CN110722038A - Rocking arm formula is red towards valve body apparatus for producing - Google Patents

Abstract

The invention relates to a rocker arm type red punching valve body production device, which relates to the technical field of forging and pressing equipment and solves the problem that a die expands with heat and contracts with cold due to temperature change, a pressing piece can be adhered to a preheated die at the moment, and the demoulding of stamping processing is influenced. The invention has the effects of reducing the adhesion of pressed parts, quickly discharging and good demoulding quality.

Description

Rocking arm formula is red towards valve body apparatus for producing

Technical Field

The invention relates to the technical field of forging and pressing equipment, in particular to a rocker arm type red punching valve body production device.

Background

The red punching process is one of machining methods for metal materials without cutting.

The metal material is heated to a certain temperature during the red punching, is put into a preheated die, and is subjected to plastic deformation through one-time reciprocating motion of a press machine tool, so that a pressed piece with the required size and shape and good mechanical property is obtained.

And discharging the pressed piece through the rocker arm, so that the processing of one pressed piece is completed.

The above prior art solutions have the following drawbacks: during the punching press, during the mould of preheating can be placed to the metal of heating completion, the cooperation pressure lathe carries out stamping process, and at this moment, the metal of heating can change along with the predetermined shape of preheating mould and punching press lathe, and the mould is in-process when the punching press, and the temperature can descend, and the mould also can expand with heat and contract with cold because of the change of temperature, and the presswork can adhere in the mould of preheating this moment, influences stamping process's drawing of patterns, improved space in addition.

Disclosure of Invention

The invention aims to provide a rocker arm type red punching valve body production device which can reduce the adhesion of a pressed piece, and has the advantages of quick discharging and good demoulding quality.

The above object of the present invention is achieved by the following technical solutions:

the utility model provides a red valve body apparatus for producing that dashes of rocking arm formula, is including placing in subaerial and supplying material stamping forming's punching machine, including the station of refueling that is used for adding oil for the processing position of punching machine, processing station includes:

the fixing frame is arranged on the punching machine and is used for clamping and fixing the oil storage bottle;

the oil storage bottle is used for storing oil and fat and is connected with the hose;

the bottle cap is in threaded fit with one side of the oil storage bottle, which is far away from the hose;

the hose is connected with the oil storage bottle and arranged on one side close to the ground;

the oil control block is sleeved on the hose;

the oil control piece is in threaded fit with the oil control block and extrudes the hose to control the flow rate;

a guide pipe which is arranged on the punching machine and is used for inserting the hose;

the guide block is arranged on the punching machine and is used for the guide pipe to penetrate and slide;

the oil outlet table is arranged on the punching machine and is connected with the guide pipe so as to allow oil to leak to the processing station;

the sliding rod is arranged on the punching machine and penetrates through the oil outlet platform;

the first pressure spring is sleeved on the sliding rod and used for controlling the oil outlet platform to reset.

Through adopting above-mentioned technical scheme, add oil through the stamping forming work that refuels the station in with the punching machine, the mount is fixed the oil storage bottle, and can add oil in the oil storage bottle to lead into the pipe through the hose with oil, thereby add oil to the punching machine through the platform that produces oil, the guide piece guides for the pipe, the first pressure spring of slide bar cooperation, thereby upwards lift the platform that produces oil, convenient the reseing, the practicality is strong.

The invention is further configured to: the material collecting device also comprises an adding station for adding materials, a transmission station matched with the adding station and used for transmitting the materials, a switching station matched with the transmission station and used for switching the materials, a heating station connected with the switching station and used for heating the materials, a feeding station matched with the heating station and used for placing the materials on the punching machine, a discharging station matched with the feeding station and used for discharging the materials, and an aggregate station matched with the discharging station and used for intensively collecting the materials;

the add station includes:

the material storage box is placed on the ground and used for storing materials;

the first fixed plate is fixedly connected to the material storage box, is used for rolling materials to the transmission station and is connected with the second movable plate in an abutting mode;

the second fixed plate is fixedly connected to the material storage box, is used for turning materials to the first movable plate, is connected with the first movable plate and the second movable plate in an abutting mode, and is positioned between the first movable plate and the second movable plate;

the first movable plate is connected to the material storage box in a sliding mode, lifts the materials to the first fixed plate and is located between the first fixed plate and the second fixed plate;

the second movable plate is connected to the material storage box in a sliding mode and lifts the materials to the second fixed plate;

the lifting plate is connected with the first movable plate and the second movable plate and is connected with a piston rod of the adding oil cylinder;

and the adding oil cylinder is arranged on the storage box and is used for driving the lifting plate to lift.

Through adopting above-mentioned technical scheme, will treat the material of processing through the storage case and save, first fixed plate and second fixed plate do not remove, through the ascending lifting of first fly leaf and second fly leaf to remove the material to on the transmission station, and add the hydro-cylinder cooperation and lift the board, carry out the lifting with first fly leaf and second fly leaf in step, efficiency is higher.

The invention is further configured to: a limiting baffle plate for materials to pass through is further arranged on one side, close to the first fixing plate, of the storage box, the limiting baffle plate guides the materials to roll to the transmission station, and a connecting plate connected with the storage box through a bolt is further arranged on the limiting baffle plate;

also comprises a transport box placed on the ground.

Through adopting above-mentioned technical scheme, will carry on spacingly through the material of first fly leaf lifting to first fixed plate through limit baffle to the material conveying that supplies to lie, the material that will erect shelters from, thereby returns to in the storage box, and limit baffle is connected to the connecting plate, and fixed angle and clearance simultaneously, transportation box conveniently supplies the material to add to the storage box in, and is more convenient.

