CN204276784U - Red punching heating and forming production line thereof - Google Patents

Abstract

The utility model relates to a kind of red punching heating and forming production line thereof, forming supporter is provided with the drift driven by oil cylinder, the forming supporter of the relative side of drift is provided with shaping mold cavity, oil cylinder comprises the first oil cylinder and the second oil cylinder, first oil cylinder can drive the second oil cylinder to drive drift to press down, and forming supporter is provided with can tank connected by motor-driven booster pump with accumulation of energy to the second oil cylinder supercharging; The side of forming supporter is provided with heating frame, heating frame is provided with heating cabinet, heating cabinet is provided with the heat tunnel running through its two side, the side of the charging aperture of heat tunnel is provided with feeding device, the side of the discharging opening of heat tunnel is the feed end of Transfer pipe, side or the forming supporter of the discharge end of Transfer pipe are provided with feeding mechanical hand, and punch forming in shaping mold cavity delivered to by the material to be formed that the feed end by Transfer pipe can be moved to discharge end by feeding mechanical hand.Advantage is: reduce cost of labor, and the upper consume of man power and material reduces relatively, and working security is high and efficiency of construction is high.

Description

Red punching heating and forming production line thereof

Technical field

The utility model relates to red technical field of rushing thermal forming device, especially relates to a kind of red punching heating for Mechanical processing of casting manufacture and forming production line thereof.

Background technology

Foundry goods former traditional at present, artificial and the machinery of most employing with the use of, namely artificial mode is utilized to utilize tool holder on punch press in the material to be formed after heating, then manual operation punch press, the drift on punch press is made to carry out punch forming to the material to be formed putting into shaping mold cavity, this traditional process equipment, quantities is comparatively numerous and diverse, needed to be treated as moulding mixture before this to preheat, then use being undertaken being transported to corresponding position by conveyer belt, this equipment will increase artificial cost, the consume of man power and material is also large simultaneously, and need especially after the heating manually to operate, safety guarantee for workmen is too low, easily because the error of workmen causes scald or other some personal injuries, moreover this equipment is larger for labor and materials consume to be added, for relatively to fix die cavity after regulating, when material is not enough, cannot be completely shaping, when expecting too much, equipment there will be overwork.

Summary of the invention

For the deficiency that above-mentioned prior art exists, the purpose of this utility model is to provide and a kind of reduces cost of labor, and the upper consume of man power and material is reduction relatively, and high and efficiency of construction the is high red punching of working security is heated and forming production line.

For realizing above-mentioned object, the utility model provides following technical scheme:

A kind of red punching heating and forming production line thereof, comprise forming supporter, forming supporter is provided with the drift driven by oil cylinder, the forming supporter of the relative side of drift is provided with shaping mold cavity, described oil cylinder comprises the first oil cylinder and the second oil cylinder, first oil cylinder can drive the second oil cylinder to move down, and the outer end of the piston rod of the second oil cylinder is provided with drift, and on forming supporter or the side of forming supporter is provided with can tank connected by motor-driven booster pump with accumulation of energy to the second oil cylinder supercharging; The side of described forming supporter is provided with heating frame, heating frame is provided with heating cabinet, heating cabinet is provided with the heat tunnel running through its two side, the side of the charging aperture of heat tunnel is provided with feeding device, the side of the discharging opening of heat tunnel is the feed end of Transfer pipe, side or the forming supporter of the discharge end of Transfer pipe are provided with feeding mechanical hand, and punch forming in shaping mold cavity delivered to by the material to be formed that the feed end by Transfer pipe can be moved to discharge end by feeding mechanical hand.

The utility model is set to further: the concrete structure of described feeding device is: the side of the charging aperture of heat tunnel is provided with stock shelf, stock shelf be provided with side upwards, opposite side move down simultaneously by motor-driven material loading conveyer belt, material loading conveyer belt is provided with the groove that gets stuck, the notch of the groove that gets stuck when the groove that gets stuck that material loading conveyer belt is arranged moves up upward, the notch of the groove that gets stuck when moving down down;

Downside stock shelf being positioned at the side that material loading conveyer belt moves up is provided with can splendid attire can send the hopper of material to be formed;

This feeding device is connected with the charging aperture of heat tunnel by turning materials device.

