizontal segment 423-1 is larger than the width of the outlet of the heating furnace, by adopting the scheme, the material can fall into the first chute 42 from the outlet of the heating furnace conveniently; the outer baffle 422 is fixedly provided with a chute guide plate 45 inclining outwards, the upper end of the chute guide plate 45 is higher than the upper end of the horizontal section 423-1, the inclination angle of the chute guide plate 45 and the outer baffle 422 is 95-175 degrees, the inclination angle of the chute guide plate 45 and the outer baffle 422 in the scheme is 155 degrees, a V-shaped-like guide notch is formed between the chute guide plate 45 and the side plate 420 and between the chute guide plate 45 and the inner baffle 423, so that materials from the outlet of the heating furnace can be prevented from falling to the outside of the chute device, the use safety is ensured, and meanwhile, the conveying stability and the safety of the materials are also facilitated; the second chute 43 is an arc chute, and the width of the second chute 43 gradually decreases from large to small; so that the falling material has a buffering and adjusting process, and the workpiece can orderly slide out from the discharge hole of the second chute 43; the outlet of the second chute 43 is connected with a transition groove 44, and the second chute 43 is fixedly connected with the transition groove 44 and integrally formed; by adopting the scheme, the overall strength and the firmness of the chute device are further improved; the width of the transition groove 44 is consistent with the width of the outlet of the second chute 43; the transition groove 44 includes a transition bottom plate 44-1 and transition baffles 44-2 disposed on both sides of the transition bottom plate 44-1; the second chute 43 comprises a chute bottom plate 43-1 and chute baffle plates 43-2 arranged on two sides of the chute bottom plate 43-1, chute cover plates 43-3 are arranged on the chute baffle plates 43-2 on two sides, and the length between the chute cover plates 43-3 and the chute bottom plate 43-1 is 1.5 times of the diameter of the material, so that the material can conveniently pass through the second chute 43, and meanwhile, the material is prevented from being clamped at a discharge hole of the second chute 43, and convenience is provided for subsequent workpiece conveying; the chute bracket mechanism 40 comprises a bracket bottom plate 401, a bracket supporting plate 402 fixedly arranged on the bracket bottom plate 401, a bracket supporting plate 403 fixedly arranged on the bracket supporting plate 402, a chute bracket 404 is fixedly arranged on the other side of the bracket supporting plate 403, and a positioning groove 405 for supporting the first chute 42 is formed among the bracket supporting plate 402, the bracket supporting plate 403 and the chute bracket 404; an adjusting plate 406 is movably connected to the chute support 404, one end of the adjusting plate 406 is propped against the outer baffle 422, and a side adjusting mechanism for adjusting the front-back distance of the adjusting plate 406 on the chute support 404 is arranged on the adjusting plate 406; the side adjusting mechanism comprises a side adjusting bolt 407, a side adjusting groove 408 which is in a strip shape is formed in the adjusting plate 406, the side adjusting bolt 407 is arranged in the side adjusting groove 408 in a penetrating mode, and the adjusting plate 406 is fixed on the chute bracket 404 through the matching of the side adjusting bolt 407 and the side adjusting groove 408; the device is provided with the lateral part adjustment mechanism, can conveniently fix a position first spout 42 on spout bracket mechanism for first spout can carry out the pay-off to the work piece of the red towards raw materials of more sizes or model, makes this device adaptability high.
26-36, the processing mechanism 205 comprises a processing rack 1118, an automatic feeding device 186, a main table plate 180 and a table plate 181 which are fixedly arranged on the processing rack 1118 and are sequentially arranged along the vertical direction, wherein the periphery of the main table plate 180 is fixedly connected with the periphery of the table plate 181 through a connecting shaft 182, and the automatic feeding device 186 is fixedly arranged on the processing rack 1118; a driving cylinder 183 is arranged in the middle of the main platen 180, a punch die device 184 is arranged at the bottom of the driving cylinder 183, a die opening mechanism 185 matched with the punch die device 184 is fixedly arranged on the platen 181 corresponding to the driving cylinder 183, a flat die passing plate 1800 is arranged on the die opening mechanism 185 corresponding to the die opening mechanism, and a feeding hand pushing device 187, a vertical feeding adjusting frame 1801 and a jacking mechanism 188 corresponding to the flat die passing plate 1800 are arranged on the platen 181; the bedplate 181 is also provided with a sizing assembly device 189 and a finished product guide rail assembly 1802; the workpiece is conveyed to a jacking mechanism 188 through an automatic feeding device 186, is jacked to the end part of a flat die passing plate 1800 through mutual matching between the jacking mechanism 188 and a vertical feeding adjusting frame 1801, is pushed to a die opening mechanism 185 through a feeding hand pushing device 187, is finally subjected to stamping forming through a punch die device 184, and after stamping forming, the finished workpiece is lifted, and is conveyed to a finished product guide rail assembly 1802 through a material fixing assembly device 189; a protective cover 1803 is arranged around the main bedplate 180 and the bedplate 181, a plurality of observation grooves 1804 are formed on the protective cover, the protective cover 1803 is detachably connected to the main bedplate 180 and the bedplate 181, equipment is convenient to overhaul and maintain, the personal safety of workers can be ensured during the arrangement and processing by arranging the protective cover 1803 and the observation grooves 1804, and meanwhile, the working condition of the processing equipment can be observed at any time through the observation grooves; the structure is simple, and the working process is safe and reliable; the automatic feeding device 186 comprises a conveying guide rail 1805, the feeding hand pushing device 187 is matched with the conveying guide rail 1805, the feeding hand pushing device 187 comprises a base 6, a feeding hand seat 61 fixedly arranged on the base 6, a driving cylinder 62 is fixedly arranged on the feeding hand seat 61, the driving cylinder 62 penetrates through the feeding hand seat 61 to be connected with a sliding block 63, two sleeves 64 are fixedly arranged on the feeding hand seat 61, the two sleeves 64 are positioned at the upper end of the driving cylinder 62 and symmetrically distributed, guide posts 65 are connected in a sliding manner in the sleeves 64, the guide posts 65 penetrate through the sleeves 64 and are fixedly connected with the sliding block 63, a push rod 66 is connected to the sliding block 63, a push rod positioning plate 67 for pushing materials is fixedly arranged at the end part of the push rod 66, and the push rod positioning plate 67 is positioned above the conveying guide rail 1805; one side of the feeding hand seat 61 is fixedly provided with a sensing fixing plate 68 corresponding to the position of the driving cylinder 62, the sensing fixing plate 68 is provided with a sensing switch 69 matched with the driving cylinder 62, and when a material on a conveying channel meets the conveying requirement, the sensing switch 69 is used for driving the cylinder 62 to move, so that the push rod positioning plate 67 is used for pushing the material; the inductive switch 69 is connected with an inductive controller, is driven by a power source, detects the temperature state of the material on the material conveying channel through the inductive controller, sends an electric signal to the controller, performs analysis and comparison through the controller, sends a control signal to the corresponding power source according to the result, and enables the material on the material conveying channel to be intermittently output in sequence through the inductor; unqualified materials are removed through the removing device, and control signals are sent to the power source through the sensor, so that the power source is driven, the push rod positioning plate 67 is used for pushing the materials, the unqualified materials are prevented from being conveyed, the power source can be an air cylinder or a motor, and the like, the specific structure is not limited, and the power source in the embodiment is the driving air cylinder 62.