The invention is further configured to: the transfer station includes:

the conveying channel is arranged on the adding station and used for placing materials;

the conveying chain is arranged on the conveying channel and is used for conveying materials;

the transmission gear is rotationally connected to the transmission channel and meshed with the transmission chain;

the transmission motor is arranged on the adding station;

the transmission driving wheel is connected with an output shaft of the transmission motor;

a transmission driven wheel arranged coaxially with the transmission gear

The transmission belt is connected with the transmission driving wheel and the transmission driven wheel;

and the material shortage sensor is arranged on the transmission channel and used for detecting materials and controlling the on-off of the adding oil cylinder.

Through adopting above-mentioned technical scheme, place the material through the transmission way to transmit the material through transmission motor cooperation transmission gear and transmission chain, transmission action wheel cooperation transmission on the transmission motor is from driving wheel and transmission belt, thereby drives the rotation of transmission gear.

The invention is further configured to: the conveying track is also provided with a notch which is used for the materials to fall and corresponds to the conveying guide sheet;

still be provided with on the transmission track and correspond with the breach and be used for leading to the feed back way in the storage box.

Through adopting above-mentioned technical scheme, through the setting of limit for height board, make only one of material can pass through, and the material that the transmission guide piece will overlap is guided and is dropped to cooperation breach and feed back way, thereby feed back to storage box, the practicality is strong.

The invention is further configured to: the switching station includes:

the switching bracket is arranged on the transmission station;

the first switching cylinder is arranged on the switching bracket and is used for driving the first switching rod;

the first switching rod is connected with a piston rod of the first switching cylinder;

the first switching block is arranged on the transmission channel, is used for the first switching rod to penetrate and slide, and is arranged at the same height as a piston rod of the first switching cylinder;

the ejection block is arranged on one side, away from the first switching cylinder, of the first switching rod and is used for ejecting and fixing materials;

the second switching cylinder is arranged on the switching bracket and is used for driving the second switching rod;

the second switching rod is connected with a piston rod of the second switching cylinder;

a second switching block arranged on the transmission channel and used for the second switching rod to penetrate and slide, and arranged at the same height as the piston rod of the second switching cylinder

The second switching roller is connected to one side close to the top block in a rolling mode, used for limiting material transmission and matched with the top block;

the third switching cylinder is arranged on the switching bracket and is used for driving the third switching rod;

the third switching slide bar is fixedly connected to the switching bracket;

the third switching slide block is connected with the third switching slide bar in a sliding manner and is connected with a piston rod of a third switching cylinder;

the third switching rod is fixedly connected to the third switching slide block;

the third switching shifting block is fixedly connected to the third switching rod and used for shifting the materials blocked by the limiting block to the heating station from the conveying channel;

the limiting block is arranged on the conveying channel and used for blocking material conveying;

and the material sensor is arranged on the limiting block and used for detecting materials.

By adopting the technical scheme, the first switching cylinder, the second switching cylinder and the third switching cylinder are installed through the switching support, the first switching rod is connected with the first switching cylinder, the material is jacked by the jacking block in a matching manner, the transportation is stopped, and the first switching rod is stabilized by the first switching block; the second switching rod is matched with the second switching cylinder, so that the materials are isolated, meanwhile, the second switching block stabilizes the second switching rod, and when the second switching rod is retracted by the second switching roller, the friction between the second switching rod and the materials is reduced; the third switching cylinder is matched with the third switching slide bar and the third switching slide block so as to drive the third switching rod to displace, and the third switching shifting block is matched so as to transfer the material to the heating station; the stopper limits the material to reduce the material and drop, material sensor is used for detecting whether there is the material to arrive, thereby control first switching cylinder, second switching cylinder, third switching cylinder motion.

The invention is further configured to: the heating station includes:

the heating channel is arranged on the switching station and used for conveying materials, and the switching station is used for switching and placing the materials;

the heating pipe is aligned with the heating channel;

a heating box placed on the ground and used for heating the heating wire;

the heating wire is wound on the heating pipe and used for heating the material;

the heating clamping block is clamped and fixed on the heating wire and used for fixing the heating wire and the heating pipe;

the heating cylinder is arranged on the transmission station and used for pushing materials into the heating pipe;

and the pushing block is connected with a piston rod of the heating cylinder and used for pushing the material on the heating channel.

Through adopting above-mentioned technical scheme, thereby will switch the material on the station through heating way and shift to transport through heating cylinder cooperation ejector pad, and through heating pipe and the heater strip of being connected with the heating cabinet, thereby heat the material, the heating grip block is used for consolidating on heater strip to the heating pipe, and stability is strong.

The invention is further configured to: the ejection of compact station includes:

the workbench is arranged on the punching machine;

the discharging shaft is arranged on the workbench;

the discharging rotating block is sleeved and rotated on the discharging shaft and is fixed through a bolt;

the discharging rod is arranged on the discharging rotating block;

the discharging shifting piece is arranged on the discharging rod and is far away from one side of the discharging rotating block;

the discharging cylinder is arranged on the workbench;

and the discharging connecting rod is connected with the piston rod of the discharging cylinder, pivoted with the discharging rod and used for driving the discharging rod to move towards the material direction.