The utility model is set to further: described in turn materials device concrete structure be: upside stock shelf being positioned at the side that material loading conveyer belt moves up is provided with charging hopper, material loading conveyer belt moves up in this side and is continued to deliver in charging hopper by the material to be formed got stuck in groove, charging hopper is provided with feed opening towards the downside of the side of heating cabinet, and feed opening place is provided with a section of being connected with feed opening for downward-sloping, another section is for being vertically to the blanking conveyer belt of the charging aperture of heat tunnel;

Stock shelf between stock shelf and heating frame is or/and heating frame is provided with the material to be formed of the charging aperture being delivered to heat tunnel by blanking conveyer belt can be pushed ahead or/and the material to be formed after all heating in heat tunnel all can be released the pusher manipulator of the discharging opening of heat tunnel.

The utility model is set to further: described in get stuck that to be side towards charging hopper downward-sloping and be provided with the opening that the material to be formed got stuck in groove can be fallen in charging hopper near the side of charging hopper for groove.

The utility model is set to further: described in turn materials device concrete structure be: what stock shelf is positioned at side that material loading conveyer belt moves down is provided with that lateral has a down dip can by the sliding plate of the material to be formed of the groove that gets stuck feeding from top to bottom;

The side of the lower end of sliding plate is provided with stops hopper, stops hopper to the charging aperture of heat tunnel and is provided with the blanking conveyer belt that material to be formed can be slid in the charging aperture of heat tunnel;

The side of stopping hopper is provided with the pusher manipulator that can will delivered to the material to be formed that stops hopper by sliding plate and push ahead.

The utility model is set to further: described heat tunnel is downward-sloping to discharging opening by charging aperture.

The utility model is set to further: described pusher machinery hand comprises material-pushing frame, material-pushing frame is provided with one group of guide rod or is provided with two groups of guide rods at least side by side, often organize guide rod and at least comprise upper and lower two guide rods paralleling setting, often organize guide rod is equipped with and can often organize the clamping seats of location that guide rod slidably reciprocates at this by pusher air cylinder driven, the upside of clamping seats is provided with the holes for clamping running through both sides, the interior upper wall in this hole is curved arc inner wall, the downside inwall in this hole is provided with jogger hole, clamping seats is provided with the clamping cylinder of push rod through this jogger hole, push rod through this jogger hole is provided with pinching end, the end face that pinching end is relative with the arc inner wall in hole is provided with arc groove, between arc groove and arc inner wall can sandwiched through the push rod of holes for clamping.

The utility model is set to further: described pusher machinery hand comprises material-pushing frame, and material-pushing frame is provided with at least one and the material to be formed of the charging aperture being delivered to heat tunnel by blanking conveyer belt can be pushed ahead, with the pusher cylinder of push rod or the charging ram by this top rod driving.

The utility model is set to further: described Transfer pipe is provided with vibration transmission channel with the vibrating air cylinder of feeding.

The utility model is set to further: the both sides of described Transfer pipe are respectively equipped with rib, wherein one piece of rib offers waste outlet, waste outlet is provided with the blend stop of gear above Transfer pipe, and the distance between blend stop and Transfer pipe is greater than the thickness of single material to be formed, is less than the thickness of two material to be formed.

By adopting technique scheme, the technique effect that the utility model reaches is: by by material loading, heating and shaping integration, and the fit structure between Optimal improvements, reduce cost of labor, the upper consume of man power and material reduces relatively, material to be formed simultaneously after heating is without the need to artificial transmission, and only need by manipulator, its working security is high and efficiency of construction is high.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, the utility model is described in further detail.

Fig. 1 is the structural principle schematic diagram of feeding device of the present utility model and heating cabinet.

Fig. 2 is the structural principle schematic diagram of the feeding device in Fig. 1 of the present utility model.