After the structure is adopted, the raw materials can be quickly and orderly pushed into the processing mould from the transmission belt by utilizing the mutual matching of the driving cylinder 62, the sliding block 63, the push rod 66 and the push rod positioning plate 67, so that automatic conveying of the materials is realized, an automatic basis is provided for subsequent processing, meanwhile, by arranging the inductive switch, whether the conveyed materials meet the processing requirement or not can be detected by the inductive switch, the processing defective products of the materials are reduced, the working efficiency is improved, the production cost is greatly reduced, and the labor cost and time are saved; the length of the driving cylinder 62 is longer than that of the guide post 65, so that convenience in pushing of the driving cylinder 62 is facilitated, and meanwhile, the use safety is ensured; the slide block 63 is provided with a guide groove 63-1 along the length direction thereof, the push rod 66 is slidably connected in the guide groove 63-1, the push rod 66 is provided with an adjusting groove 66-1, the adjusting groove 66-1 is connected with a plurality of bolts 66-2, and the bolts 66-2 are used for adjusting the position of the push rod 66 on the slide block 63 through the adjusting groove 66-1; the length of the adjusting groove 66-1 is 1/2 of the length of the push rod 66, by adopting the scheme, the position of the push rod 66 on the sliding block 63 can be adjusted, so that raw materials with different specifications can be conveniently pushed, the diversity of raw material processing is provided, and the application range is wide; the end part of the guide post 65 is fixedly provided with a connecting plate 601, the middle part of the connecting plate 601 is provided with a limit nut 604, a limit rod 602 is rotationally connected to the limit nut 604, a limit buffer 603 corresponding to the limit rod 602 is arranged on the feeding hand seat 61 correspondingly, and the limit buffer 603 is positioned between the two sleeves 64; by adopting the scheme, the moving distance of the guide post 65 can be adjusted, so that raw materials with different specifications can be conveniently pushed, the diversity of raw material processing is provided, and the application range is wide; the push rod positioning plate 67 is provided with a clamping opening 67-1 for pushing materials, the direction of the clamping opening 67-1 is consistent with the driving direction of the driving cylinder 62, so that convenience and rapidness are realized when materials are conveyed from the conveying channel, meanwhile, the push rod positioning plate 67 and the bottom of the push rod 66 are positioned on the same horizontal plane, the width limitation of the push rod positioning plate 67 due to the fact that the push rod positioning plate 67 needs to extend into the lower part of the conveying channel is reduced as much as possible, the clamping opening 67-1 is a V-shaped body, and the inner side of the clamping opening 67-1 is in circular arc transition; the bearing area of the clamping opening 67-1 and the materials can be further increased, and the conveying stability and safety of the materials are reduced; the ejection mechanism 188 comprises an ejection sleeve 8, an ejection cylinder 81 and an ejection positioning plate 82; the ejection positioning plate 82 and the ejection cylinder 81 are respectively and fixedly arranged at the upper end and the lower end of the ejection sleeve 8; the device further comprises a jacking device 800 for receiving the workpiece from a discharge hole of the conveying device, a jacking shaft 83 is connected to the jacking cylinder 81, the jacking shaft 83 passes through the jacking sleeve 8 and the jacking positioning plate 82 to prop against the jacking device 800, and the jacking device 800 is driven to lift.
When the automatic stamping device is used, a workpiece falls onto the shelving plate 805 of the jacking device 800 through the discharge hole of the conveying device, and because the first adjusting plate 113 is attached between the shelving plate 805 and the flat die passing plate 1800, the workpiece can be stably positioned on the shelving plate 805, after the structure is adopted, the workpiece is matched with the sensing device, when the temperature of red stamping raw materials falling onto the shelving plate 805 does not meet the processing requirement, the sensing device sends a signal to drive the pushing assembly to push the red stamping raw materials into the waste collecting box, when the red stamping raw materials falling onto the shelving plate 805 meet the processing requirement, the workpiece is clamped into a die to be processed and molded through the jacking cylinder 81 to be matched with the clamping device, the automatic stamping device is convenient and quick, the automation degree is high, the production efficiency is improved, the labor cost and the time are saved, and the length of the shelving plate 805 can be selected according to the actual requirement; at least one sliding groove 801 is formed in the middle of the ejection sleeve 8, and a limiting rod 802 matched with the sliding groove 801 is fixedly arranged on the ejection shaft 83 corresponding to the sliding groove, and the limiting rod 802 is connected in the sliding groove 801 in a sliding way; the two sliding grooves 801 are symmetrically arranged on two sides of the ejection sleeve 8; the lifting stability of the material lifting mechanism is further improved, the length of the sliding groove 801 is consistent with the lifting height of the material lifting device 800, the shelving plate 805 of the material lifting device 800 corresponding to the bottom of the sliding groove 801 is in an initial state, a workpiece which does not meet the processing requirement is pushed to fall into the waste collection box from the shelving plate 805 through the material pushing assembly, the shelving plate 805 of the material lifting device 800 corresponding to the top of the sliding groove 801 is in a maximum lifting state, the workpiece which meets the processing requirement is driven upwards through the material lifting cylinder 81, and the workpiece is clamped into a die for processing and forming; the material jacking device 800 comprises a limiting plate 803, a supporting block 804 arranged on the limiting plate 803, a shelving plate 805 for shelving a workpiece is fixedly arranged on the supporting block 804, and the limiting plate 803, the supporting block 804 and the shelving plate 805 are fixedly connected and integrally formed; by adopting the scheme, the overall structural strength and the firmness of the material ejection device 800 are further improved, and the stability of workpiece conveying is also improved; the support block 804 is in an L shape, and comprises an adjusting plate 804-1 and a support plate 804-2; the adjusting plate 804-1 is provided with a top adjusting mechanism for adjusting the front-rear spacing of the rest plate 805; the top adjusting mechanism comprises an adjusting bolt 806, a long-strip-shaped top adjusting groove 807 parallel to the moving direction of the red punching raw material is formed in the adjusting plate 804-1, the adjusting bolt 806 is arranged in the top adjusting groove 807 in a penetrating mode, and the adjusting plate 804-1 is fixed on the limiting plate 803 through the matching of the adjusting bolt 806 and the top adjusting groove 807; the front and rear rest plates 805 can be conveniently adjusted through the top adjusting mechanism, so that the device can adapt to the transportation of workpieces with different sizes, and the rest plates 805 at the top are in the optimal orientation, so that the red punching raw materials are smoothly transported; a guide opening 84 is formed on the limiting plate 803, the ejection shaft 83 is sleeved in the guide opening 84, and a side part adjusting mechanism for adjusting the distance of the limiting plate 803 on the ejection shaft 83 is arranged on the limiting plate 803; the side adjusting mechanism comprises a side adjusting bolt 85, and the side adjusting bolt 85 penetrates through the guide