Through adopting above-mentioned technical scheme, through the setting of the rotatory piece of ejection of compact axle and ejection of compact to through the cooperation between discharge bar and the ejection of compact cylinder, rethread ejection of compact plectrum conveys the material out, and ejection of compact connecting rod carries out the pin joint between with ejection of compact cylinder and the discharge bar, and the practicality is strong.

The invention is further configured to: the aggregate station comprises:

the material collecting channel is arranged on the punching machine, is matched with the discharging shifting sheet and is used for guiding the material to be discharged;

the aggregate baffle is arranged on the aggregate channel and used for limiting the discharge position of the materials;

the material collecting box is placed on the ground, matched with the material collecting channel and used for collecting materials;

the aggregate grid plate is arranged on the aggregate box and used for placing materials and draining oil.

Through adopting above-mentioned technical scheme, gather materials and say the convenience with the material ejection of compact, and the baffle that gathers materials reduces the ejection of compact position of photographic paper material and drops, and the graticule board that gathers materials on the case that gathers materials drips the grease on the material and does, and the practicality is strong.

The invention is further configured to: the pan feeding station includes:

the feeding channel is arranged on the workbench and is used for feeding materials;

the feeding separation blade is pivoted and limited on the feeding channel and is used for buffering materials;

the feeding placing table is arranged on the workbench, is matched with the feeding channel and is used for placing materials;

the feeding cylinder is arranged on the workbench;

the feeding shaft is arranged on the workbench;

the feeding rotating block is sleeved and fixed on the feeding shaft;

the feeding rod is arranged on the feeding rotating block;

the feeding connecting rod is connected with the piston rod of the feeding cylinder and pivoted with the feeding rod and is used for driving the feeding rod to move towards the material direction;

the feeding clamping block is arranged on one side of the feeding rod, which is far away from the guide ruler, and synchronously clamps the materials with the feeding rod;

the feeding pivoting rod is pivoted with the feeding rod and is fixedly connected with the feeding clamping block;

the first air cylinder is arranged on the feeding rod, is pivoted with the feeding pivoting rod and is used for driving the feeding pivoting rod;

the guide ruler is arranged on one side of the feeding arm, which is far away from the feeding clamping block;

the guide seat is arranged on the workbench;

and the feeding guide sheet is arranged on the guide seat and is limited by being guided by the guide ruler.

By adopting the technical scheme, the materials are conveyed by the arrangement of the feeding channel, the materials are buffered when falling through the feeding separation block, meanwhile, the materials are temporarily placed through the feeding placing table, the feeding cylinder is matched with the feeding shaft, the feeding rotating block and the feeding rod so as to be driven and carried, and then matched with the feeding connecting rod so as to be pivoted, the feeding clamping block is matched with the feeding pivoting rod so as to clamp the materials, and meanwhile, the first cylinder drives the feeding driving rod; the guide ruler improves the overall sliding stability, and the guide ruler is used for skimming, guiding the base and feeding the guide sheet, so that the practicability is high.

In conclusion, the beneficial technical effects of the invention are as follows:

1. the adhesion of a pressed piece is reduced, the discharging is rapid, and the demoulding quality is good;

2. full-automatic production has improved holistic efficiency.

Drawings

Fig. 1 is a schematic structural diagram of a rocker arm type red punching valve body production device.

Fig. 2 is a first structural schematic diagram of the adding station and the conveying station.

Fig. 3 is an enlarged schematic view of the transmission driving wheel and the transmission driven wheel in the part a of fig. 2.

Fig. 4 is a schematic structural diagram two of the adding station and the conveying station.

Fig. 5 is a partial schematic view of the adding station.

Fig. 6 is a schematic structural view of the switching station and the heating station.

Fig. 7 is a schematic structural diagram of a feeding station and a discharging station.

Fig. 8 is an enlarged schematic view of the reserve bottle at the portion B in fig. 7.

Fig. 9 is an explosion schematic diagram I of a feeding station and a discharging station.

FIG. 10 is a schematic structural diagram II of the feeding station and the discharging station.

In the figure, 1, a punch; 2. a refueling station; 200. a fixed mount; 201. an oil storage bottle; 202. a bottle cap; 203. a hose; 210. controlling an oil block; 211. an oil control member; 22. a conduit; 23. a guide block; 240. an oil outlet table; 241. a slide bar; 242. a first pressure spring; 3. adding stations; 30. a material storage box; 31. a first fixing plate; 32. a second fixing plate; 33. a first movable plate; 34. a second movable plate; 35. lifting the plate; 36. adding an oil cylinder; 370. a limit baffle; 371. a connecting plate; 38. a transport box; 4. a transmission station; 400. a transmission channel; 401. a notch; 41. a transmission chain; 42. a transmission gear; 43. a transmission motor; 44. a transmission driving wheel; 45. a driven wheel is transmitted; 46. a transfer belt; 47. a starved sensor; 480. a height limiting plate; 481. a transport guide sheet; 49. a material returning channel; 5. station switching; 50. switching the bracket; 510. a first switching cylinder; 511. a first switching lever; 512. a first switching block; 513. a top block; 520. a second switching cylinder; 521. a second switch lever; 522. a second switching block; 523. a second switching drum; 530. a third switching cylinder; 531. a third switching slider; 532. a third switching slider; 533. a third switch lever; 534. a third switching shifting block; 54. a limiting block; 55. a material sensor; 6. a heating station; 60. a heating channel; 61. heating a tube; 62. a heating box; 63. heating wires; 64. heating the clamping block; 65. heating the cylinder; 66. a push block; 7. a feeding station; 700. a feeding channel; 701. feeding separation blades; 702. a feeding placing table; 710. a feeding cylinder; 711. a feeding shaft; 712. feeding a rotating block; 713. a feeding rod; 714. a feeding connecting rod; 720. feeding a clamping block; 721. a feeding pivoting rod; 722. a first cylinder; 730. a guide ruler; 731. a guide seat; 732. a feeding guide sheet; 8. a discharge station; 80. a work table; 81. discharging the material shaft; 82. discharging the rotary block; 83. a discharge rod; 84. a discharging shifting sheet; 85. a discharging cylinder; 86. a discharge connecting rod; 9. a material collecting station; 90. a material collecting channel; 91. an aggregate baffle; 92. a material collecting box; 93. aggregate grid plate.