Fig. 3 is the structural principle schematic diagram from Transfer pipe after the discharge hole for discharge of heat tunnel and punch press of the present utility model.

Fig. 4 is the feeding device of another embodiment of the present utility model and the structural principle schematic diagram of heating cabinet.

Fig. 5 is the structural principle schematic diagram of the pusher manipulator in Fig. 1 of the present utility model.

Fig. 6 is the perspective view of the pusher manipulator in Fig. 5 of the present utility model.

Fig. 7 is the perspective view of Transfer pipe of the present utility model.

Fig. 8 is the schematic diagram turning materials device in Fig. 4 of the present utility model.

Fig. 9 is the structural principle schematic diagram of vertical punch press of the present utility model.

Figure 10 is the partial structurtes principle schematic in Fig. 9 of the present utility model.

Figure 11 is the partial structurtes principle schematic in Figure 10 of the present utility model.

Figure 12 is the structural principle schematic diagram of horizontal punching machine of the present utility model.

Figure 13 is the partial enlargement structural principle schematic diagram of Figure 12 of the present utility model.

Detailed description of the invention

With reference to Fig. 1 ~ 13, a kind of red punching heating and forming production line thereof disclosed in the utility model, forming supporter 10 is provided with drift 102, drift 102 drives work by oil cylinder 101, the forming supporter 10 of the relative side of drift 102 is provided with shaping mold cavity 103, oil cylinder 101 comprises the first oil cylinder 1011 and the second oil cylinder 1012, first oil cylinder 1011 can drive the second oil cylinder 1012 to move down, second oil cylinder 1012 moves down and the drift 102 of the outer end of the piston rod being arranged on the second oil cylinder 1012 is pressed down, on the forming supporter 10 or side of forming supporter 10 be provided with can to the second oil cylinder 1012 supercharging be connected with energy storage tank 1013 by motor-driven booster pump 1038, when material 80 to be formed is placed in shaping mold cavity 103, oil cylinder 101 drives drift 102 to shaping mold cavity 103 fast offset, and material 80 to be formed is cast desired shape by the punching press cooperation through drift 102 and shaping mold cavity 103.The side of forming supporter 10 is provided with heating frame 20, heating frame 20 is provided with heating cabinet 201, heating cabinet 201 is provided with the heat tunnel 202 running through its two side, the side of the charging aperture 2021 of heat tunnel 202 is provided with feeding device 30, the side of the discharging opening 2022 of heat tunnel 202 is the feed end 401 of Transfer pipe 40, side or the forming supporter 10 of the discharge end 402 of Transfer pipe 40 are provided with feeding mechanical hand 50, and punch forming in shaping mold cavity 103 delivered to by the material to be formed 80 that the feed end 401 by Transfer pipe 40 can be moved to discharge end 402 by feeding mechanical hand 50.

For punch press, can be vertical punch press, also can be horizontal punching machine.With reference to Fig. 9 ~ 11, the forming supporter 10 of drift 102 offside is provided with molding seat 1015, and molding seat 1015 is provided with forming cavity 1016.The side of molding seat 1015 is provided with blanking groove 1014, and the height of blanking groove 1014 is not higher than the height of molding seat 1015.The downside of molding seat 1015 is provided with push rod material ejection cylinder 1017 upward, and the push rod of material ejection cylinder 1017 is provided with the ejector beam 1018 extended in forming cavity 1016.Ejector beam 1018 in forming cavity after forming, can push up by air cylinder driven ejector beam, molding mass can be pushed.The concrete structure of feeding mechanical hand 50 is here: the opposite side on forming supporter 10 is provided with and drives rotatable mechanical arm 1019 by cylinder, and the end of mechanical arm 1019 is provided with can by feed collet to be formed to the mechanical tong 1020 of forming cavity 1016.Concrete structure wherein for mechanical tong 1020 is common components in the art, this mechanical tong generally has the clip of two specular, one end of two clips is on the robotic arm hinged respectively, and hinged end, by air cylinder driven, makes two clips can rotate clamping in opposite directions.With reference to Figure 11, the concrete structure of feeding manipulator herein also can be: the opposite side on forming supporter 10 is provided with and drives rotatable mechanical arm 1019 by cylinder, the end of mechanical arm 1019 is provided with can by feed collet to be formed to the mechanical tong 1020 of forming cavity, and mechanical arm 1019 is provided with and can be moved to mechanical arm 1019 the pusher arm 1022 that the molding mass processed on forming cavity 1016 to be pushed into blanking groove 1014 by forming cavity 1016 place.