opening 84 to limit the position of the limiting plate 803 on the ejector shaft 83; the side adjusting mechanism can be used for conveniently adjusting the upper and lower shelving plates 805, so that the device can adapt to the transportation of workpieces with different sizes, and the shelving plates 805 at the top are in the optimal orientation, so that the red punching raw materials are transported smoothly; the supporting blocks 804 and the rest plates 805 are obliquely arranged, and the inclination angles of the supporting blocks are consistent with the conveying direction of the workpieces; the inclination angle of the supporting block 804 and the shelving plate 805 is 75-85 degrees, and the inclination angle of the supporting block 804 and the shelving plate 805 is 80 degrees, so that when the material on the shelving plate 805 is lifted to the maximum height by the material ejection cylinder 81, the material rolls forwards to the workpiece passing plate under the action of self weight, and then the workpiece is clamped into a processing mold to be processed by a workpiece clamping device, so that the red punching material is conveyed more stably and efficiently, the use safety is ensured, and the production efficiency is improved; the vertical feeding adjusting frame 1801 comprises an adjusting seat device 11 and an adjusting induction device 110 fixedly arranged on the adjusting seat device 11; the adjusting induction device 110 comprises an adjusting sleeve 111, an adjusting shaft 112 is rotatably connected to the adjusting sleeve 111, and a first adjusting plate 113 and a second adjusting plate 114 are respectively connected to two ends of the adjusting shaft 112; the adjusting sleeve 111 is provided with an adjusting induction switch device which is matched with the second adjusting plate 114; the first adjusting plate 113 is fixed on the upper end of the adjusting shaft 112, the first adjusting plate 113 is positioned between the rest plate 805 and the flat die passing plate 1800, and the top end of the first adjusting plate 113 is propped against the side edge of the flat die passing plate 1800
By adopting the scheme, the invention detects whether the red impact workpiece meets the processing requirement through the adjusting induction switch, under the premise, when the workpiece meeting the requirement is positioned on the shelving plate of the jacking device, the first adjusting plate 113 is abutted against the shelving plate, the shelving plate of the jacking device is lifted along the height of the first adjusting plate, the workpiece is further driven to be lifted to the passing plate, the workpiece is clamped and pushed to the processing position of the die through the workpiece clamping device, and when the workpiece not meeting the requirement is positioned on the shelving plate of the jacking device, the first adjusting plate is abutted against the passing plate, so that a gap is reserved between the workpiece placed on the shelving plate and the first adjusting plate, and a pushing shaft of the pushing device is convenient to reject the workpiece not meeting the requirement from the side surface, thereby ensuring the use safety and improving the production efficiency; the first adjusting plate 113 is fixedly arranged at one end of the adjusting shaft 112, the second adjusting plate 114 is sleeved at the other end of the adjusting shaft 112, and an adjusting bolt 117 is arranged between the second adjusting plate 114 and the adjusting shaft 112; the position relationship between the first adjusting plate 113 and the second adjusting plate 114 can be adjusted through the adjusting bolt 117, so that the infrared punching device is suitable for adjusting red punching raw materials without specification; the adjusting induction switch device comprises a first fixed plate 118 fixedly arranged at the end part of the adjusting sleeve 111, a second fixed plate 119 is vertically connected to the first fixed plate 118, and the first fixed plate 118 is fixedly connected with the second fixed plate 119 and integrally formed; the side of the second fixing plate 119 is fixedly provided with a third fixing plate 1110 in an L shape, and the third fixing plate 1110 is vertically arranged with the adjusting sleeve 111; the bottom of the third fixing plate 1110 is provided with an adjusting bolt 1111, the adjusting bolt 1111 corresponds to the lower end of the second adjusting plate 114, the top of the second fixing plate 119 is provided with a sensing switch 1112, and the sensing switch 1112 corresponds to the top end of the second adjusting plate 114; the inductive switch 1112 is connected with a conveying wire which is connected with a conveying motor for conveying red punching raw materials; when the detection inductive switch 1112 detects whether the material on the resting plate 805 of the jacking device is a qualified product, the first adjusting plate 113 is positioned at a corresponding position through the inductive switch 1112, so that the safety and stability of material rejection or jacking are ensured; an adjustment bolt 1111 is rotatably provided at the bottom of the third fixing plate 1110, and the top of the adjustment bolt 1111 corresponds to the center of the second adjustment plate 114. The sensitivity of contact between the adjusting bolt 1111 and the second adjusting plate 114 is further improved, so that the red punching raw material is transported more safely; the adjusting seat device 11 comprises an adjusting base 1113 with an L shape, the adjusting base 1113 comprises a horizontal adjusting plate 1113-1 and a vertical adjusting plate 1113-2, an adjusting supporting plate 1114 is connected to the vertical adjusting plate 1113-2, an adjusting sleeve 111 is fixedly arranged on the adjusting supporting plate 1114, and an upper adjusting mechanism for adjusting the vertical distance of the vertical adjusting plate 1113-2 on the adjusting supporting plate 1114 is arranged on the vertical adjusting plate 1113-2; the upper adjusting mechanism comprises an upper adjusting bolt 1115, an upper adjusting groove 1116 which is perpendicular to the moving direction of the red punching raw material and takes a strip shape is formed in the vertical adjusting plate 1113-2, the upper adjusting bolt 1115 penetrates through the upper adjusting groove 1116 and abuts against the adjusting support plate 1114, and the vertical adjusting plate 1113-2 is fixed on the adjusting support plate 1114 through the cooperation of the upper adjusting bolt 1115 and the upper adjusting groove 1116; by arranging the upper adjusting mechanism, the upper and lower distances of the first adjusting plates 113 positioned on the conveying groove can be conveniently adjusted, so that the device can adapt to the conveying and rejecting of workpieces with different sizes, and the first adjusting plates 113 at the top are in the optimal orientation, so that red punching raw materials meeting the requirements are smoothly conveyed and rejected; the first adjusting plate 113 is attached to the placing plate 805 or the flat die passing plate 1800 by rotating the adjusting shaft 112, so that the first adjusting plate 113 can be switched freely in the process of removing or pushing red punching raw materials, and convenience is provided; the top end of the first adjusting plate 113 and the upper end of the flat die passing plate 1800 are on the same horizontal plane, and by adopting the scheme, when a workpiece is pushed to the flat die passing plate 1800 through the shelving plate 805 of the lifting mechanism, the workpiece clamping device can conveniently clamp and is convenient to operate; the fixed material assembly device 189 comprises a fixed material base 5, a fixed material seat 51 fixed on the fixed material base 5, a fixed material driving cylinder 52 fixed on the fixed material seat 51, a guide shaft fixing block 53 penetrating through the fixed material seat 51, a positioning block fixing plate 54 connected with the guide shaft fixing block 53, a material tray 55 fixed on the upper end of the positioning block fixing plate 54, and a positioning plate 56 fixed on the front part of the positioning block fixing plate 54.
