CN106829962B - The calcium carbide production crushing all-in-one machine of overall intelligence control - Google Patents

Abstract

A kind of calcium carbide production crushing all-in-one machine of overall intelligence control, including casting portion, moving portion, control unit, the casting portion includes braced frame, transmission chain on the support frame is set, driving motor, several casting molds on transmission chain are set, the moving portion includes front jockey wheel, guide motor, movable pulley afterwards, mobile motor, the guide motor and front jockey wheel are sequentially connected, to drive front jockey wheel rotation by guide motor, the mobile motor and rear movable pulley are sequentially connected, to move back wheel rotation by mobile motor drive, the control unit and the guide motor and mobile motor are electrically connected, in the calcium carbide production crushing all-in-one machine of overall intelligence control of the invention, provided with moving portion and control unit, pass through the cooperation of the two, realize automatically moving and automatically controlling for casting machine, simplify operation, it mentions High labor efficiency reduces energy consumption, cost is greatly saved.

Description

The calcium carbide production crushing all-in-one machine of overall intelligence control

Technical field

The present invention relates to the calcium carbide production crushing all-in-one machines that casting technique field more particularly to a kind of overall intelligence control.

Background technique

In existing calcium carbide molding continuous casting machine, conventional casting machine is mostly used, when needing to install, or completes casting Afterwards, mobile inconvenient, a kind of method is that need to dismantle be to assemble again after part is mobile, and this mode is complicated for operation, time-consuming to take Power, another method are just needed using the movement of the lifting equipments such as crane, and not only energy consumption is high for this mode, but also by production scene The limitation in space, enforcement difficulty are very big.

Summary of the invention

It is necessary to propose it is a kind of it is mobile without external lifting setting, simple to operate, the degree of automation is higher The calcium carbide production crushing all-in-one machine of overall intelligence control.

A kind of calcium carbide production crushing all-in-one machine of overall intelligence control, including casting portion, moving portion, control unit, the shifting The lower section in casting portion is arranged in dynamic portion, and to drive casting portion mobile, the control unit is connect with casting portion, to control casting portion Movement, the casting portion are used to for calcium carbide melt being shaped to calcium carbide ingot, and the casting portion includes braced frame, is arranged in support frame Transmission chain, driving motor on frame, several casting dies being arranged on transmission chain, the driving motor and transmission chain link, To drive transmission chain to act, the moving portion includes front jockey wheel, guide motor, rear movable pulley, mobile motor, it is described it is leading to Wheel and rear movable pulley are separately positioned on the front-end and back-end of braced frame, the guide motor and mobile motor with the support Frame is fixedly connected, and the guide motor and front jockey wheel are sequentially connected, to drive front jockey wheel rotation, institute by guide motor State mobile motor and rear movable pulley to be sequentially connected, move back wheel rotation to drive by mobile motor, the control unit with it is described Guide motor and mobile motor are electrically connected, and to control the movement of guide motor and mobile motor by control unit, and then are realized It automatically moves and auto-steering.

Preferably, the moving portion further includes firm banking, hydraulic cylinder, diverter, the firm banking fixed setting In the lower section of braced frame, the both ends of firm banking are connect with two front jockey wheels respectively, the guide motor and hydraulic cylinder Connection, to drive the stretching or retraction of the cylinder rod of hydraulic cylinder, the cylinder rod of the hydraulic cylinder and described turn by guide motor It is connected to device, the diverter is connect with two front jockey wheels, and then drives two front jockey wheel rotations by guide motor, is realized It turns to.

Preferably, the control unit includes mobile control division, and the mobile control division includes guide motor controller, movement Electric machine controller, remote control unit, the guide motor controller are connect with guide motor, the mobile motor controller and movement Motor connection, the remote control unit are arranged apart from casting portion remote position, the guide motor controller, mobile motor control Device processed is fixed in the braced frame, the remote control unit with guide motor controller, mobile motor controller is wireless Connection, the remote control unit can issue the wireless signal of four wave bands, and the guide motor controller can receive two waves The wireless signal of section, and being rotated and reverse according to signal control guide motor, and then cylinder rod with hydraulic cylinder is stretched It out or retracts, realizes the steering to the left of front jockey wheel and turn to the right, the mobile motor controller can receive other two The wireless signal of wave band, and rotating and reverse according to the two signals control mobile motor, and then after drive before movable pulley Afterwards and retreat.

Preferably, the control unit further includes casting control unit, and the casting control unit includes chain controller, chain speed Detection unit is spent, the driving motor is speed regulating motor, and the chain controller is connect with speed regulating motor, the chain controller It is also connect with the speed chain detection unit, the speed chain detection unit is used to detect the real-time speed of transmission chain, institute The real-time speed that chain controller foundation speed chain detection unit provides is stated to control the speed of transmission chain.

Preferably, the calcium carbide production crushing all-in-one machine of the overall intelligence control further includes cooling device, the cooling dress It sets including cooling blower, header pipe, preceding discharge pipe, rear discharge pipe, the air outlet connection header pipe's of the cooling blower The other end of one end, header pipe connects preceding discharge pipe and rear discharge pipe, the preceding discharge pipe and rear discharge pipe are disposed opposite to each other, institute It states preceding discharge pipe and rear discharge pipe is fixed at the top of the uplink transmission chain, to the casting die on uplink transmission chain Interior calcium carbide ingot is cooled down, and the control unit further includes cooling control unit, and the cooling control unit includes controller of fan, electricity Stone ingot temperature detecting unit, the controller of fan are connect with cooling blower, and the controller of fan is also examined with calcium carbide ingot temperature Unit connection is surveyed, the calcium carbide ingot temperature detecting unit is fixed in the braced frame of the cooling device, is used for Detect the real time temperature of the calcium carbide ingot in the casting die, reality of the controller of fan according to calcium carbide ingot temperature detecting unit Shi Wendu controls the movement of cooling blower.