Generally, in order to ensure the clean of drift 11 and lubrication, opposite side forming supporter 10 is positioned between drift 102 is provided with manipulator of polishing, the concrete structure of manipulator of polishing is: the side on forming supporter 10 is provided with and drives by cylinder the mechanical arm that can push ahead, the end of mechanical arm is provided with end of polishing, end of polishing is provided with soft material of polishing, and material of polishing can be cotton, cotton, silk.In order to the material that ensures to polish has oil always, can be provided with on mechanical arm 1024 can to the atomizer of oil spout on material of polishing.This polish manipulator can with have the feeding manipulator of pusher arm with the use of.With reference to Figure 10, certainly the concrete structure of manipulator of polishing is: the side on forming supporter 10 is provided with and drives rotatable mechanical arm 1024 by cylinder, the end of mechanical arm 1024 is provided with atomizer 1023, and mechanical arm 1024 is provided with and can be moved to mechanical arm 1024 the pusher arm 1025 that the molding mass processed on forming cavity 1016 to be pushed into blanking groove 1014 by forming cavity 1016 place.The pusher arm of this structure can select and not have the feeding manipulator of pusher arm with the use of.

With reference to Figure 12,13, the forming supporter 10 of drift 102 offside is provided with molding seat 1015, molding seat 1015 is provided with the cavity of class bullet or inverted ladder-shaped body, be provided with the shaping mould slided along cavity wall in this cavity, shaping mould comprise relative, can the left and right mould 1026,1027 of formation die cavity bonded to each other; The side of molding seat 1015 is provided with the cylinder of matched moulds and die sinking.The cylinder of matched moulds and die sinking is: the side of molding seat 1015 is provided with the cylinder 1028 of matched moulds, the push rod of this cylinder 1028 is provided with connecting plate 1029, connecting plate 1029 is provided with and runs through connecting plate 1029 and molding seat 1015 and the drive rod 1030 extended in the cavity of molding seat 1015, the end of the drive rod 1030 in the cavity of molding seat 1015 is connected with and pushes away die holder 1031, pushes away die holder 1031 and is connected with left and right mould 1026,1027; The offside of described connecting plate 1029 is provided with die sinking seat 1032, die sinking seat 1032 is provided with the cylinder 1033 of die sinking, and the push rod of this cylinder 1033 can push up the end being located at drive rod 1030 and drive rod 1030 be driven push away die holder 1031 to promote the die sinking of left and right mould 1026,1027.

The side being positioned at cavity in molding seat 1015 is provided with liftout chamber 1034, is provided with the ejector beam 1035 that one end extends the die cavity position formed between left and right mould 1026,1027 in liftout chamber 1034; The described drive rod 1030 being positioned at liftout chamber 1034 is provided with sliding tray 1036, and the other end of described ejector beam 1035 can slide on sliding tray 1036.Sliding tray is not herein by the restriction of shape, can arrange according to the actual needs, can be directly offer at drive rod the hole that runs through two lateral walls, also can be the blind hole offered on the sidewall of drive rod, it equally also can be the necking down groove arranged on drive rod, the other end of ejector beam can slide in this groove, can according to the shape specific design of groove, the side pushing away die holder 1031 described in liftout chamber 1034 is close is provided with striker plate 1037, the other end of ejector beam 1035 is provided with block 1021, block 1021 can be moved to the limit displacement of striker plate 1037 place with described drive rod 1030 by striker plate 1037, namely the end of the push rod promotion drive rod 1030 of cylinder 1033 makes drive rod 1030 drive push away die holder 1031 and promotes a left side before this, right mould 1026, while 1027 die sinkings, drive rod 1030 drives ejector beam 1035 synchronous shift, by a left side, right mould 1026, between 1027, the profiled member of forming pushes, after ejector beam 1035 pushes profiled member certain distance, the block 1021 of ejector beam 1035 is moved to striker plate 1037 place, spacing by striker plate, this end that now ejector beam is provided with block slides on sliding tray 1036, do not carrying out liftout work, this time, whole left and right mould 1026, 1027 complete die sinkings, molding mass is also pushed by ejector beam, then molding mass can from left and right mould 1026, fall down in gap after 1027 die sinkings.