After the structure is adopted, the fixed material driving cylinder 52 is utilized to be matched with the guide shaft fixing block 53, the positioning block fixing plate 54 and the positioning plate 56, so that raw materials can be quickly and orderly pushed from a conveying belt to a processing die, automatic conveying of the materials is realized, meanwhile, after the processing die is used for stamping, processed products can be safely and accurately received through the receiving disc 55, the working efficiency is improved, and the production cost is greatly reduced; the positioning block fixing plate 54 is a T-shaped body, and the positioning block fixing plate 54 is connected with the receiving tray 55 through a hopper fixing plate 503; by adopting the scheme, the overall firmness of the fixed material assembly device is improved, and the safety of receiving materials by the material receiving disc 55 is also improved; the receiving tray 55 is positioned at the upper end of the positioning plate 56, and the center of the receiving tray 55 corresponds to the foremost end of the positioning plate 56; by adopting the scheme, after the positioning plate 56 pushes the raw materials to the processing die for stamping, the raw materials are extruded and molded by the processing die, and the molded products can conveniently fall on the receiving tray 55, so that the working efficiency is improved, the production cost is greatly reduced, gaps are reserved between the receiving tray 55 and the positioning plate 56, and the distance of the gaps corresponds to the length of the hopper fixing plate 503; the angle between the receiving disc 55 and the fixed material driving cylinder 52 is 30-60 degrees, preferably 45 degrees, and the opening of the receiving disc 55 is opposite to the driving direction of the fixed material driving cylinder 52; the product which is convenient to fall in the receiving tray 55 can conveniently fall on the discharging device; the opening of the material receiving disc 55 is opposite to the driving direction of the fixed material driving cylinder 52, the opening of the material receiving disc 55 faces to the finished product guide rail assembly 1802, and after the material receiving disc 55 receives materials, the material receiving disc 55 is positioned above the finished product guide rail assembly 1802, and the finished product guide rail assembly 1802 is obliquely arranged on the bedplate 181; the fixed material seat 51 is also fixedly provided with two positioning sleeves 57, the two positioning sleeves 57 are positioned at two sides of the fixed material driving cylinder 52 and are symmetrically distributed, the positioning sleeves 57 are slidably connected with guide shafts 58, and the guide shafts 58 penetrate through the positioning sleeves 57 and are fixedly connected with the guide shaft fixing blocks 53; by adopting the scheme, the stability of material conveying is improved; a side plate 51-1 is fixedly arranged on one side of the fixed material seat 51, and a cylinder protection plate 51-2 corresponding to the fixed material driving cylinder 52 in position is fixedly arranged at the end part of the side plate 51-1; the length of the side plate 51-1 is 2 times of the length of the fixed material driving cylinder 52, and the side plate 51-1 and the cylinder protection plate 51-2 are used for protecting the use safety of the fixed material driving cylinder 52; a positioning fixing plate 501 corresponding to the position of the fixed material driving cylinder 52 is fixedly arranged on the fixed material seat 51, the positioning fixing plate 501 is positioned at the lower end of the positioning sleeve 57, a fixed material induction switch 502 matched with the fixed material driving cylinder 52 is arranged on the positioning fixing plate 501, and when the material positioned on the conveying channel meets the conveying requirement, the fixed material induction switch 502 is used for moving the fixed material driving cylinder 52, so that the positioning plate 56 is used for pushing the material; meanwhile, the fixed material induction switch 502 can detect whether the material receiving disc 55 receives the punched workpiece, so that the situation that the workpiece is damaged by secondary punching caused by the fact that the workpiece is not dropped after punching is avoided, and the service life is long; the positioning plate 56 is provided with a positioning clamping opening 56-1 for pushing materials, and the orientation of the positioning clamping opening 56-1 is consistent with the driving direction of the fixed material driving cylinder 52. The material is convenient and quick to use when being conveyed from the conveying channel, meanwhile, the locating clamping opening 56-1 is a V-shaped body, the inner side of the locating clamping opening 56-1 is arc-shaped, the bearing area of the clamping opening 67-1 and the material can be further increased, and the conveying stability and safety of the material are reduced.
As shown in fig. 37-41, the rejecting mechanism comprises a cylinder pushing assembly 162 corresponding to the rest plate 805 and a temperature control assembly mechanism 163, wherein the temperature control assembly mechanism 163 is positioned above the cylinder pushing assembly 162; a blanking groove 164 which is opposite to the air cylinder pushing assembly 162 is fixed on the base 16, the temperature control assembly mechanism 163 comprises a temperature control fixing frame 10 sleeved on the vertical support column 161, a temperature control fixing plate 101 is fixedly arranged on the temperature control fixing frame 10, a temperature control clamping seat fixing plate 102 is connected to the temperature control fixing plate 101, a temperature control clamping seat 103 is rotatably connected to the temperature control clamping seat fixing plate 102, and an induction device 104 corresponding to the ejection mechanism 160 is sleeved on the temperature control clamping seat 103; after the structure is adopted, through the mutual matching among the material ejection mechanism 160, the air cylinder material pushing assembly 162 and the temperature control assembly mechanism 163, when the temperature of the red punching raw material falling on the shelving plate 805 of the material ejection mechanism 160 does not meet the processing requirement, the temperature control assembly mechanism 163 sends a signal to drive the air cylinder material pushing assembly 162 to move, and the red punching raw material is pushed into the blanking groove 164 through the material pushing shaft 902 and the material pushing block 903 at the front end of the air cylinder material pushing assembly 162, so that the automatic material pushing device is convenient and quick, has high automation degree, can improve the production efficiency, and saves the labor cost and time; the temperature control clamping seat fixing plate 102 is rotationally connected with the temperature control fixing plate 101; the angle of the temperature control clamping seat fixing plate 102 on the bracket is convenient to adjust, and the adjustment of the sensing device 104 is convenient; the temperature control clamp holder fixing plate 102 is an F-shaped body and comprises a connecting plate 102-1, a first guide plate 102-2 and a second guide plate 102-3, wherein the first guide plate 102-2 and the second guide plate 102-3 are fixedly arranged at the end part of the connecting plate 102-1; a guide groove 102-4 is formed between the first guide plate 102-2 and the second guide plate 102-3, and a connecting arm of the temperature control clamp seat 103 is rotatably connected in the guide groove 102-4 and is used for adjusting the irradiation angle of the sensing device 104; by adopting the scheme, the stability and the firmness of the connection between the sensing device 104 and the temperature control clamping seat fixing plate 102 are improved, and the use safety of the sensing device 104 is further ensured; the connecting plate 102-1, the first guide plate 102-2 and the second guide plate 102-3 are fixedly connected and integrally formed; the integral firmness of the temperature control clamp seat fixing plate 102 is improved, and meanwhile, the outer side of the joint of the connecting plate 102-1 and the first guide plate 102-2 is in arc transition; the scratch to personnel or other objects in the rotating process of the temperature control clamp holder fixing plate 102 can be effectively avoided, and the use convenience is improved; the rotation angle between the temperature control clamping seat 103 and the guide groove 102-4 is 0-180 degrees, and the rotation angle can be selected according to the specific position of the workpiece; the temperature control fixing frame 10 comprises a temperature control left bracket 105 and a temperature control right bracket 106; a protruding block 107 is arranged on one side of the temperature control left bracket 105, a groove 108 matched with the protruding block 107 is formed on the temperature control right bracket 106 corresponding to the protruding block, the protruding block 107 is in matched clamping connection with the groove 108, and the temperature control fixing bracket 10 is positioned on the bracket through a temperature control adjusting mechanism on the other side of the temperature control left bracket 105 and the temperature control right bracket 106; the temperature control fixing frame is detachably connected with the bracket, so that the temperature control fixing frame can be suitable for positioning brackets with different specifications, and meanwhile, the sensing device can be suitable for detecting the temperature of workpieces with different heights, and the application range is wide; the protruding block 107 has an arc shape, and the groove 108 has an arc shape correspondingly; by adopting the scheme, the clamping connection of the temperature control left bracket 105 and the temperature control right bracket 106 is more convenient, and the assembly efficiency of the temperature control left bracket 105 and the temperature control