Preferably, the calcium carbide production crushing all-in-one machine of the overall intelligence control further includes vibration device, the transmission chain Including uplink transmission chain and downlink transmission chain, the uplink transmission chain is the transmission chain transmitted from head to tail, the downlink Transmission chain is the transmission chain transmitted from tail to head, and the vibration device includes upper vibrating device, and the upper vibrating device setting exists In braced frame between the uplink transmission chain and downlink transmission chain, by pouring mold with what is fixed on uplink transmission chain The rear-face contact of tool carries out vibration percussion to casting die, so that the calcium carbide ingot and casting die in casting die are detached from, it is described Lower vibrating device is arranged in the braced frame between the uplink transmission chain and downlink transmission chain, with by on downlink transmission chain The rear-face contact of fixed casting die carries out vibration percussion to casting die, so that calcium carbide ingot and casting in casting die Mould separating.

Preferably, the upper vibrating motor and lower vibrating motor are variable-frequency motor, and the control unit further includes vibration control Portion processed, the vibration control portion include vibrating controller, tail temperature detecting unit, the vibrating controller and upper vibrating motor And lower vibrating motor connection, the tail temperature detecting unit is fixed in the braced frame of tail, for detecting The real time temperature of calcium carbide ingot in the casting die at tail, vibrating controller are connect with tail temperature detecting unit, institute The real time temperature that vibrating controller is stated according to the detection of tail temperature detecting unit controls the upper vibrating motor and lower vibrating motor Vibration velocity, the speed to fall off is loosened from casting die to accelerate or slow down calcium carbide ingot.

Preferably, the calcium carbide production crushing all-in-one machine of the overall intelligence control further includes output device, and output device is set The machine tail end in casting portion is set, the output device includes output motor, conveyer belt, and the output motor and transmission V belt translation connect It connects, to drive transmission V belt translation by output motor, and then is exported calcium carbide ingot by conveyer belt, the control unit further includes output Control unit, the output control unit include o controller, and the o controller is connect with output motor, the output control Device is also connect with the speed chain detection unit of the casting control unit, and o controller is detected according to speed chain detection unit The velocity of rotation of the real-time speed control output motor of the transmission chain arrived, so that the speed of the transmission speed of conveyer belt and transmission chain It is synchronous.

Preferably, the calcium carbide production crushing all-in-one machine of the overall intelligence control further includes waste-heat recovery device, described remaining Heat recovery apparatus includes reclaiming cover, delivery pipe, waste heat feeder motor, and the reclaiming cover covers on the upper of the transmission chain close to head Side, the reclaiming cover is along the length originating party of transmission chain to setting, and one end of the delivery pipe is connected to reclaiming cover, delivery pipe The other end is connect with waste heat feeder motor, by the heat collected at suction in reclaiming cover and to be sent out by waste heat feeder motor.

Preferably, the casting die includes accepting bottom, preceding clinch, rear clinch, side block side, fixed ear, in institute It states and several transverse bars to raise upward and vertical bar is set on the upper surface for accepting bottom, formed between the transverse bar and vertical bar and pour foundry pit Slot, the preceding clinch are arranged on the side of undertaking bottom of casting pit slot front end, and foundry pit is being poured in the rear clinch setting On the side of the undertaking bottom of slot rear end, the side block side is arranged on the side of undertaking bottom of casting pit slot two sides, described Fixed ear is fixed on the side wall on side block side, and fixed ear is used to assemble with transmission chain, in the end face on the upper edge of rear clinch On open up diversion trench, the height phase of the slot bottom of the height and diversion trench of the end face of the height and vertical bar of the end face of the transverse bar Together, so that calcium carbide solution full of casting pit slot after, extra calcium carbide solution subsequent pours mold to adjacent along diversion trench Flowing in tool.

In the calcium carbide production crushing all-in-one machine of overall intelligence control of the invention, it is provided with moving portion and control unit, is passed through The cooperation of the two realizes automatically moving and automatically controlling for casting machine, simplifies operation, improves labor efficiency, reduces Cost is greatly saved in energy consumption.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the calcium carbide production crushing all-in-one machine of overall intelligence control.

Fig. 2 is the structural schematic diagram of another angle of the calcium carbide production crushing all-in-one machine of overall intelligence control.

Fig. 3 is the main view of the calcium carbide production crushing all-in-one machine of overall intelligence control.

Fig. 4 is the structural schematic diagram of the casting die.

Fig. 5 is the partial enlarged view of Fig. 4.

Fig. 6 is the schematic top plan view of the casting die.

Fig. 7 is the cross-sectional view in Fig. 6 along A-A.

Fig. 8 is the structural schematic diagram after the overlap joint of three casting dies.

Fig. 9 is the structural schematic diagram of the moving portion.

Figure 10 is the partial enlarged view that left-hand diverter is expressed in Fig. 9.

Figure 11 is the partial enlarged view that right hand steering device is expressed in Fig. 9.

Figure 12 is the partial enlarged view that the cooling device is expressed in Fig. 1.

Figure 13 is the partial enlarged view that the vibration device is expressed in Fig. 3.

Figure 14 is the structural schematic diagram of the upper vibrating device.

Figure 15 is the structural schematic diagram of the lower vibrating device.

Figure 16 is the functional block diagram of the control unit.

Figure 17 is the functional block diagram of the mobile control division.

Figure 18 is the functional block diagram of the casting control unit and output control unit.

Figure 19 is the functional block diagram of the cooling control unit.

Figure 20 is the functional block diagram in the vibration control portion.