Detailed Description

The present invention is described in further detail below with reference to figures 1-10.

Referring to fig. 1, the rocker arm type red punching valve body production device disclosed by the invention comprises a punching machine 1 placed on the ground and used for material punch forming, an adding station 3 used for adding materials, a transmission station 4 matched with the adding station 3 and used for transmitting the materials, a switching station 5 matched with the transmission station 4 and used for switching the materials, a heating station 6 connected with the switching station 5 and used for heating the materials, a feeding station 7 matched with the heating station 6 and used for placing the materials on the punching machine 1, an oiling station 2 used for oiling a processing station of the punching machine 1, a discharging station 8 matched with the feeding station 7 and used for sending out the materials, and an aggregation station 9 matched with the discharging station 8 and used for intensively collecting the materials.

Referring to fig. 1, the material collecting station 9 comprises a material collecting channel 90, a material collecting baffle 91, a material collecting box 92 and a material collecting grid plate 93.

Be provided with on punching machine 1 and say 90 with ejection of compact plectrum 84 complex collection, collection material says 90 and is used for guiding the material ejection of compact, and the collection is said and is said 90 and go up an organic whole and be provided with the baffle 91 that gathers materials, and the baffle 91 that gathers materials supplies out and carries on spacingly after plectrum 84 dials out, falls along the incline direction that collection material said 90 again to get into to collection workbin 92.

The material collecting box 92 is placed on the ground and used for collecting materials, the material collecting channel 90 is further provided with a material collecting grid plate 93, the material collecting grid plate 93 is used for placing the materials, and meanwhile, redundant oil is drained.

Referring to fig. 2, 4 and 5, the adding station 3 includes a storage box 30, a first fixed plate 31, a second fixed plate 32, a first movable plate 33, a second movable plate 34, a lifting plate 35 and an adding cylinder 36.

Placing the storage case 30 of keeping in with the material on the ground, being provided with first fixed plate 31 and second fixed plate 32 in the storage case 30, first fixed plate 31 and second fixed plate 32 all are fixed to the inside wall of storage case 30 on, can adopt glue to bind when fixed, also can use the bolt to fix.

The first fixed plate 31 is used for rolling the material to the conveying station 4, and the first fixed plate 31 is connected with the second movable plate 34 in an abutting mode. The second fixed plate 32 is used for turning the material to the first movable plate 33, and the second fixed plate 32 is connected with the first movable plate 33 and the second movable plate 34 in an abutting manner and is located between the first movable plate 33 and the second movable plate 34.

The first movable plate 33 and the second movable plate 34 are slidably engaged with the material storage box 30, the first movable plate 33 lifts the material onto the first fixed plate 31, and the first movable plate 33 is located between the first fixed plate 31 and the second fixed plate 32. The second movable plate 34 lifts the material onto the second fixed plate 32.

A lifting plate 35 is integrally arranged between the first movable plate 33 and the second movable plate 34, and is connected by the lifting plate 35, and the lifting plate 35 is connected with a piston rod of the adding cylinder 36. An adding oil cylinder 36 is arranged on the material storage tank 30, and a piston rod of the adding oil cylinder 36 is fixedly connected with the lifting plate 35 and is used for driving the lifting plate 35 to lift.

The material storage box 30 is further provided with a limit baffle 370 on one side close to the first fixing plate 31, the limit baffle 370 guides the material to roll to the transmission station 4, and the limit baffle 370 is further provided with a connecting plate 371 connected with the material storage box 30 through a bolt. By rotating the connecting plate 371, the gap between the limit stop 370 and the storage bin 30 can be adjusted.

Transport box 38 has still been placed on the ground, has placed the material in transport box 38, transports the material to storage case 30 through tools such as shovel.

Referring to fig. 2-4, the conveying station 4 comprises a conveying channel 400, a conveying chain 41, a conveying gear 42, a conveying motor 43, a conveying driving wheel 44, a conveying driven wheel 45, a conveying belt 46 and a material shortage sensor 47.

The adding station 3 is also fixedly provided with a transmission channel 400, the transmission channel 400 is fixedly connected with the material storage box 30, and the transmission channel 400 is used for transmitting and placing materials. The conveying channel 400 is further provided with a conveying chain 41 for conveying materials, the conveying channel 400 is further rotatably connected with a conveying gear 42, and the conveying gear 42 is meshed with the conveying chain 41.