With reference to Fig. 1, 2, 4, the concrete structure of described feeding device 30 is: the side of the charging aperture 2021 of heat tunnel 202 is provided with stock shelf 301, stock shelf 301 is provided with side upwards, the material loading conveyer belt 302 driven by motor 305 that opposite side moves down simultaneously, material loading conveyer belt 302 is provided with the groove 303 that gets stuck, the quantity of groove 303 of getting stuck generally is provided with multiple, and the groove 303 that gets stuck can be utilize on the face of flat sheet and material loading conveyer belt 302, then shape is at a certain angle, then both sides adopt baffle plate backgauge, prevent material from falling down from both sides, also can be directly shaping groove to be installed on material loading conveyer belt 302, the groove 303 that gets stuck that material loading conveyer belt 302 is arranged get stuck when moving up groove 303 notch upward, get stuck when moving down groove 303 notch down,

Downside stock shelf 10 being positioned at the side that material loading conveyer belt 302 moves up is provided with can splendid attire can send the hopper 304 of material to be formed, and material loading conveyer belt 302 moves up in this side the material to be formed 80 in hopper 304 to snap in and gets stuck in groove 303;

This feeding device 30 is connected with the charging aperture 401 of heat tunnel 202 by turning materials device 60, and namely the charging aperture 401 of heat tunnel 202 sent into by the material to be formed 80 got stuck in groove 303 by this feeding device 30 by turning materials device 60.

Feeding device 30 in the present embodiment is the design of preferred version, in order to make the process of material loading fast more convenient, after the hopper that simple mechanical crane certainly can be adopted to sling material to be formed is housed, the mode of material loading or artificial loading, also can adopt the mode of vibrating disk material loading.

Embodiment 1

With reference to Fig. 1, the described concrete structure turning materials device 60 is: upside stock shelf 10 being positioned at the side that material loading conveyer belt 302 moves up is provided with charging hopper 601, material loading conveyer belt 302 moves up in this side and is continued to deliver in charging hopper 601 by the material to be formed 80 got stuck in groove 303, charging hopper 601 is provided with feed opening 602 towards the downside of the side of heating cabinet 201, and feed opening 602 place is provided with a section of being connected with feed opening 602 for downward-sloping, another section is for being vertically to the blanking conveyer belt 603 of the charging aperture 401 of heat tunnel 202; Blanking conveyer belt 603 arranges and can design according to the demand in reality, also can be set to whole section and be inclination.

Stock shelf 10 between stock shelf 10 and heating frame 20 is or/and heating frame 20 is provided with pusher manipulator 70, and the material to be formed 80 of the charging aperture 2021 being delivered to heat tunnel by blanking conveyer belt 603 can be pushed ahead or/and the material to be formed 80 after all heating in heat tunnel 202 all can be released the discharging opening 2022 of heat tunnel 202 by pusher manipulator 70.

It is downward-sloping and be provided with the opening that the material to be formed 80 got stuck in groove 303 can be fallen in charging hopper 601 near the side of charging hopper 601 that the groove 303 that gets stuck is side towards charging hopper 601.