In figure: casting portion 1, braced frame 11, transmission chain 12, uplink transmission chain 121, downlink transmission chain 122, driving motor 13, casting die 14, undertaking bottom 141, preceding clinch 142, rear clinch 143, diversion trench 1431, side block side 144, fixed ear 145, transverse bar 146, vertical bar 147, casting pit slot 148, moving portion 2, front jockey wheel 21, guide motor 22, rear movable pulley 23, movement Motor 24, firm banking 25, hydraulic cylinder 26, left-hand diverter 27, shaft 271, axle sleeve 272, first connecting rod 273, second connect Bar 274, third connecting rod 275, right hand steering device 28, shaft 281, axle sleeve 282, second connecting rod 284, third connecting rod 285, balance connect Bar 29, control unit 3, mobile control division 31, guide motor controller 311, the first receiving unit 3111, the first signal conversion unit 3112, the first execution unit 3113, mobile motor controller 312, the second receiving unit 3121, second signal converting unit 3122, the second execution module 3123, remote control unit 313, casting control unit 32, chain controller 321, speed chain detection unit 322, storage unit 323, comparing unit 324, cooling control unit 33, controller of fan 331, calcium carbide ingot temperature detecting unit 332, Storage unit 333, comparing unit 334, vibration control portion 34, vibrating controller 341, tail temperature detecting unit 342, storage are single Member 343, comparing unit 344, output control unit 35, o controller 351, cooling device 4, cooling blower 41, header pipe 42, Preceding discharge pipe 43, rear discharge pipe 44, vibration device 5, upper vibrating device 51, upper mounted plate 511, upper junction plate 512, upper mobile board 513, upper vibrating motor 514, upper guide post 515, upper limit spring 516, upper vibrating plate 517, upper lateral axis 518, lower vibration dress Set 52, bottom plate 521, lower connecting plate 522, lower movable plate 523, lower push rod 5231, lower vibrating motor 524, lower guide post 525, the first lower limit spring 526, the second lower limit spring 527, lower oscillating plate 528, lower lateral axis 529, output device 6, Output motor 61, conveyer belt 62, waste-heat recovery device 7, reclaiming cover 71, delivery pipe 72, waste heat feeder motor 73.

Specific embodiment

In order to illustrate the technical solution of the embodiments of the present invention more clearly, below will be to needed in the embodiment attached Figure is briefly described, it should be apparent that, drawings in the following description are some embodiments of the invention, common for this field For technical staff, without creative efforts, it is also possible to obtain other drawings based on these drawings.

Referring to Fig. 1 to Fig. 3, the embodiment of the invention provides a kind of calcium carbide production crushing all-in-one machine of overall intelligence control, Including casting portion 1, moving portion 2, control unit 3, the lower section in casting portion 1 is arranged in moving portion 2, to drive casting portion 1 mobile, control Portion 3 is connect with casting portion 1, and to control the movement in casting portion 1, casting portion 1 is used to calcium carbide melt being shaped to calcium carbide ingot, casting portion If 1 include braced frame 11, the transmission chain 12 being arranged in braced frame 11, driving motor 13, be arranged on transmission chain 12 Dry casting die 14, driving motor 13 are connect with transmission chain 12, and to drive transmission chain 12 to act, moving portion 2 includes front jockey wheel 21, guide motor 22, rear movable pulley 23, mobile motor 24, front jockey wheel 21 and rear movable pulley 23 are separately positioned on braced frame 11 front-end and back-end, guide motor 22 and mobile motor 24 are fixedly connected with braced frame 11, guide motor 22 with it is leading It is sequentially connected to wheel 21, to drive front jockey wheel 21 to rotate by guide motor 22, mobile motor 24 and rear movable pulley 23 are driven Connection, to be rotated by movable pulley 23 after the drive of mobile motor 24, control unit 3 electrically connects with guide motor 22 and mobile motor 24 It connects, to control the movement of guide motor 22 and mobile motor 24 by control unit 3, and then realization automatically moves and auto-steering.

Referring to Fig. 9 to Figure 11, further, moving portion 2 further includes firm banking 25, hydraulic cylinder 26, diverter, fixed bottom Seat 25 is fixed at the lower section of braced frame 11, and the both ends of firm banking 25 are connect with two front jockey wheels 21 respectively, is oriented to Motor 22 is connect with hydraulic cylinder 26, hydraulic to drive the stretching or retraction of the cylinder rod of hydraulic cylinder 26 by guide motor 22 The cylinder rod of oil cylinder 26 is connect with diverter, and diverter is connect with two front jockey wheels 21, and then drives two by guide motor 22 Front jockey wheel 21 rotates, and realizes and turns to.

Wherein, diverter includes having mutually isostructural left-hand diverter 27 and right hand steering device 28 and balanced connecting rod 29, To drive left-hand diverter 27 and right hand steering device 28 to rotate synchronously by balanced connecting rod 29, and then drive two front jockey wheels 21 It rotates synchronously, realizes and turn to, left-hand diverter 27 includes shaft 271, axle sleeve 272, first connecting rod 273, second connecting rod 274, the Three-link 275, axle sleeve 272 are fixedly connected with the wheel hub of front jockey wheel 21, shaft 271 and 272 axis connection of axle sleeve, firm banking 25 End be fixedly connected with shaft 271, one end of first connecting rod 273 is fixedly connected with axle sleeve 272, first connecting rod 273 it is another End and the cylinder rod axis connection of hydraulic cylinder 26, one end of second connecting rod 274 are fixedly connected with axle sleeve 272, second connecting rod 274 it is another One end is fixedly connected with one end of third connecting rod 275, the other end of third connecting rod 275 and the end axis connection of balanced connecting rod 29.

Right hand steering device 28 also includes shaft 281, axle sleeve 282, second connecting rod 284, third connecting rod 285, and axle sleeve 282 is with before The wheel hub of directive wheel 21 is fixedly connected, shaft 281 and 282 axis connection of axle sleeve, the end of firm banking 25 and the fixed company of shaft 281 It connects, one end of second connecting rod 284 is fixedly connected with axle sleeve 282, the other end of second connecting rod 284 and one end of third connecting rod 285 It is fixedly connected, the other end of third connecting rod 285 and the end axis connection of balanced connecting rod 29, the both ends of balanced connecting rod 29 are connected to a left side Between the other end of the third connecting rod 285 of the other end and right hand steering device 28 of the third connecting rod 275 of side diverter 27.