right bracket 106 is further improved; the temperature control adjusting mechanism comprises a temperature control adjusting screw 109, a connecting hole 1001 is formed in the end of the temperature control left bracket 105, the temperature control adjusting screw 109 penetrates through the connecting hole 1001 to be connected to the temperature control right bracket 106, and the temperature control adjusting screw 109 is used for fixing the temperature control left bracket 105 and the temperature control right bracket 106 on the brackets; by arranging the temperature control adjusting mechanism, the temperature control left bracket 105 and the temperature control right bracket 106 can be conveniently fixed on the brackets, so that the device can adapt to the transportation of workpieces with different heights, the sensing device 104 is in the optimal orientation, and the red punching raw materials can be detected more conveniently and accurately; the temperature control adjusting screw 109 is embedded in the connecting hole 1001, so that the overall attractive appearance is better, and meanwhile, the condition that the temperature control adjusting screw 109 is exposed outside is avoided, so that the red punching material is conveyed more stably and efficiently, the use safety is ensured, and the production efficiency is improved; the cylinder pushing assembly 162 comprises a cylinder fixing frame 9 sleeved on the vertical support column 161, a rejecting cylinder 90 is fixedly arranged on the cylinder fixing frame 9, a cylinder front fixing plate 91 is connected to a driving shaft 94 of the rejecting cylinder 90, and a cylinder pushing mechanism 900 is detachably connected to the cylinder front fixing plate 91; after the structure is adopted, the pushing block on the driving shaft is driven by the removing cylinder, so that unqualified workpieces are pushed into the blanking groove 164, the automatic feeding device is convenient and quick, the degree of automation is high, the processing precision and the production efficiency are improved, and the labor cost and the time are saved; the two driving shafts 94 are symmetrically arranged on two sides of the front cylinder fixing plate 91; the stability of driving and pushing is further improved, and the use safety is ensured; the cylinder pushing mechanism 900 comprises a pushing fixed plate 901, a pushing shaft 902 and a pushing block 903; one end of a pushing shaft 902 is vertically and fixedly arranged in the middle of a pushing fixed plate 901, the other end of the pushing shaft 902 is fixedly connected with a pushing block 903, the width of the pushing block 903 is consistent with the outer diameter of the pushing shaft 902, and the length of the pushing block 903 is 2 times of the outer diameter of the pushing shaft 902; the cylinder fixing frame 9 comprises a cylinder left bracket 92 and a cylinder right bracket 93; a bulge 95 is arranged on one side of the left cylinder bracket 92, a notch 96 matched with the bulge 95 is formed on the right cylinder bracket 93 correspondingly, the bulge 95 is matched and clamped with the notch 96, and the other sides of the left cylinder bracket 92 and the right cylinder bracket 93 fix the cylinder fixing frame 9 on the bracket through an adjusting mechanism; by adopting the scheme, the cylinder fixing frame 9 can be suitable for positioning brackets with different specifications, and meanwhile, the cylinder pushing mechanism 900 can be suitable for pushing workpieces with different heights, so that the application range is wide; the convex portion 95 has an arc shape, and the notch 96 has an arc shape in response thereto; by adopting the scheme, the clamping connection of the left cylinder bracket 92 and the right cylinder bracket 93 is more convenient, and the assembly efficiency of the left cylinder bracket 92 and the right cylinder bracket 93 is further improved; the adjusting mechanism comprises an adjusting screw 97, an adjusting hole 98 is formed in the end portion of the left cylinder bracket 92, and the adjusting screw 97 penetrates through the adjusting hole 98 and is connected to the right cylinder bracket 93 and is used for fixing the left cylinder bracket 92 and the right cylinder bracket 93 on the brackets; through the adjusting mechanism, the left bracket 92 and the right bracket 93 of the air cylinder can be conveniently fixed on the bracket, so that the device can adapt to the transportation of workpieces with different heights, and the pushing block 903 at the top is in the optimal orientation, so that the red punching raw materials are smoothly removed; the adjusting screw 97 is embedded in the adjusting hole 98; the whole aesthetic degree is better, simultaneously, has also avoided adjusting screw 97 to expose in the outside for red towards the transport of material is more stable and high-efficient, has guaranteed safe in utilization, has improved production efficiency.

Claims (8)

1. The full-automatic vertical red punching equipment comprises a feeding frame assembly (50), a raw material transmission device (51), a raw material pushing device (52) and a raw material feeding device (53) which are used for conveying red punching raw materials; the raw material transmission device (51) is positioned at the upper end of the feeding frame assembly (50); the raw material pushing device (52) corresponds to the raw material feeding device (53); the raw material pushing device (52) and the raw material feeding device (53) are positioned at the end part of the raw material transmission device (51); the method is characterized in that: the device also comprises a red punching raw material heating furnace (20), a chute device (200), a conveying mechanism (201) and a processing mechanism (205) which are connected in sequence; the chute device (200) is fixedly arranged on the side wall of the red-punching raw material heating furnace (20), one end of the chute device (200) corresponds to a discharge hole of the red-punching raw material heating furnace (20), the other end corresponds to a feeding opening of the conveying and conveying mechanism (201), and the chute device (200) comprises a chute bracket mechanism (40) and a chute component (41) fixedly arranged on the chute bracket mechanism (40); the chute means (41) comprises a first chute (42) and a second chute (43); the first chute (42) is obliquely arranged on the chute bracket mechanism (40), the first chute (42) is arranged at the upper end of the second chute (43), and the outlet of the first chute (42) is communicated with the inlet of the second chute (43); the transverse inclination angle between the first sliding groove (42) and the sliding groove support mechanism (40) is 35-65 degrees, and the longitudinal inclination angle between the first sliding groove (42) and the sliding groove support mechanism (40) is 75-85 degrees; the first sliding groove (42) comprises a side plate (420), a bottom plate (421), and an outer baffle (422) and an inner baffle (423) which are arranged on two sides of the bottom plate (421), wherein the side plate (420) is fixedly arranged at the upper ends of the outer baffle (422), the inner baffle (423) and the bottom plate (421), and the lower ends of the outer baffle (422), the inner baffle (423) and the bottom plate (421) are connected with a second sliding groove (43); the second sliding groove (43) is an arc-shaped sliding groove, and the width of the second sliding groove (43) is gradually reduced from large to small; a transition groove (44) is connected at the outlet of the second chute (43), and the second chute (43) is fixedly connected with the transition groove (44); the width of the transition groove (44) is consistent with the width of the outlet of the second chute (43); the transition groove (44) comprises a transition bottom plate (44-1) and transition baffles (44-2) arranged on two sides of the transition bottom plate (44-1); the second chute (43) comprises a chute bottom plate (43-1) and chute baffles (43-2) arranged on two sides of the chute bottom plate (43-1), and chute cover plates (43-3) are arranged on the chute baffles (43-2) on two sides; the height of the inner baffle plate (423) is higher than that of the outer baffle plate (422).
2. The fully automatic vertical red punching device according to claim 1, wherein: the inner baffle (423) is provided with a horizontal section (423-1) and an inclined section (423-2), and the upper end of the horizontal section (423-1) and the upper end of the side plate (420) are on the same horizontal plane; the outer baffle (422) is fixedly provided with a chute guide plate (45) which is inclined outwards, the upper end of the chute guide plate (45) is higher than the upper end of the horizontal section (423-1), and the inclination angle between the chute guide plate (45) and the outer baffle (422) is 95-175 degrees; the chute bracket mechanism (40) comprises a bracket bottom plate (401), a bracket supporting plate (402) fixedly arranged on the bracket bottom plate (401), a bracket supporting plate (403) fixedly arranged on the bracket supporting plate (402), a chute bracket (404) is fixedly arranged on the other side of the bracket supporting plate (403), and a positioning groove (405) for supporting the first chute (42) is formed among the bracket supporting plate (402), the bracket supporting plate (403) and the chute bracket (404); an adjusting plate (406) is movably connected to the chute support (404), one end of the adjusting plate (406) is propped against the outer baffle (422), and a side adjusting mechanism for adjusting the front-back distance of the adjusting plate (406) on the chute support (404) is arranged on the adjusting plate (406); the side adjusting mechanism comprises a side adjusting bolt (407), the adjusting plate (406) is provided with a strip-shaped side adjusting groove (408), the side adjusting bolt (407) is arranged in the side adjusting groove (408) in a penetrating mode, and the adjusting plate (406) is fixed on the chute bracket (404) through the matching of the side adjusting bolt (407) and the side adjusting groove (408).