Still be provided with transmission motor 43 on being located the ejection of compact case, be fixed with transmission action wheel 44 on transmission motor 43's the output shaft, and coaxial being provided with on the transmission gear 42 transmits from driving wheel 45, transmission gear 42 with transmit from driving wheel 45 to be connected through the axle, transmit action wheel 44 and transmit from driving wheel 45 between be connected through transmission belt 46. Drive transmission action wheel 44 through transmission motor 43, transmission action wheel 44 drives the transmission through transmission belt 46 and follows driving wheel 45, and the transmission drives transmission gear 42 from driving wheel 45 and rotates, and transmission gear 42 drives transmission chain 41 to drive the commodity circulation transmission on the transmission chain 41, the material in this embodiment is cylindrical setting, thereby processes.

The material shortage sensor 47 is arranged on the transmission channel 400 and is used for detecting materials and controlling the on-off of the adding oil cylinder 36. And the starved sensor 47 is arranged on the transmission channel 400 and is positioned at the rear end of the height limiting plate 480.

Referring to fig. 4 and 5, a height limiting plate 480 for passing a material is further disposed on the transmission channel 400, a guide piece for guiding the stacked materials to fall is further disposed on the limiting plate, a notch 401 for the materials to fall and corresponding to the guide piece is further disposed on the transmission rail, and a material return channel 49 corresponding to the notch 401 and used for guiding the materials to the material storage box 30 is further disposed on the transmission rail.

When the overlapped materials are conveyed, the overlapped materials are guided to fall by the conveying guide piece 481 and matched with the notch 401 and the material return channel 49, so that the materials are returned to the material storage box 30.

Referring to fig. 4 and 6, the switching station 5 includes a switching bracket 50, a first switching cylinder 510, a first switching lever 511, a first switching block 512, a top block 513, a second switching cylinder 520, a second switching lever 521, a second switching block 522, a second switching roller 523, a third switching cylinder 530, a third switching slider 531, a third switching slider 532, a third switching lever 533, a third switching toggle block 534, a stopper 54, and a material sensor 55.

The welding has the switching support 50 on the transmission way 400 of transmission station 4, switches and installs first switching cylinder 510 on the support 50, is fixed with first switching rod 511 on the piston rod of first switching cylinder 510, on first switching block 512 is fixed and switches the support 50, and on first switching rod 511 wore to locate switching support 50, is provided with kicking block 513 on the piston rod that first switching rod 511 kept away from first switching cylinder 510.

The first switching rod 511 is driven by the first switching cylinder 510 to push forward, so as to drive the top block 513 to push the material on the conveying channel 400.

The second switching cylinder 520 is installed on the switching bracket 50, a second switching rod 521 is fixed on a piston rod of the second switching cylinder 520, the second switching block 522 is fixed on the switching bracket 50, the second switching rod 521 is arranged on the switching bracket 50 in a penetrating manner, a second switching roller 523 is connected on a piston rod of the second switching rod 521 far away from the second switching cylinder 520 in a rolling manner, and the second switching roller 523 rotates on the second switching rod 521.

The second switching rod 521 is driven to withdraw forwards through the second switching cylinder 520, so that the material is limited, and the second switching roller 523 plays a role in reducing the abrasion when the second switching cylinder 520 moves.

The third switching cylinder 530 is mounted on the switching bracket 50, a third switching slider 532 is fixed on a piston rod of the third switching cylinder 530, a third switching slide 531 in sliding fit with the switching slider is arranged on the switching bracket 50, a third switching rod 533 is fixed on the third switching slider 532 through a bolt, and a third switching toggle block 534 is fixed on one side of the third switching rod 533 far away from the piston rod of the third switching cylinder 530.

The third switching cylinder 530 retracts to drive the third switching slide 531 and the third switching rod 533, so as to drive the third switching shifting block 534 to shift the material from the conveying channel 400 to the heating channel 60.

The transmission channel 400 is provided with a limiting block 54 in the transmission direction of the transmission chain 41, the limiting block 54 is used for blocking the transmission of materials, and the limiting block 54 is further provided with a material sensor 55.

When the material sensor 55 detects a material, the first switching cylinder 510 controls the top block 513 to clamp and hold the material, the second switching cylinder 520 controls the second switching rod 521 to isolate the material from being conveyed, and the third switching cylinder 530 controls the third switching shifting block 534 to shift the material from the conveying channel 400 to the heating channel 60. At this time, the material sensor 55 does not detect the material, the first switching cylinder 510 controls the top block 513 to retract to release the material, the second switching cylinder 520 controls the second switching rod 521 to retract to normally transport the material, and the third switching cylinder 530 controls the third switching shifting block 534 to reset on the transmission channel 400.

At the same time. When the material shortage sensor 47 does not detect the material, the adding oil cylinder 36 is controlled to lift the material from the storage box 30 to the conveying channel 400.

Referring to fig. 6, the heating station 6 includes a heating channel 60, a heating pipe 61, a heating box 62, a heating wire 63, a heating clamping block 64, a heating cylinder 65, and a pushing block 66.

Heating box 62 is placed and subaerial, and heating box 62 is connected with heater strip 63 and is used for heating heater strip 63, and heater strip 63 twines to heating pipe 61 on, carries out the centre gripping through four heating grip blocks 64 simultaneously, and heating grip block 64 is fixed heater strip 63 to heating pipe 61 through bolt and nut on, and heating pipe 61 sets up with heating way 60 an organic whole, and heating way 60 welds to transmission way 400 on.

The heating cylinder 65 is fixed on the conveying channel 400 of the conveying station 4, and the piston rod of the heating cylinder 65 is provided with the push block 66, so that the materials on the heating channel 60 are sequentially pushed into the heating pipe 61 for heating in an arrangement mode, and the materials are only pushed forward by the length of one material during pushing and are conveyed in a superposition mode.