Referring to Figure 16 to Figure 20, further, control unit 3 includes mobile control division 31, and mobile control division 31 includes guiding electricity Machine controller 311, mobile motor controller 312, remote control unit 313, guide motor controller 311 are connect with guide motor 22, Mobile motor controller 312 is connect with mobile motor 24, and the setting of remote control unit 313 is apart from 1 remote position of casting portion, guiding Electric machine controller 311, mobile motor controller 312 are fixed in braced frame 11, remote control unit 313 and guide motor control Device 311 processed, mobile motor controller 312 are wirelessly connected, and remote control unit 313 can issue the wireless signal of four wave bands, are oriented to Electric machine controller 311 can receive the wireless signal of two wave bands, and according to the rotating forward of signal control guide motor 22 and instead Turn, and then the stretching or retraction of the cylinder rod with hydraulic cylinder 26, realize the steering to the left of front jockey wheel 21 and turn to the right, moves Dynamic electric machine controller 312 can receive the wireless signal of other two wave band, and control mobile motor 24 according to the two signals Rotate and reverse, and then drive after movable pulley 23 front and back and retrogressing.

Wherein, guide motor controller 311 includes sequentially connected first receiving unit 3111, the first signal conversion unit 3112, the first execution unit 3113, the first receiving unit 3111 matches connection with remote control unit 313, for receiving remote control unit The wireless signal of 313 two wave bands issued, and two wireless signals are sent to the first signal conversion unit 3112, the first letter Two wireless signal corresponding conversions are two electric signals by number converting unit 3112, and two electric signals correspondences are sent to first Execution unit 3113, the first execution unit 3113 are connect with guide motor 22, to pass through the first execution unit 3113 control guiding Motor 22 rotates and reverse, and mobile motor controller 312 includes sequentially connected second receiving unit 3121, second signal turn Unit 3122, the second execution module 3123 are changed, the second receiving unit 3121 matches connection with remote control unit 313, distant for receiving The wireless signal for other two wave band that unit 313 issues is controlled, and the two wireless signals are sent to second signal conversion list The two wireless signal corresponding conversions are two electric signals by member 3122, second signal converting unit 3122, and by two telecommunications Number correspondence is sent to the second execution module 3123, and the second execution module 3123 is connect with mobile motor 24, to execute by second Module 3123 controls rotating and reverse for mobile motor 24.

First execution unit 3113 includes first contactor, second contactor, and first contactor is connect with guide motor 22, It is rotated forward with controlling guide motor 22 by first contactor, second contactor is connect with guide motor 22, to pass through the second contact Device controls guide motor 22 and inverts, and the second execution module 3123 includes third contactor, the 4th contactor, third contactor and shifting Dynamic motor 24 connects, and is rotated forward with controlling mobile motor 24 by third contactor, and the 4th contactor is connect with mobile motor 24, with Mobile motor 24 is controlled by the 4th contactor to invert.

Further, control unit 3 further includes casting control unit 32, and casting control unit 32 includes chain controller 321, chain speed Detection unit 322 is spent, driving motor 13 is speed regulating motor, and chain controller 321 is connect with speed regulating motor, chain controller 321 It is also connect with speed chain detection unit 322, speed chain detection unit 322 is used to detect the real-time speed of transmission chain 12, chain Controller 321 controls the speed of transmission chain 12 according to the real-time speed that speed chain detection unit 322 provides.

Speed chain detection unit 322 is velocity sensor, and velocity sensor is mounted in braced frame 11, is passed with detecting The speed of dynamic chain 12 or the output axis connection of velocity sensor and speed regulating motor, to detect the speed of the output shaft of speed regulating motor Degree, to control the transmission speed of transmission chain 12 by the revolving speed for detecting speed regulating motor.

Wherein, casting control unit 32 further includes storage unit 323, comparing unit 324, storage unit 323 and comparing unit 324 connections, comparing unit 324 are connect with speed chain detection unit 322 and chain controller 321, and storage unit 323 is for depositing Store up the reference velocity of transmission chain 12, the real-time speed and reference velocity that comparing unit 324 provides speed chain detection unit 322 It is compared, and comparison result is supplied to chain controller 321, chain controller 321 controls transmission according to comparison result The speed of chain 12.When real-time speed is greater than reference velocity, comparing unit 324 reduces to 321 transmission speed of chain controller to be believed Number, chain controller 321 is slack-off according to the revolving speed of signal control speed regulating motor, when real-time speed is less than reference velocity, than Increase signal to 321 transmission speed of chain controller compared with unit 324, chain controller 321 controls speed regulating motor according to the signal Revolving speed become faster.

Referring to Fig. 1, Fig. 2, Figure 12, further, the calcium carbide production crushing all-in-one machine of overall intelligence control further includes cooling dress 4 are set, cooling device 4 includes cooling blower 41, header pipe 42, preceding discharge pipe 43, rear discharge pipe 44, the outlet air of cooling blower 41 One end of mouth connection header pipe 42, the other end of header pipe 42 connect preceding discharge pipe 43 and rear discharge pipe 44, preceding discharge pipe 43 and rear discharge pipe 44 be disposed opposite to each other, preceding discharge pipe 43 and rear discharge pipe 44 are fixed at the top of uplink transmission chain 121, with Calcium carbide ingot in casting die 14 on uplink transmission chain 121 is cooled down, control unit 3 further includes cooling control unit 33, cold But control unit 33 includes controller of fan 331, calcium carbide ingot temperature detecting unit 332, and controller of fan 331 and cooling blower 41 connect It connects, controller of fan 331 is also connect with calcium carbide ingot temperature detecting unit 332, and calcium carbide ingot temperature detecting unit 332 is fixed at In the braced frame 11 of cooling device 4, for detecting the real time temperature of the calcium carbide ingot in casting die 14, controller of fan 331 control the movement of cooling blower 41 according to the real time temperature of calcium carbide ingot temperature detecting unit 332.