With reference to Fig. 1, 5, 6, pusher manipulator 70 in above-mentioned comprises material-pushing frame 701, material-pushing frame 701 is provided with one group of guide rod 702 or is provided with two groups of guide rods 702 at least side by side, the group number of guide rod 702 be generally come by the columns of the transmission of Transfer pipe 40 material to be formed 80 fixed, often organize guide rod 702 and at least comprise upper and lower two guide rods paralleling setting, often organize guide rod 702 is equipped with and driven can often be organized the clamping seats 703 of location that guide rod 702 slidably reciprocates at this by pusher cylinder 707, the upside of clamping seats 703 is provided with the holes for clamping 704 running through both sides, the interior upper wall in this hole is curved arc inner wall 7041, the downside inwall in this hole is provided with jogger hole, clamping seats 703 is provided with the clamping cylinder 708 of push rod through this jogger hole, push rod through this jogger hole is provided with pinching end 705, the end face that pinching end 705 is relative with the arc inner wall in hole is provided with arc groove 7051, between arc groove 7051 and arc inner wall 7041 can sandwiched through the push rod 706 of holes for clamping 704.This manipulator is pushing away in-plant material to be formed, namely also material 80 to be formed is sent at charging aperture 2021 place always toward heat tunnel at blanking conveyer belt 603, at this moment pinching end 705 coordinates gripping push rods 706 with arc inner wall 7041, and drive clamping seats 703 to slidably reciprocate along guide rod 702 by pusher cylinder 707, promote material 80 to be formed one by one and advance, this manipulator is pushing away remote material to be formed, namely at the work is nearly finished, feeding device 30 is not in work, blanking conveyer belt 603 does not have material 80 to be formed send toward charging aperture 2021 place of heat tunnel, at this moment pinching end 705 first coordinates gripping push rods 706 with arc inner wall 7041, and drive clamping seats 703 along guide rod 702 anterior displacement by pusher cylinder 707, promote material 80 to be formed to advance, then clamping cylinder 708 drives pinching end 705 to the contrary direction displacement of arc inner wall 7041, unclamp push rod 706, and then pusher cylinder 707 drives clamping seats 703 along guide rod 702 displacement backward, after displacement certain distance, clamping cylinder 708 drives pinching end 705 to arc inner wall 7041 displacement in opposite directions, gripping push rods 706, and drive clamping seats 703 along guide rod 702 anterior displacement by pusher cylinder 707, promote material 80 to be formed to advance, by that analogy, until the material 80 all to be formed in heat tunnel 202 is all released by the discharging opening 402 of push rod 706 from heat tunnel 202.The material to be formed 80 of the charging aperture 2021 being delivered to heat tunnel by blanking conveyer belt 603 both can be pushed ahead by this pusher manipulator 70, also the material to be formed 80 after all heating in heat tunnel 202 all can be released the discharging opening 2022 of heat tunnel 202.

Embodiment 2

With reference to Fig. 4, 6, the described concrete structure turning materials device 60 is: what stock shelf 10 is positioned at side that material loading conveyer belt 302 moves down is provided with that lateral has a down dip can by the sliding plate 604 of the material to be formed 80 of the groove 303 that gets stuck feeding from top to bottom, namely sliding plate 604 from top to bottom feeding be specially: be material loading end 6041 near the side of stock shelf, the other end is then discharging end 6042, material loading conveyer belt 302 moves down the material loading end 6041 continuing the material to be formed 80 got stuck in groove 303 to deliver to sliding plate 604 in this side, material 80 to be formed by this material loading end 6041 sliding to discharging end 6042,

The side of the lower end of sliding plate 604 is provided with stops hopper 606, and the charging aperture 2021 stopping hopper 606 to heat tunnel 202 is provided with the blanking conveyer belt 608 that material 80 to be formed can be slid in the charging aperture 2021 of heat tunnel 202;

In the groove stopping hopper 606, the end, is provided with conveyer belt 607, and conveyer belt 607 can will be delivered to the corresponding side that blanking conveyer belt 608 delivered to by the material to be formed 80 stopped in hopper 606 by sliding plate 604; Here conveyer belt 607 also can utilize the push rod of air cylinder driven to replace, push rod directly by delivered to by sliding plate the material to be formed stopped in hopper deliver to blanking transmit corresponding side.

The side of stopping hopper 606 is provided with the pusher manipulator 70 that can will delivered to the material to be formed 80 that stops hopper 606 by sliding plate 604 and push ahead.