3. The fully automatic vertical red punching device according to claim 1, wherein: the conveying mechanism (201) comprises a conveying device (3) and a conveying device (31); the conveying device (3) is connected with the conveying device (31) through a transition plate (32); the conveying device (3) comprises two conveying side walls (301) and a conveying belt (302) positioned between the two conveying side walls (301), conveying wheels (303) are connected to two ends of the conveying belt (302), the conveying wheels (303) are driven by a motor and used for pushing red punching raw materials positioned on the conveying belt (302) to move towards the conveying device (31), the transition plate (32) and the conveying belt (302) are positioned on the same horizontal plane, and a top barrier strip (304) used for limiting the top surface of the red punching raw materials is further arranged on the conveying side walls (301); a top adjusting structure (33) for adjusting the direction of the top barrier strip (304) is arranged on the conveying side wall (301); the top adjusting structure (33) comprises a top connecting plate (33-1) fixedly arranged on the outer side of the conveying side wall (301), a top adjusting plate (33-2) is connected to the top connecting plate (33-1), an upper positioning strip (33-3) in an L shape is vertically and fixedly arranged on the top adjusting plate (33-2), a top blocking strip (304) is vertically and fixedly arranged at the end part of the upper positioning strip (33-3), and the top blocking strip (304) is positioned at the upper end of the conveying side wall (301) and is in clearance with the conveying side wall (301); a top adjusting mechanism for adjusting the up-down distance of the top barrier strip (304) is arranged on the top adjusting plate (33-2); the top adjusting mechanism comprises a top adjusting bolt (33-6), wherein the top adjusting plate (33-2) is provided with a strip-shaped top adjusting groove (33-7) perpendicular to the moving direction of the red punching raw material, the top adjusting bolt (33-6) is arranged in the top adjusting groove (33-7) in a penetrating way, and the top adjusting plate (33-2) is fixed on the top connecting plate (33-1) through the matching of the top adjusting bolt 7-6) and the top adjusting groove (33-7); the conveying device (31) comprises a guide rail shell (1), wherein the guide rail shell (1) comprises a first bottom plate (1-1) and two first side plates (1-2), and the first bottom plate (1-1) and the two first side plates (1-2) are integrally formed; the two first side plates (1-2) are respectively positioned at two sides of the first bottom plate (1-1), and the first bottom plate (1-1) and the two first side plates (1-2) form an unsealed feeding groove (1-3) for conveying red punching raw materials; the transition plate (32) is propped against the end part of the first bottom plate (1-1), the first bottom plate (1-1) and the transition plate (32) are on the same horizontal plane, and a vibrating mechanism (34) is arranged at the bottom of the conveying device (31); one of them first side board (1-2) middle part is formed with direction notch (103), the outside of first side board (1-2) is close to direction notch (103) bottom and has set firmly lateral wall adjustment fixed block (102), is connected with locating plate device (101) on lateral wall adjustment fixed block (102), and locating plate device (101) are used for adjusting the width size of feed chute (1-3).
4. The fully automatic vertical red punching device according to claim 1, wherein: the processing mechanism (205) comprises a processing rack (18), an automatic feeding device (186) and a main table plate (180) and a table plate (181) which are fixedly arranged on the processing rack (18) and are sequentially arranged along the vertical direction, wherein the main table plate (180) is fixedly connected with the periphery of the table plate (181) through a connecting shaft (182), and the automatic feeding device (186) is fixedly arranged on the processing rack (18); the middle part of the main table plate (180) is provided with a driving oil cylinder (183), the bottom of the driving oil cylinder (183) is provided with a punch die device (184), a die opening mechanism (185) which is matched with the punch die device (184) is fixedly arranged on the table plate (181), a flat die passing plate (1800) is arranged on the die opening mechanism (185), and a feeding hand pushing device (187), a vertical feeding adjusting frame (1801) and a jacking mechanism (188) which correspond to the flat die passing plate (1800) are arranged on the table plate (181); the bedplate (181) is also provided with a sizing assembly device (189) and a finished product guide rail assembly (1802); the automatic feeding device (186) comprises a conveying guide rail (1805), a feeding hand pushing device (187) and the conveying guide rail (1805) are matched with each other, the feeding hand pushing device (187) comprises a base (6), a feeding hand seat (61) fixedly arranged on the base (6), a driving cylinder (62) is fixedly arranged on the feeding hand seat (61), the driving cylinder (62) penetrates through the feeding hand seat (61) to be connected with a sliding block (63), two sleeves (64) are fixedly arranged on the feeding hand seat (61), the two sleeves (64) are positioned at the upper end of the driving cylinder (62) and are symmetrically distributed, guide posts (65) are connected in a sliding mode in the sleeves (64), the guide posts (65) penetrate through the sleeves (64) to be fixedly connected with the sliding block (63), a push rod (66) is fixedly arranged at the end of the push rod (66), and a push rod positioning plate (67) for pushing red punching raw materials is positioned above the conveying guide rail (1805); one side of the feeding hand seat (61) is fixedly provided with an induction fixing plate (68) corresponding to the position of the driving cylinder (62), the induction fixing plate (68) is provided with an induction switch (69) matched with the driving cylinder (62), and when the red punching raw material on the conveying channel meets the conveying requirement, the induction switch (69) is used for driving the cylinder (62) to move, so that the push rod positioning plate (67) is used for pushing the red punching raw material; the sliding block (63) is provided with a guide groove (63-1) along the length direction, and the push rod (66) is connected in the guide groove (63-1) in a sliding way; an adjusting groove (66-1) is formed in the push rod (66), a plurality of bolts (66-2) are connected to the adjusting groove (66-1), and the bolts (66-2) are used for adjusting the position of the push rod (66) on the sliding block (63) through the adjusting groove (66-1); the end part of the guide post (65) is fixedly provided with a connecting plate (601), the middle part of the connecting plate (601) is provided with a limit nut (604), the limit nut (604) is rotationally connected with a limit rod (602), the feeding hand seat (61) is provided with a limit buffer (603) corresponding to the limit rod (602), and the limit buffer (603) is positioned between the two sleeves (64); the push rod positioning plate (67) is provided with a clamping opening (67-1) for pushing red punching raw materials, and the orientation of the clamping opening (67-1) is consistent with the driving direction of the driving cylinder (62); the fixed material assembly device (189) comprises a fixed material base (5), a fixed material seat (51) fixedly arranged on the fixed material base (5), a fixed material driving cylinder (52) is fixedly arranged on the fixed material seat (51), the fixed material driving cylinder (52) penetrates through the fixed material seat (51) to be connected with a guide shaft fixing block (53), a positioning block fixing plate (54) is connected to the guide shaft fixing block (53), a material connecting disc (55) is fixedly arranged on the upper end of the positioning block fixing plate (54), and a positioning plate (56) is fixedly arranged at the front part of the positioning block fixing plate (54), and the positioning plate (56) is matched with a push rod positioning plate (67) to clamp red punching raw materials; the positioning block fixing plate (54) is a T-shaped body, and the positioning block fixing plate (54) is connected with the receiving tray (55) through the hopper fixing plate (503); the receiving disc (55) is positioned at the upper end of the positioning plate (56), and the center of the receiving disc (55) corresponds to the forefront end of the positioning plate (56); the receiving disc (55) and the fixed material driving cylinder (52) form an angle of 30-60 degrees, the opening of the receiving disc (55) is opposite to the driving direction of the fixed material driving cylinder (52), the opening of the receiving disc (55) faces to the finished product guide rail assembly (1802), the receiving disc (55) is positioned above the finished product guide rail assembly (1802) after receiving the red punching workpiece, and the finished product guide rail assembly (1802) is obliquely arranged on the bedplate (181); two positioning sleeves (57) are further fixedly arranged on the positioning seat (51), the two positioning sleeves (57) are positioned on two sides of the positioning driving cylinder (52) and are symmetrically distributed, a guide shaft (58) is connected in a sliding mode in the positioning sleeve (57), and the guide shaft (58) penetrates through the positioning sleeve (57) and is fixedly connected with the guide shaft fixing block (53); a side plate (51-1) is fixedly arranged on one side of the fixed material seat (51), and a cylinder protection plate (51-2) corresponding to the fixed material driving cylinder (52) in position is fixedly arranged at the end part of the side plate (51-1); a positioning fixing plate (501) corresponding to the position of the positioning driving cylinder (52) is fixedly arranged on the positioning seat (51), the positioning fixing plate (501) is positioned at the lower end of the positioning sleeve (57), a positioning sensing switch (502) matched with the positioning driving cylinder (52) is arranged on the positioning fixing plate (501), and when a red punching workpiece positioned on a conveying channel meets the conveying requirement, the positioning sensing switch (502) is used for moving the positioning driving cylinder (52), so that the positioning plate (56) is used for pushing the red punching workpiece; the positioning plate (56) is provided with a positioning clamp opening (56-1) for pushing the red punching workpiece, and the orientation of the positioning clamp opening (56-1) is consistent with the driving direction of the fixed material driving cylinder (52).