Wherein, calcium carbide ingot temperature detecting unit 332 is temperature sensor.

Wherein, cooling control unit 33 further includes storage unit 333, comparing unit 334, storage unit 333 and comparing unit 334 connections, comparing unit 334 are connect with calcium carbide ingot temperature detecting unit 332 and controller of fan 331, and storage unit 333 is used for The reference temperature of calcium carbide ingot is stored, the real time temperature and reference temperature that comparing unit 334 provides calcium carbide ingot temperature detecting unit 332 Degree is compared, and comparison result is supplied to controller of fan 331, and controller of fan 331 controls cold according to comparison result But the revolving speed of blower 41, to adjust the air volume of the blowout of cooling blower 41.When real time temperature is greater than reference temperature, compare Unit 334 sends air quantity to controller of fan 331 and increases signal, and controller of fan 331 controls cooling blower 41 according to the signal Revolving speed become faster so that blowout air quantity increase, accelerate calcium carbide ingot cooling, when real time temperature be less than reference temperature when, compare Unit 334 reduces signal to 331 transmission speed of controller of fan, and controller of fan 331 controls cooling blower 41 according to the signal Revolving speed it is slack-off so that blowout air quantity gap, make calcium carbide ingot slow cooling.

Referring to Fig. 3, Figure 13 to Figure 15, further, the calcium carbide production crushing all-in-one machine of overall intelligence control further includes vibration Device 5, transmission chain 12 include uplink transmission chain 121 and downlink transmission chain 122, and uplink transmission chain 121 is to pass from head to tail The transmission chain 12 sent, downlink transmission chain 122 are the transmission chain 12 transmitted from tail to head, and vibration device 5 includes upper vibrating device 51, upper vibrating device 51 is arranged in the braced frame 11 between uplink transmission chain 121 and downlink transmission chain 122, with by with it is upper The rear-face contact of fixed casting die 14 carries out vibration percussion to casting die 14 on row transmission chain 121, so as to pour mold Calcium carbide ingot and casting die 14 in tool 14 are detached from, the setting of lower vibrating device 52 uplink transmission chain 121 and downlink transmission chain 122 it Between braced frame 11 on, with by the rear-face contact with casting die 14 fixed on downlink transmission chain 122 to pouring mold Tool 14 carries out vibration percussion, so that the calcium carbide ingot and casting die 14 in casting die 14 are detached from.

Wherein, upper vibrating device 51 include upper mounted plate 511, upper junction plate 512, upper mobile board 513, upper vibrating motor 514, Upper lateral axis 518, upper vibration is arranged in upper guide post 515, upper limit spring 516, upper vibrating plate 517 on upper mounted plate 511 Motor 514 is fixed on upper mobile board 513, and one end of upper mobile board 513 and upper lateral axis 518 cooperate, so that upper work Movable plate 513 is rotated around upper lateral axis 518, and the other end of upper mobile board 513 is connect with upper guide post 515, upper guide post 515 The other end, the upper junction plate 512 of upper mobile board 513 are sequentially passed through, upper guide post 515 is fixedly connected with upper mobile board 513, above leads It is not connected to column 515 and upper junction plate 512, so that upper mobile board 513 and upper guide post 515 can relative to upper junction plate 512 It moves up and down, is arranged upper limit spring on the outer wall of the upper guide post 515 between upper mobile board 513 and upper junction plate 512 516, upper vibrating plate 517 is set on the top of upper guide post 515, upper mounted plate 511 and upper junction plate 512 are fixed on uplink transmission In braced frame 11 between chain 121 and downlink transmission chain 122, the lower surface of uplink transmission chain 121 is arranged in upper vibrating plate 517 Lower section, with the rear-face contact with casting die 14 fixed on uplink transmission chain 121.

Vibration device 5 further includes lower vibrating device 52, and lower vibrating device 52 includes bottom plate 521, lower connecting plate 522, lower work Movable plate 523, lower vibrating motor 524, lower guide post 525, the first lower limit spring 526, the second lower limit spring 527, lower vibration Plate 528, lateral axis 529, lower vibrating motor 524 are fixed at the upper of lower movable plate 523 under being arranged on bottom plate 521 On surface, one end of lower movable plate 523 and lower lateral axis 529 cooperate, so that lower movable plate 523 is around lower lateral axis 529 Rotation, the other end of lower movable plate 523 are connect with lower guide post 525, and lower guide post 525 sequentially passes through the another of lower movable plate 523 One end, lower connecting plate 522, lower guide post 525 are not connected to lower movable plate 523, and lower guide post 525 and lower connecting plate 522 are fixed Connection, so that lower movable plate 523 is moved up and down along lower guide post 525 relative to lower guide post 525 and lower connecting plate 522, The first lower limit spring 526 is arranged on the outer wall of lower guide post 525 between lower movable plate 523 and lower connecting plate 522, in lower work It is arranged the second lower limit spring 527 on the outer wall of the lower guide post 525 of 523 top of movable plate, is arranged on the top of lower guide post 525 Limited block slips to avoid the second lower limit spring 527 from the top of lower guide post 525, on the lower surface of lower movable plate 523 Lower push rod 5231 is set, and the oscillating plate 528 under the low side setting of lower push rod 5231, bottom plate 521 and lower connecting plate 522 are fixed Under braced frame 11 between uplink transmission chain 121 and downlink transmission chain 122, lower oscillating plate 528 is arranged in downlink transmission chain 122 top, with the rear-face contact with casting die 14 fixed on downlink transmission chain 122.

Further, upper vibrating motor 514 and lower vibrating motor 524 are variable-frequency motor, and control unit 3 further includes vibration control Portion 34, vibration control portion 34 include vibrating controller 341, tail temperature detecting unit 342, vibrating controller 341 and upper vibration Motor 514 and lower vibrating motor 524 connect, and tail temperature detecting unit 342 is fixed at the braced frame 11 close to tail On, for detecting the real time temperature of the calcium carbide ingot in the casting die 14 at tail, vibrating controller 341 and tail temperature Detection unit 342 connects, and vibrates in the real time temperature control that vibrating controller 341 is detected according to tail temperature detecting unit 342 The vibration velocity of motor 514 and lower vibrating motor 524 loosens the speed to fall off to accelerate or slow down calcium carbide ingot from casting die 14 Degree.