Referring to fig. 7 and 8, the stamping machine 1 is placed on the ground and used for stamping materials to form a preliminary valve body, and the refueling station 2 comprises a fixed frame 200, an oil storage bottle 201, a bottle cap 202, a hose 203, an oil control block 210, an oil control piece 211, a guide pipe 22, a guide block 23, an oil outlet table 240, a slide rod 241 and a first pressure spring 242.

The punching machine 1 is fixed with a fixing frame 200 for clamping and fixing an oil storage bottle 201 through bolts, oil is placed in the oil storage bottle 201, meanwhile, a bottle cap 202 is connected to the oil storage bottle 201 in a threaded mode, small holes communicated with the outside are formed in the bottle cap 202, and a hose 203 for oil supply to drip out is connected to the oil storage bottle 201.

Hose 203 goes up the cover and is established and be fixed with accuse oil piece 210, and accuse oil piece 210 is the U-shaped setting to press from both sides tightly fixedly through bolt and nut, the last screw-thread fit that still goes up of accuse oil piece 210 has accuse oil piece 211, and accuse oil piece 211 is the hand nut of screwing, through screw-thread fit, thereby compresses tightly hose 203, with the speed that control oil drips from hose 203.

The punch 1 is further provided with a guide pipe 22, the guide pipe 22 is used for inserting the hose 203, the punch 1 is further provided with an oil outlet table 240, the oil outlet table 240 is communicated with the guide pipe 22, and the oil outlet table 240 is provided with small holes for oil to drip, so that the oil drips on the punched surface through the oil outlet table 240.

The punching machine 1 is further provided with a sliding rod 241, a first pressure spring 242 is sleeved on the sliding rod 241, and the first pressure spring 242 is arranged below the sliding rod 241, so that the oil supply and discharge table 240 is reset. The stamping head on the stamping machine 1 penetrates through the oil outlet table 240, so that the material is stamped.

Referring to fig. 7, 9 and 10, the feeding station 7 includes a feeding channel 700, a feeding separation blade 701, a feeding placing table 702, a feeding cylinder 710, a feeding shaft 711, a feeding rotating block 712, a feeding rod 713, a feeding connecting rod 714, a feeding clamping block 720, a feeding pivoting rod 721, a first cylinder 722, a guiding ruler 730, a guiding seat 731 and a guiding sheet.

The welding has workstation 80 on punching machine 1, is fixed with on the workstation 80 and goes into the material way 700, and the material way 700 is fixed through outside support, also can directly dare to connect to workstation 80 again through the mode of cutting for guide chi 730, pan feeding clamp splice 720, pan feeding pole 713 pass through.

The feeding channel 700 is pivoted with a feeding partition plate, heated materials in the heating pipe 61 are pushed into the feeding channel 700, the feeding partition plate and the discharging channel are limited and closed when the materials do not enter, buffering capacity is achieved when the materials enter, the feeding partition plate is slightly opened, and meanwhile the materials cannot be ejected. A feeding placing table 702 is arranged on the workbench 80, and the feeding placing table 702 is matched with the feeding channel 700 for placing materials.

A feeding cylinder 710 is fixed on the workbench 80, the feeding cylinder 710 can be heightened through a steel block according to actual conditions, a feeding connecting rod 714 is fixedly sleeved on a piston rod of the feeding cylinder 710, a feeding shaft 711 is fixed on the workbench 80, a feeding rotating block 712 is further fixedly sleeved on the feeding shaft 711, a feeding rod 713 is fixedly arranged on the feeding rotating block 712 through a bolt, and the feeding rod 713 is pivoted with the feeding connecting rod 714.

The feeding rod 713 is integrally provided with a guide ruler 730 at one side far away from the feeding clamping block 720, the workbench 80 is provided with a guide seat 731, the guide seat 731 is integrally provided with a guide sheet for clamping and fixing the guide ruler 730, and the guide sheet clamps the guide ruler 730 up and down.

By the extension and contraction of the feeding cylinder 710, the feeding rod 713 is driven to rotate along the axial direction of the feeding shaft 711, and the guide ruler 730 and the guide sheet are guided to each other to keep the feeding rod 713 rotating horizontally.

A feeding clamping block is arranged on one side of the feeding rod 713 away from the guiding ruler 730, a feeding pivoting rod 721 is fixedly connected to the feeding clamping block through the matching of a bolt and glue, the feeding pivoting rod 721 is pivoted with the feeding rod 713, a first air cylinder 722 is further fixed on the feeding rod 713, and the first air cylinder is pivoted with the feeding pivoting rod 721 and used for driving the feeding pivoting rod 721 so as to control the clamping matching between the feeding clamping block 720 and the feeding rod 713.

The piston rod of the first air cylinder 722 extends out, so that the feeding clamping block 720 is controlled to move away from the feeding rod 713, and the material is not clamped; by retracting the piston rod of the first cylinder 722, the feeding clamping block 720 is controlled to move towards the feeding rod 713, so that the material is clamped.

Referring to fig. 7, 9 and 10, the discharging station 8 includes a worktable 80, a discharging shaft 81, a discharging rotary block 82, a discharging rod 83, a discharging shifting plate 84, a discharging cylinder 85 and a discharging connecting rod 86.

The punching machine 1 is welded with a workbench 80, a discharging shaft 81 is fixed on the workbench 80, a discharging rotating block 82 is fixedly sleeved on the discharging shaft 81, and the discharging rotating block 82 and the discharging shaft 81 can be reinforced through bolts. The discharging rotating block 82 is integrally provided with a discharging rod 83, and one side of the discharging rod 83 far away from the discharging rotating block 82 is integrally provided with a discharging shifting piece 84.