5. The fully automatic vertical red punching device according to claim 4, wherein: the ejection mechanism (188) comprises an ejection sleeve (8), an ejection cylinder (81) and an ejection positioning plate (82); the material ejection positioning plate (82) and the material ejection cylinder (81) are respectively and fixedly arranged at the upper end and the lower end of the material ejection sleeve (8); the automatic red punching device is characterized by further comprising a jacking device (800) for receiving red punching raw materials from a discharge hole of the conveying device, wherein a jacking shaft (83) is connected to the jacking cylinder (81), the jacking shaft (83) passes through the jacking sleeve (8) and the jacking positioning plate (82) to prop against the jacking device (800), and the jacking device (800) is driven to lift; the middle part of the ejection sleeve (8) is provided with at least one sliding groove (801), a limiting rod (802) matched with the sliding groove (801) is fixedly arranged on the ejection shaft (83), and the limiting rod (802) is slidably connected in the sliding groove (801); the two sliding grooves (801) are symmetrically arranged on two sides of the ejection sleeve (8); the length of the sliding groove (801) is consistent with the lifting height of the material ejection device (800); the material ejection device (800) comprises a limiting plate (803), a supporting block (804) arranged on the limiting plate (803), and a placing plate (805) for placing red punching raw materials is fixedly arranged on the supporting block (804); the supporting block (804) is L-shaped and comprises an adjusting plate (804-1) and a supporting plate (804-2); the adjusting plate (804-1) is provided with a top adjusting mechanism for adjusting the front-back distance of the shelving plate (805); the top adjusting mechanism comprises an adjusting bolt (806), wherein the adjusting plate (804-1) is provided with a strip-shaped top adjusting groove (807) parallel to the moving direction of the red punching raw material, the adjusting bolt (806) is arranged in the top adjusting groove (807) in a penetrating manner, and the adjusting plate (804-1) is fixed on the limiting plate (803) through the matching of the adjusting bolt (806) and the top adjusting groove (807); a guide opening (84) is formed on the limiting plate (803), the ejection shaft (83) is sleeved in the guide opening (84), and a side part adjusting mechanism for adjusting the distance of the limiting plate (803) on the ejection shaft (83) is arranged on the limiting plate (803); the side adjusting mechanism comprises a side adjusting bolt (85), and the side adjusting bolt (85) penetrates through the guide opening (84) to limit the position of the limiting plate (803) on the ejection shaft (83); the supporting plate (804-2) and the resting plate (805) are obliquely arranged, and the inclination angle of the supporting plate is consistent with the conveying direction of the automatic feeding device (186).
6. The fully automatic vertical red punching device according to claim 5, wherein: the vertical feeding adjusting frame (1801) comprises an adjusting seat device (11) and an adjusting induction device (110) fixedly arranged on the adjusting seat device (11); the adjusting induction device (110) comprises an adjusting sleeve (111), an adjusting shaft (112) is rotatably connected to the adjusting sleeve (111), and a first adjusting plate (113) and a second adjusting plate (114) are respectively connected to two ends of the adjusting shaft (112); an adjusting induction switch device matched with the second adjusting plate (114) is arranged on the adjusting sleeve (111); the first adjusting plate (113) is fixedly arranged at the upper end of the adjusting shaft (112), the first adjusting plate (113) is arranged between the placing plate (805) and the flat die passing plate (1800), and the top end of the first adjusting plate (113) is propped against the side edge of the flat die passing plate (1800); the first adjusting plate (113) is fixedly arranged at one end of the adjusting shaft (112), the second adjusting plate (114) is sleeved at the other end of the adjusting shaft (112), and an adjusting bolt (117) is arranged between the second adjusting plate (114) and the adjusting shaft (112); the adjusting induction switch device comprises a first fixed plate (118) fixedly arranged at the end part of the adjusting sleeve (111), a second fixed plate (119) is vertically connected to the first fixed plate (118), and the first fixed plate (118) is fixedly connected with the second fixed plate (119); a third fixing plate (1110) which is L-shaped is fixedly arranged on the side edge of the second fixing plate (119), and the third fixing plate (1110) is vertically arranged with the adjusting sleeve (111); an adjusting bolt (1111) is arranged at the bottom of the third fixing plate (1110), the adjusting bolt (1111) corresponds to the lower end of the second adjusting plate (114), an inductive switch (1112) is arranged at the top of the second fixing plate (119), and the inductive switch (1112) corresponds to the top end part of the second adjusting plate (114); the adjusting bolt (1111) is rotatably arranged at the bottom of the third fixing plate (1110), and the top of the adjusting bolt (1111) corresponds to the center of the second adjusting plate (114); the adjusting seat device (11) comprises an adjusting base (1113) in an L shape, the adjusting base (1113) comprises a horizontal adjusting plate (1113-1) and a vertical adjusting plate (1113-2), an adjusting supporting plate (1114) is connected to the vertical adjusting plate (1113-2), and an adjusting sleeve (111) is fixedly arranged on the adjusting supporting plate (1114); an upper adjusting mechanism for adjusting the vertical distance of the vertical adjusting plate (1113-2) on the adjusting supporting plate (1114) is arranged on the vertical adjusting plate (1113-2); the upper adjusting mechanism comprises an upper adjusting bolt (1115), the vertical adjusting plate (1113-2) is provided with an upper adjusting groove (1116) which is perpendicular to the moving direction of the red punching raw material and is in a strip shape, the upper adjusting bolt (1115) is arranged in the upper adjusting groove (1116) in a penetrating mode and abuts against the adjusting supporting plate (1114), and the vertical adjusting plate (1113-2) is fixed on the adjusting supporting plate (1114) through the matching of the upper adjusting bolt (1115) and the upper adjusting groove (1116).