Wherein, tail temperature detecting unit 342 is temperature sensor.

Wherein, vibration control portion 34 further includes storage unit 343, comparing unit 344, storage unit 343 and comparing unit 344 connections, comparing unit 344 are connect with tail temperature detecting unit 342 and vibrating controller 341, and storage unit 343 is for depositing Store up the reference temperature of the calcium carbide ingot at tail, the real time temperature that comparing unit 344 provides tail temperature detecting unit 342 It is compared with reference temperature, and comparison result is supplied to vibrating controller 341, vibrating controller 341 is according to comparison result The vibration velocity of upper vibrating motor 514 and lower vibrating motor 524 is controlled, to accelerate or slow down calcium carbide ingot from casting die 14 Loosen the speed to fall off.

When real time temperature is greater than reference temperature, shows the fast speed of transmission chain 12, to accelerate falling off for calcium carbide ingot, this When comparing unit 344 to vibrating controller 341 send accelerate vibration signal, vibrating controller 341 according to the signal control on The vibration velocity of vibrating motor 514 and lower vibrating motor 524 accelerate so that calcium carbide ingot from 14 rapid release of casting die, fall off, When real time temperature is less than reference temperature, show that the speed of transmission chain 12 is slower, comparing unit 344 is sent out to vibrating controller 341 The signal of slowing down vibration is sent, vibrating controller 341 controls the vibration of upper vibrating motor 514 and lower vibrating motor 524 according to the signal It is dynamic to slow, to slow down falling off for calcium carbide ingot, and then the power consumption of upper vibrating motor 514 and lower vibrating motor 524 is reduced, realized Intelligent power saving.

Referring to fig. 2, Fig. 3, further, the calcium carbide production crushing all-in-one machine of overall intelligence control further includes output device 6, defeated The machine tail end in casting portion 1 is arranged in device 6 out, and output device 6 includes output motor 61, conveyer belt 62, output motor 61 and biography It send band 62 to be sequentially connected, to drive conveyer belt 62 to be driven by output motor 61, and then is exported calcium carbide ingot by conveyer belt 62, controlled Portion 3 processed further includes output control unit 35, and output control unit 35 includes o controller 351, o controller 351 and output motor 61 connection, o controller 351 also with casting control unit 32 speed chain detection unit 322 connect, o controller 351 according to The real-time speed of the transmission chain 12 detected according to speed chain detection unit 322 controls the velocity of rotation of output motor 61, so that The transmission speed of conveyer belt 62 and the speed sync of transmission chain 12.

When the real-time speed of speed chain detection unit 322 is greater than the reference velocity of casting control unit 32, casting control The comparing unit in portion 32 reduces signal, chain controller to chain controller 321 and 351 transmission speed of o controller simultaneously 321 according to the signal control speed regulating motor revolving speed it is slack-off, meanwhile, o controller 351 according to the signal control output motor 61 revolving speed is slack-off, and when real-time speed is less than reference velocity, the comparing unit for control unit 32 of casting is simultaneously to chain controller 321 and 351 transmission speed of o controller increase signal, chain controller 321 according to the signal control speed regulating motor revolving speed It becomes faster, meanwhile, o controller 351 becomes faster according to the revolving speed of signal control output motor 61, and then realizes conveyer belt 62 The speed sync of speed and transmission chain 12 is adjusted.

Referring to fig. 2, further, the calcium carbide production crushing all-in-one machine of overall intelligence control further includes waste-heat recovery device 7, remaining Heat recovery apparatus 7 includes reclaiming cover 71, delivery pipe 72, waste heat feeder motor 73, and reclaiming cover 71 covers on the transmission chain close to head Top, reclaiming cover 71 is along the length originating party of transmission chain to setting, and one end of delivery pipe 72 is connected to reclaiming cover 71, delivery pipe 72 other end is connect with waste heat feeder motor 73, to pass through waste heat feeder motor 73 for the heat collected at suction in reclaiming cover 71 And it sends out.

Referring to fig. 4 to Fig. 7, further, casting die 14 includes accepting bottom 141, preceding clinch 142, rear clinch 143, side block side 144, fixed ear 145 are arranged several transverse bars 146 to raise upward and are erected on the upper surface for accepting bottom 141 Muscle 147, forms casting pit slot 148 between transverse bar 146 and vertical bar 147, casting 148 front end of pit slot is arranged in preceding clinch 142 On the side for accepting bottom 141, rear clinch 143 is arranged on the side of undertaking bottom 141 of casting 148 rear end of pit slot, side Rib 144 is arranged on the side of undertaking bottom 141 of casting 148 two sides of pit slot, and fixed ear 145 is fixed at side block side On 144 side wall, fixed ear 145 is used to assemble with transmission chain 12, opens up diversion trench on the end face on the upper edge of rear clinch 143 1431, the height of the end face of transverse bar 146 is identical as the height of the height of the end face of vertical bar 147 and the slot bottom of diversion trench 1431, So that after calcium carbide solution is full of casting pit slot 148, extra calcium carbide solution subsequent is poured along diversion trench 1431 to adjacent Flowing in casting mould 14.

In a kind of preferable embodiment, since transmission chain 12 is during installation, it is from head to tail direction Slightly upward inclination installation, in this way, adjacent casting die 14 is angled slightly downward from tail to heading, inclination Angle very little, in this way, end face, the end face of vertical bar 147 and the slot bottom of diversion trench 1431 with mutually level transverse bar 146, So that extra calcium carbide solution can be flowed along diversion trench 1431 into the casting pit slot 148 of adjacent subsequent casting die 14 It is dynamic, and so on, extra calcium carbide solution all can successively flow, and not only solve extra solution and flow to 14 outside of casting die Wasting problem causes phase between calcium carbide ingot moreover, extra solution will not accumulate the top for floating on casting pit slot 148 The problem of joining together.