Still be provided with ejection of compact cylinder 85 on the workstation 80, ejection of compact cylinder 85 is located pan feeding cylinder 710's top to reduce whole space, be connected with ejection of compact cylinder 85's piston rod and be connected with ejection of compact connecting rod 86, and ejection of compact connecting rod 86 and the pin joint of ejection of compact pole 83 and be used for driving ejection of compact pole 83 to the direction of material motion, in order to dial the commodity circulation that has processed on the punching machine 1 and send to the station 9 that gathers materials.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims (10)

1. The utility model provides a red valve body apparatus for producing that dashes of rocking arm formula, is including placing in subaerial and supplying punching machine (1) of material stamping forming, its characterized in that: comprising a refuelling station (2) for refuelling a processing station of a press (1), the processing station comprising:

the fixing frame (200) is arranged on the punching machine (1) and is used for clamping and fixing the oil storage bottle (201);

an oil storage bottle (201) for storing oil and fat and connected to a hose (203);

the bottle cap (202) is in threaded fit with one side, away from the hose (203), of the oil storage bottle (201);

a hose (203) connected to the oil storage bottle (201) and disposed on a side close to the ground;

the oil control block (210) is sleeved on the hose (203);

an oil control member (211) which is screw-fitted to the oil control block (210) and presses the hose (203) to control a flow rate;

a pipe (22) which is provided on the press machine (1) and into which the hose (203) is inserted;

the guide block (23) is arranged on the punching machine (1) and is used for the guide pipe (22) to penetrate and slide;

the oil outlet table (240) is arranged on the punching machine (1) and is connected with the guide pipe (22) so as to allow grease to leak to the processing station;

the sliding rod (241) is arranged on the punching machine (1) and penetrates through the oil outlet table (240);

and the first pressure spring (242) is sleeved on the sliding rod (241) and is used for controlling the oil outlet table (240) to reset.

2. The rocker-arm-type red-punching valve body production device of claim 1, wherein: the material collecting device is characterized by also comprising an adding station (3) for adding materials, a transmission station (4) matched with the adding station (3) and used for transmitting the materials, a switching station (5) matched with the transmission station (4) and used for switching the materials, a heating station (6) connected with the switching station (5) and used for heating the materials, a feeding station (7) matched with the heating station (6) and used for placing the materials on the punching machine (1), a discharging station (8) matched with the feeding station (7) and used for sending the materials out, and an aggregate station (9) matched with the discharging station (8) and used for intensively collecting the materials;

the adding station (3) comprises:

the material storage box (30) is placed on the ground and used for storing materials;

the first fixing plate (31) is fixedly connected to the material storage box (30), is used for rolling materials to the transmission station (4), and is connected with the second movable plate (34) in an abutting mode;

the second fixing plate (32) is fixedly connected to the material storage box (30), is used for turning over the materials to the first movable plate (33), is abutted against and connected with the first movable plate (33) and the second movable plate (34), and is positioned between the first movable plate (33) and the second movable plate (34);

the first movable plate (33) is connected to the material storage box (30) in a sliding manner, lifts the material to the first fixed plate (31), and is positioned between the first fixed plate (31) and the second fixed plate (32);

the second movable plate (34) is connected to the material storage box (30) in a sliding manner and lifts the material onto the second fixed plate (32);

the lifting plate (35) is connected with the first movable plate (33) and the second movable plate (34) and is connected with a piston rod of the adding oil cylinder (36);

and the adding oil cylinder (36) is arranged on the storage box (30) and is used for driving the lifting plate (35) to lift.

3. The rocker-arm-type red-punching valve body production device of claim 2, wherein: a limiting baffle (370) for allowing the materials to pass through is further arranged on one side, close to the first fixing plate (31), of the storage box (30), the limiting baffle (370) guides the materials to roll to the transmission station (4), and a connecting plate (371) connected with the storage box (30) through bolts is further arranged on the limiting baffle (370);

also includes a transport box (38) placed on the ground.

4. The rocker-arm-type red-punching valve body production device of claim 2, wherein: the transfer station (4) comprises:

the conveying channel (400) is arranged on the adding station (3) and used for placing materials;

the conveying chain (41) is arranged on the conveying channel (400) and is used for conveying materials;

the transmission gear (42) is rotationally connected to the transmission channel (400) and is meshed with the transmission chain (41);

the transmission motor (43) is arranged on the adding station (3);

the transmission driving wheel (44) is connected with an output shaft of the transmission motor (43);

a transmission driven wheel (45) arranged coaxially with the transmission gear (42)

The transmission belt (46) is connected with the transmission driving wheel (44) and the transmission driven wheel (45);

and the material shortage sensor (47) is arranged on the transmission channel (400) and is used for detecting materials and controlling the opening and closing of the adding oil cylinder (36).

5. The rocking arm type red punching valve body production device according to claim 4, wherein: the conveying channel (400) is also provided with a height limiting plate (480) for a material to pass through, the limiting plate is also provided with a conveying guide sheet (481) for guiding the stacked materials to fall, and the conveying track is also provided with a notch (401) for the materials to fall and corresponding to the conveying guide sheet (481);

the conveying track is also provided with a material returning channel (49) which corresponds to the notch (401) and is used for guiding the material returning channel into the material storage box (30).