In this embodiment, preferred heat tunnel 202 is downward-sloping by charging aperture 2021 to discharging opening 2022, and this design effectively can reduce the setting of pusher manipulator 70.Certainly can be charging aperture 2021 to discharging opening as shown in Fig. 1 of embodiment 1 2022 be flat design.

Described pusher manipulator 70 comprises material-pushing frame 701, and material-pushing frame 701 is provided with at least one and the material to be formed 80 of the charging aperture 2021 being delivered to heat tunnel by blanking conveyer belt 608 can be pushed ahead, with the pusher cylinder 707 of push rod or the charging ram 609 by this top rod driving.The pusher manipulator 70 described in embodiment 1 can certainly be adopted, but in order to save material, and consider economy, suggestion uses the easy pusher manipulator 70 in the present embodiment.

Equally, easy pusher manipulator 70 in the present embodiment is also can separately in embodiment 1, the material to be formed of the charging aperture being delivered to heat tunnel by blanking conveyer belt is pushed ahead by this sample machine tool hand only, if desired the material to be formed after all heating in heat tunnel is all released the discharging opening of heat tunnel, then can also by the pusher manipulator in embodiment 1 add and this easy manipulator with the use of also can.

To sum up, with reference to Fig. 3,7, Transfer pipe 40 is provided with vibration transmission channel 40 with the vibrating air cylinder 406 of feeding.With reference to Fig. 7, the both sides of this Transfer pipe 40 are respectively equipped with rib 403, the design of rib 403 is mainly and prevents the material released from the discharging opening 2022 of heat tunnel from dropping out, wherein one piece of rib 403 offers waste outlet 404, waste outlet 404 is provided with the blend stop 405 of gear above Transfer pipe 40, and the distance between blend stop 405 and Transfer pipe 40 is greater than the thickness of single material to be formed 80, is less than the thickness of two material 80 to be formed.The main cause of planned waste outlet 404 and blend stop 405 is that at least at least two pieces of situations about being fused together may appear in the material to be formed 80 after heating in heat tunnel, in this case, need to remove these material, therefore utilize waste outlet 404 can the Simple Design of blend stop 405, just can well address this problem.This structure of similar waste outlet, also can be arranged in blanking conveyer belt or hopper, so just in the process of material loading again, a part can not put neat material and get rid of.

Above-described embodiment is only preferred embodiment of the present utility model, not limits protection domain of the present utility model according to this, therefore: all equivalence changes done according to structure of the present utility model, shape, principle, all should be covered by within protection domain of the present utility model.

Claims (10)

1. a red punching heating and forming production line thereof, comprise forming supporter, forming supporter is provided with the drift driven by oil cylinder, the forming supporter of the relative side of drift is provided with shaping mold cavity, it is characterized in that: described oil cylinder comprises the first oil cylinder and the second oil cylinder, first oil cylinder can drive the second oil cylinder to move down, and the outer end of the piston rod of the second oil cylinder is provided with drift, and on forming supporter or the side of forming supporter is provided with can tank connected by motor-driven booster pump with accumulation of energy to the second oil cylinder supercharging; The side of described forming supporter is provided with heating frame, heating frame is provided with heating cabinet, heating cabinet is provided with the heat tunnel running through its two side, the side of the charging aperture of heat tunnel is provided with feeding device, the side of the discharging opening of heat tunnel is the feed end of Transfer pipe, side or the forming supporter of the discharge end of Transfer pipe are provided with feeding mechanical hand, and punch forming in shaping mold cavity delivered to by the material to be formed that the feed end by Transfer pipe can be moved to discharge end by feeding mechanical hand.

2. red punching heating according to claim 1 and forming production line thereof, it is characterized in that: the concrete structure of described feeding device is: the side of the charging aperture of heat tunnel is provided with stock shelf, stock shelf be provided with side upwards, opposite side move down simultaneously by motor-driven material loading conveyer belt, material loading conveyer belt is provided with the groove that gets stuck, the notch of the groove that gets stuck when the groove that gets stuck that material loading conveyer belt is arranged moves up upward, the notch of the groove that gets stuck when moving down down;

Downside stock shelf being positioned at the side that material loading conveyer belt moves up is provided with can splendid attire can send the hopper of material to be formed;

This feeding device is connected with the charging aperture of heat tunnel by turning materials device.