In Fig. 8, the connection structure diagram after three casting dies 14 overlap is illustrated, each casting die 14 in figure Clinch 143 is close to heading afterwards, and the preceding clinch 142 of each casting die 14 is close to tail direction, in this way, will After several casting dies 14 are mounted side by side on transmission chain, the height of clinch 142 before the height of rear clinch 143 is slightly below Degree, during mobile to tail from head, extra calcium carbide solution is to after the subsequent casting die 14 of head Clinch 143 flows, to solve the problems of the prior art.

Further, the height on side block side 144 is higher than the height of preceding clinch 142 and rear clinch 143, to stop calcium carbide molten Liquid is flowed out to the outside on side block side 144.

Further, before the lower edge of the rear clinch 143 of adjacent casting die 14 is overlapped on clinch 142 on along upper, So that extra calcium carbide solution along on rear clinch 143 along upper diversion trench 1431 cross before clinch 142 upper edge, directly Connect and flow into the casting pit slot 148 of subsequent casting die 14, thus also solve in the prior art solution from preceding clinch 142 The problem of being flowed out in seam between rear clinch 143.

In contrast to the prior art, application No. is in the patent application of CN201610392362.9, disclose one kind continuously to pour Casting machine is provided with preceding clinch and rear clinch with mold, the mold is accepted, which is arranged when on transmission belt chain, behind Mold preceding clinch lower edge be overlapped on front mold rear clinch on along upper, then driven by transmission chain from rear Previous movement.

The casting die being designed in this way, if Fig. 2, Fig. 3 in prior art patent application are shown, in order to make adjacent molds The lower edge of preceding clinch and rear clinch it is upper along overlap joint sufficiently, overlapped after need for the height of preceding clinch to be arranged be higher than The height in portion adequately requires although meeting overlap joint in this way, in a specific mold, due to the height of preceding clinch Degree is higher than the height of rear clinch, so that the upper surface of the casting pit slot between preceding clinch and rear clinch is taken before being lower than The height of socket part and rear clinch, in this way in casting, after casting liquid is full of casting pit slot, extra casting liquid still heap Product floats on the top of the casting pit slot by being formed between preceding clinch, rear clinch and side block side, makes the metal formed after cooling It joins together between ingot, rather than ingot monomer one by one, also, more extra molten metal can also be before the mold Gap outflow between clinch and rear clinch, also will cause the loss and waste of molten metal

Module or unit in the device of that embodiment of the invention can be combined, divided and deleted according to actual needs.

The above disclosure is only the preferred embodiments of the present invention, cannot limit the right model of the present invention with this certainly It encloses, those skilled in the art can understand all or part of the processes for realizing the above embodiment, and wants according to right of the present invention Made equivalent variations is sought, is still belonged to the scope covered by the invention.

Claims (10)

1. a kind of calcium carbide production crushing all-in-one machine of overall intelligence control, it is characterised in that: including casting portion, moving portion, control The lower section in casting portion is arranged in portion, the moving portion, and to drive casting portion mobile, the control unit is connect with casting portion, with control The movement in casting portion processed, the casting portion are used to calcium carbide melt being shaped to calcium carbide ingot, and the casting portion includes braced frame, sets Set transmission chain, driving motor, several casting dies being arranged on transmission chain on the support frame, the driving motor and biography Dynamic chain link, to drive transmission chain to act, the moving portion includes front jockey wheel, guide motor, rear movable pulley, mobile motor, The front jockey wheel and rear movable pulley are separately positioned on the front-end and back-end of braced frame, and the guide motor and mobile motor are equal It is fixedly connected with the braced frame, the guide motor and front jockey wheel are sequentially connected, leading to be driven by guide motor It is rotated to wheel, the mobile motor and rear movable pulley are sequentially connected, to move back wheel rotation, the control by mobile motor drive Portion processed and the guide motor and mobile motor are electrically connected, to control moving for guide motor and mobile motor by control unit Make, and then realization automatically moves and auto-steering.

2. the calcium carbide production crushing all-in-one machine of overall intelligence control as described in claim 1, it is characterised in that: the moving portion It further include firm banking, hydraulic cylinder, diverter, the firm banking is fixed at the lower section of braced frame, firm banking Both ends connect respectively with two front jockey wheels, the guide motor is connect with hydraulic cylinder, to drive liquid by guide motor The stretching or retraction of the cylinder rod of compressing cylinder, the cylinder rod of the hydraulic cylinder are connect with the diverter, the diverter and two Front jockey wheel connection, and then two front jockey wheel rotations are driven by guide motor, it realizes and turns to.

3. the calcium carbide production crushing all-in-one machine of overall intelligence control as claimed in claim 2, it is characterised in that: the control unit Including mobile control division, the mobile control division includes guide motor controller, mobile motor controller, remote control unit, described Guide motor controller is connect with guide motor, and the mobile motor controller is connect with mobile motor, and the remote control unit is set It sets apart from casting portion remote position, the guide motor controller, mobile motor controller are fixed at the support On frame, the remote control unit and guide motor controller, mobile motor controller are wirelessly connected, and the remote control unit can be sent out The wireless signal of four wave bands out, the guide motor controller can receive the wireless signal of two wave bands, and according to the letter Number control guide motor rotates and reverse, and then the stretching or retraction of the cylinder rod with hydraulic cylinder, realizes front jockey wheel It turns to and turns to the right to the left, the mobile motor controller can receive the wireless signal of other two wave band, and according to this Two signals control rotating and reverse for mobile motor, and then the front and back of movable pulley and retrogressing after drive.