6. The rocking arm type red punching valve body production device according to claim 4, wherein: the switching station (5) comprises:

the switching bracket (50) is arranged on the transmission station (4);

a first switching cylinder (510) provided on the switching bracket (50) and for driving the first switching lever (511);

a first switching lever (511) connected to a piston rod of the first switching cylinder (510);

the first switching block (512) is arranged on the transmission channel (400), is used for the first switching rod (511) to penetrate and slide, and is arranged at the same height as a piston rod of the first switching cylinder (510);

the jacking block (513) is arranged on one side, away from the first switching cylinder (510), of the first switching rod (511) and is used for jacking and fixing the materials;

a second switching cylinder (520) which is provided on the switching bracket (50) and drives the second switching lever (521);

a second switching lever (521) connected to a piston rod of the second switching cylinder (520);

a second switching block (522) which is arranged on the transmission channel (400) and is used for the second switching rod (521) to penetrate and slide, and is arranged at the same height with the piston rod of the second switching cylinder (520)

The second switching roller (523) is connected to one side close to the top block (513) in a rolling mode, used for limiting material transmission and matched with the top block (513);

a third switching cylinder (530) provided on the switching bracket (50) and configured to drive the third switching lever (533);

a third switching slide bar (531) fixedly connected to the switching bracket (50);

the third switching slide block (532) is connected with the third switching slide bar (531) in a sliding manner and is connected with a piston rod of the third switching cylinder (530);

a third switching rod (533) fixedly connected to the third switching slider (532);

the third switching shifting block (534) is fixedly connected to the third switching rod (533) and is used for shifting the material blocked by the limiting block (54) from the conveying channel (400) to the heating station (6);

the limiting block (54) is arranged on the conveying channel (400) and used for blocking material conveying;

and the material sensor (55) is arranged on the limiting block (54) and is used for detecting materials.

7. The rocker-arm-type red-punching valve body production device of claim 2, wherein: the heating station (6) comprises:

the heating channel (60) is arranged on the switching station (5) and is used for conveying materials, and the switching station (5) is used for switching and placing the materials;

a heating pipe (61) aligned with the heating channel (60);

a heating box (62) placed on the ground and used for heating the heating wire (63);

the heating wire (63) is wound on the heating pipe (61) and is used for heating the materials;

the heating clamping block (64) is clamped and fixed on the heating wire (63) and is used for fixing the heating wire (63) and the heating pipe (61);

the heating cylinder (65) is arranged on the transmission station (4) and is used for pushing materials into the heating pipe (61);

and the pushing block (66) is connected with a piston rod of the heating cylinder (65) and used for pushing the materials on the heating channel (60).

8. The rocker-arm-type red-punching valve body production device of claim 2, wherein:

the discharge station (8) comprises:

a table (80) provided on the press machine (1);

the discharging shaft (81) is arranged on the workbench (80);

the discharging rotating block (82) is sleeved and rotated on the discharging shaft (81) and is fixed through a bolt;

the discharging rod (83) is arranged on the discharging rotating block (82);

the discharging shifting sheet (84) is arranged on the discharging rod (83) and is far away from one side of the discharging rotating block (82);

the discharging cylinder (85) is arranged on the workbench (80);

and the discharging connecting rod (86) is connected with the piston rod of the discharging cylinder (85), is pivoted with the discharging rod (83) and is used for driving the discharging rod (83) to move towards the material direction.

9. The rocker-arm-type red-punching valve body production device of claim 2, wherein: the collecting station (9) comprises:

the material collecting channel (90) is arranged on the punch (1), is matched with the discharging shifting sheet (84) and is used for guiding the material to be discharged;

the material collecting baffle (91) is arranged on the material collecting channel (90) and is used for limiting the material discharging position;

the material collecting box (92) is placed on the ground, matched with the material collecting channel (90) and used for collecting materials;

and the aggregate grid plate (93) is arranged on the aggregate box (92) and used for placing materials and draining oil.

10. The rocker-arm-type red-punching valve body production device of claim 2, wherein: the feeding station (7) comprises:

the feeding channel (700) is arranged on the workbench (80) and is used for feeding materials;

the feeding separation baffle plate (701) is pivoted and limited on the feeding channel (700) and is used for buffering materials;

a feeding placing table (702) which is arranged on the workbench (80), is matched with the feeding channel (700) and is used for placing materials;

the feeding cylinder (710) is arranged on the workbench (80);

a feeding shaft (711) arranged on the workbench (80);

a feeding rotating block (712) which is sleeved and fixed on the feeding shaft (711);

a feeding rod (713) arranged on the feeding rotating block (712);

the feeding connecting rod (714) is connected with the piston rod of the feeding cylinder (710), is pivoted with the feeding rod (713), and is used for driving the feeding rod (713) to move towards the material direction;

the feeding clamping block (720) is arranged on one side of the feeding rod (713) far away from the guide ruler (730) and synchronously clamps the materials with the feeding rod (713);

the feeding pivoting rod (721) is pivoted with the feeding rod (713) and is fixedly connected with the feeding clamping block (720);

the first air cylinder (722) is arranged on the feeding rod (713), is pivoted with the feeding pivoting rod (721) and is used for driving the feeding pivoting rod (721);

the guide ruler (730) is arranged on one side of the feeding arm, which is far away from the feeding clamping block (720);

a guide base (731) provided on the table (80);

and the feeding guide sheet is arranged on the guide seat (731) and is mutually guided and limited with the guide ruler (730).

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