7. The fully automatic vertical red punching device according to claim 5, wherein: a protective cover (1803) is arranged around the periphery between the main table plate (180) and the table plate (181), the protective cover (1803) is detachably connected between the main table plate (180) and the table plate (181), a plurality of observation grooves (1804) are formed in the protective cover (1803), and the observation grooves (1804) are equidistantly distributed on the protective cover (1803).
8. A fully automatic vertical red punching apparatus according to any of claims 5-7, characterized in that: the device further comprises a removing mechanism, wherein the removing mechanism comprises a cylinder pushing assembly (162) corresponding to the shelving plate (805) and a temperature control assembly mechanism (163), and the temperature control assembly mechanism (163) is positioned above the cylinder pushing assembly (162); a blanking groove (164) which is opposite to the air cylinder pushing assembly (162) is fixed on the bedplate (181), the temperature control assembly mechanism (163) comprises a temperature control fixing frame (10) sleeved on the vertical support column (161), a temperature control fixing plate (101) is fixedly arranged on the temperature control fixing frame (10), a temperature control clamping seat fixing plate (102) is connected to the temperature control fixing plate (101), a temperature control clamping seat (103) is rotationally connected to the temperature control clamping seat fixing plate (102), and an induction device (104) corresponding to the material pushing mechanism (160) is sleeved on the temperature control clamping seat (103); the cylinder pushing assembly (162) comprises a cylinder fixing frame (9) sleeved on the vertical support column (161), a rejecting cylinder (90) is fixedly arranged on the cylinder fixing frame (9), a cylinder front fixing plate (91) is connected to a driving shaft (94) of the rejecting cylinder (90), and a cylinder pushing mechanism (900) is detachably connected to the cylinder front fixing plate (91); the cylinder pushing mechanism (900) comprises a pushing fixed plate (901), a pushing shaft (902) and a pushing block (903); one end of a pushing shaft (902) is vertically and fixedly arranged in the middle of a pushing fixed plate (901), and the other end of the pushing shaft (902) is fixedly connected with a pushing block (903); the width of the pushing block (903) is consistent with the outer diameter of the pushing shaft (902), and the length of the pushing block (903) is 2 times of the outer diameter of the pushing shaft (902); the cylinder fixing frame (9) comprises a left cylinder bracket (92) and a right cylinder bracket (93); a protruding part (95) is arranged on one side of the left cylinder bracket (92), a notch (96) matched with the protruding part (95) is formed on the right cylinder bracket (93), the protruding part (95) is in matched and clamping connection with the notch (96), and the other sides of the left cylinder bracket (92) and the right cylinder bracket (93) fix the cylinder fixing frame (9) on the bracket through an adjusting mechanism; the convex part (95) is in an arc shape, and the notch (96) is also in an arc shape; the adjusting mechanism comprises an adjusting screw (97), an adjusting hole (98) is formed in the end portion of the left cylinder bracket (92), the adjusting screw (97) penetrates through the adjusting hole (98) to be connected to the right cylinder bracket (93) and is used for fixing the left cylinder bracket (92) and the right cylinder bracket (93) on the brackets; the adjusting screw (97) is embedded in the adjusting hole (98); the two driving shafts (94) are symmetrically arranged on two sides of the front fixing plate (91) of the air cylinder; the temperature control clamping seat fixing plate (102) is rotationally connected with the temperature control fixing plate (101); the temperature control clamp seat fixing plate (102) is an F-shaped body and comprises a connecting plate (102-1), and a first guide plate (102-2) and a second guide plate (102-3) which are fixedly arranged at the end part of the connecting plate (102-1); a guide groove (102-4) is formed between the first guide plate (102-2) and the second guide plate (102-3), and a connecting arm of the temperature control clamping seat (103) is rotationally connected in the guide groove (102-4) and is used for adjusting the irradiation angle of the sensing device (104); the connecting plate (102-1), the first guide plate (102-2) and the second guide plate (102-3) are fixedly connected; the outer side of the joint of the connecting plate (102-1) and the first guide plate (102-2) is in arc transition; the rotation angle between the temperature control clamping seat (103) and the guide groove (102-4) is 0-180 degrees; the temperature control fixing frame (10) comprises a temperature control left bracket (105) and a temperature control right bracket (106); one side of the temperature control left bracket (105) is provided with a protruding block (107), the temperature control right bracket (106) is provided with a groove (108) matched with the protruding block (107), the protruding block (107) is in fit and clamping connection with the groove (108), and the other sides of the temperature control left bracket (105) and the temperature control right bracket (106) position a temperature control fixing bracket (10) on the bracket through a temperature control adjusting mechanism; the protruding block (107) is in an arc shape, and the groove (108) is also in an arc shape; the temperature control adjusting mechanism comprises a temperature control adjusting screw (109), a connecting hole (1001) is formed in the end of the temperature control left bracket (105), the temperature control adjusting screw (109) penetrates through the connecting hole (1001) to be connected to the temperature control right bracket (106), and the temperature control adjusting screw is used for fixing the temperature control left bracket (105) and the temperature control right bracket (106) on the brackets; the temperature control adjusting screw (109) is embedded in the connecting hole (1001); the sensing device (104) is an infrared high-temperature thermometer.
CN201810601250.9A 2018-06-12 2018-06-12 Full-automatic vertical red punching equipment Active CN108941228B (en)

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CN111020121B (en) * 2019-12-24 2020-07-28 胡思玲 Material feeding device for intelligent heat treatment production and feeding method thereof
CN111591722A (en) * 2020-05-14 2020-08-28 玉环双群机械有限公司 Double-track red punching discharging device
CN112453241B (en) * 2020-10-12 2022-10-21 宁波创启自动化科技有限公司 Automatic feeding device
CN112453240B (en) * 2020-10-12 2022-10-21 宁波创启自动化科技有限公司 Red towards automation line
CN112605144B (en) * 2020-11-20 2022-02-15 顺德职业技术学院 Quick compression fittings is used in aluminum alloy furniture aluminum product production and processing
CN112372190B (en) * 2020-11-30 2022-06-14 浙江创利焊接科技股份有限公司 Boiler factory pin welding feeding system
CN112193810B (en) * 2020-12-09 2021-03-23 爱汽科技(佛山)有限公司 Automatic bar conveying device and gear production line using same
CN113523117A (en) * 2021-08-25 2021-10-22 浙江斯特隆科技有限公司 Copper bar hot forging and hot stamping rapid processing device and method
CN113909362A (en) * 2021-10-29 2022-01-11 台州环联科技有限公司 Red punching machine tool
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Family Cites Families (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN1447053A (en) * 2003-03-21 2003-10-08 潘永平 Method for manufacturing sanitary ware
CN104209360B (en) * 2014-09-04 2018-04-17 台州英达机械科技有限公司 Red flushing furnace feed device
CN105170824B (en) * 2015-09-09 2017-05-24 浙江大学 Stamping height compensation device of red stamping manipulator
CN205496439U (en) * 2016-03-28 2016-08-24 宁波圣安机器人科技有限公司 Detection device is expected to red connecing towards flat -die
CN207076829U (en) * 2017-06-20 2018-03-09 台州市路桥区宏明水暖有限公司 It is a kind of full-automatic red to rush machine
CN207343629U (en) * 2017-11-03 2018-05-11 三花股份(江西)自控元器件有限公司 A kind of bonnet automatic red punching one goes out two mechanisms

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