3. red punching heating according to claim 2 and forming production line thereof, it is characterized in that: described in turn materials device concrete structure be: upside stock shelf being positioned at the side that material loading conveyer belt moves up is provided with charging hopper, material loading conveyer belt moves up in this side and is continued to deliver in charging hopper by the material to be formed got stuck in groove, charging hopper is provided with feed opening towards the downside of the side of heating cabinet, and feed opening place is provided with a section of being connected with feed opening for downward-sloping, another section is for being vertically to the blanking conveyer belt of the charging aperture of heat tunnel;

Stock shelf between stock shelf and heating frame is or/and heating frame is provided with the material to be formed of the charging aperture being delivered to heat tunnel by blanking conveyer belt can be pushed ahead or/and the material to be formed after all heating in heat tunnel all can be released the pusher manipulator of the discharging opening of heat tunnel.

4. red punching heating according to claim 3 and forming production line thereof, is characterized in that: described in get stuck that to be side towards charging hopper downward-sloping and be provided with the opening that the material to be formed got stuck in groove can be fallen in charging hopper near the side of charging hopper for groove.

5. red punching heating according to claim 2 and forming production line thereof, is characterized in that: described in turn materials device concrete structure be: what stock shelf is positioned at side that material loading conveyer belt moves down is provided with that lateral has a down dip can by the sliding plate of the material to be formed of the groove that gets stuck feeding from top to bottom;

The side of the lower end of sliding plate is provided with stops hopper, stops hopper to the charging aperture of heat tunnel and is provided with the blanking conveyer belt that material to be formed can be slid in the charging aperture of heat tunnel;

The side of stopping hopper is provided with the pusher manipulator that can will delivered to the material to be formed that stops hopper by sliding plate and push ahead.

6. red punching heating according to claim 5 and forming production line thereof, is characterized in that: described heat tunnel is downward-sloping to discharging opening by charging aperture.

7. the red punching heating according to any one of claim 3 ~ 6 and forming production line thereof, it is characterized in that: described pusher machinery hand comprises material-pushing frame, material-pushing frame is provided with one group of guide rod or is provided with two groups of guide rods at least side by side, often organize guide rod and at least comprise upper and lower two guide rods paralleling setting, often organize guide rod is equipped with and can often organize the clamping seats of location that guide rod slidably reciprocates at this by pusher air cylinder driven, the upside of clamping seats is provided with the holes for clamping running through both sides, the interior upper wall in this hole is curved arc inner wall, the downside inwall in this hole is provided with jogger hole, clamping seats is provided with the clamping cylinder of push rod through this jogger hole, push rod through this jogger hole is provided with pinching end, the end face that pinching end is relative with the arc inner wall in hole is provided with arc groove, between arc groove and arc inner wall can sandwiched through the push rod of holes for clamping.

8. the red punching heating according to any one of claim 3 ~ 6 and forming production line thereof, it is characterized in that: described pusher machinery hand comprises material-pushing frame, material-pushing frame is provided with at least one and the material to be formed of the charging aperture being delivered to heat tunnel by blanking conveyer belt can be pushed ahead, with the pusher cylinder of push rod or the charging ram by this top rod driving.

9. red punching heating according to claim 1 and forming production line thereof, is characterized in that: described Transfer pipe is provided with vibration transmission channel with the vibrating air cylinder of feeding.

10. the red punching heating according to claim 1 or 9 and forming production line thereof, it is characterized in that: the both sides of described Transfer pipe are respectively equipped with rib, wherein one piece of rib offers waste outlet, waste outlet is provided with the blend stop of gear above Transfer pipe, and the distance between blend stop and Transfer pipe is greater than the thickness of single material to be formed, is less than the thickness of two material to be formed.