4. the calcium carbide production crushing all-in-one machine of overall intelligence control as claimed in claim 2, it is characterised in that: the control unit It further include casting control unit, the casting control unit includes chain controller, speed chain detection unit, and the driving motor is Speed regulating motor, the chain controller are connect with speed regulating motor, the chain controller also with the speed chain detection unit Connection, the speed chain detection unit are used to detect the real-time speed of transmission chain, and the chain controller is according to speed chain The real-time speed that detection unit provides controls the speed of transmission chain.

5. the calcium carbide production crushing all-in-one machine of overall intelligence control as claimed in claim 2, it is characterised in that: the entirety intelligence The calcium carbide production crushing all-in-one machine that can control further includes cooling device, and the cooling device includes cooling blower, header pipe, preceding Discharge pipe, rear discharge pipe, one end of the air outlet connection header pipe of the cooling blower, before the other end connection of header pipe Discharge pipe and rear discharge pipe, the preceding discharge pipe and rear discharge pipe are disposed opposite to each other, and the preceding discharge pipe and the fixation of rear discharge pipe are set It sets in the top of uplink transmission chain, to be cooled down to the calcium carbide ingot in the casting die on uplink transmission chain, the control unit It further include cooling control unit, the cooling control unit includes controller of fan, calcium carbide ingot temperature detecting unit, the blower control Device processed is connect with cooling blower, and the controller of fan is also connect with calcium carbide ingot temperature detecting unit, the calcium carbide ingot temperature inspection It surveys unit to be fixed in the braced frame of the cooling device, for detecting the calcium carbide ingot in the casting die Real time temperature, the controller of fan controls the dynamic of cooling blower according to the real time temperature of calcium carbide ingot temperature detecting unit Make.

6. the calcium carbide production crushing all-in-one machine of overall intelligence control as claimed in claim 2, it is characterised in that: the entirety intelligence The calcium carbide production crushing all-in-one machine that can control further includes vibration device, and the transmission chain includes uplink transmission chain and downlink transmission Chain, the uplink transmission chain are the transmission chain transmitted from head to tail, and the downlink transmission chain is to transmit from tail to head Transmission chain, the vibration device includes upper vibrating device and lower vibrating device, and the upper vibrating device is arranged in the uplink transmission chain In braced frame between downlink transmission chain, to pass through the rear-face contact with casting die fixed on uplink transmission chain Vibration percussion is carried out to casting die, so that the calcium carbide ingot and casting die in casting die are detached from, the lower vibrating device setting In braced frame between the uplink transmission chain and downlink transmission chain, by being poured with fixed on downlink transmission chain The rear-face contact of casting mould carries out vibration percussion to casting die, so that the calcium carbide ingot and casting die in casting die are detached from.

7. the calcium carbide production crushing all-in-one machine of overall intelligence control as claimed in claim 2, it is characterised in that: upper vibrating device packet Vibrating motor is included, lower vibrating device includes lower vibrating motor, and upper vibrating motor and lower vibrating motor are variable-frequency motor, described Control unit further includes vibration control portion, and the vibration control portion includes vibrating controller, tail temperature detecting unit, the vibration Movement controller is connect with upper vibrating motor and lower vibrating motor, and the tail temperature detecting unit is fixed at close to tail Braced frame on, for detecting the real time temperature of the calcium carbide ingot in the casting die at the tail, vibrating controller and machine Tail temperature detecting unit connects, described in real time temperature control of the vibrating controller according to the detection of tail temperature detecting unit The vibration velocity of upper vibrating motor and lower vibrating motor loosens the speed to fall off to accelerate or slow down calcium carbide ingot from casting die Degree.

8. the calcium carbide production crushing all-in-one machine of overall intelligence control as claimed in claim 4, it is characterised in that: the entirety intelligence The calcium carbide production crushing all-in-one machine that can control further includes output device, and the machine tail end in casting portion is arranged in output device, described defeated Device includes output motor, conveyer belt out, and the output motor and conveyer belt are sequentially connected, are transmitted with being driven by output motor V belt translation, and then exported calcium carbide ingot by conveyer belt, the control unit further includes output control unit, and the output control unit includes O controller, the o controller are connect with output motor, chain of the o controller also with the casting control unit The connection of speed detection unit, the real-time speed control for the transmission chain that o controller is detected according to speed chain detection unit The velocity of rotation of output motor, so that the speed sync of the transmission speed of conveyer belt and transmission chain.

9. the calcium carbide production crushing all-in-one machine of overall intelligence control as claimed in claim 2, it is characterised in that: the entirety intelligence The calcium carbide production crushing all-in-one machine that can control further includes waste-heat recovery device, and the waste-heat recovery device includes reclaiming cover, conveying Pipe, waste heat feeder motor, the reclaiming cover cover on close to head transmission chain top, the reclaiming cover along transmission chain length Originating party is spent to setting, one end of the delivery pipe is connected to reclaiming cover, and the other end of delivery pipe is connect with waste heat feeder motor, with It by the heat collected at suction in reclaiming cover and is sent out by waste heat feeder motor.

10. the calcium carbide production crushing all-in-one machine of overall intelligence control as claimed in claim 2, it is characterised in that: the casting Mold includes accepting bottom, preceding clinch, rear clinch, side block side, fixed ear, is arranged on the upper surface for accepting bottom Several transverse bars to raise upward and vertical bar, form casting pit slot between the transverse bar and vertical bar, the preceding clinch setting is being poured On the side of the undertaking bottom of foundry pit front of the slot, the side of the undertaking bottom of casting pit slot rear end is arranged in the rear clinch On, the side block side is arranged on the side of undertaking bottom of casting pit slot two sides, and the fixed ear is fixed at side block side Side wall on, fixed ear be used for transmission chain assemble, diversion trench is opened up on the end face on the upper edge of rear clinch, the transverse bar The height of the end face of the height and vertical bar of end face and the height of slot bottom of diversion trench are identical, so that calcium carbide solution is full of casting After pit slot, extra calcium carbide solution is flowed along diversion trench into adjacent subsequent casting die.