CN206783322U - The calcium carbide production crushing all-in-one machine for automatically controlling vibrational system is set - Google Patents

Abstract

It is a kind of that the calcium carbide production crushing all-in-one machine for automatically controlling vibrational system is set,Including casting portion,Move portion,Vibrating device,Vibration control portion,The vibration control portion includes vibrating controller,Tail temperature detecting unit,The vibrating controller is connected with vibrating device,The tail temperature detecting unit is fixedly installed in the support frame of tail,For detecting the real time temperature of the calcium carbide ingot in the casting die at tail,Vibrating controller is connected with tail temperature detecting unit,The vibrating controller controls the vibration velocity of the vibrating device according to the real time temperature of tail temperature detecting unit detection,The utility model detects the temperature of calcium carbide ingot by the tail temperature detecting unit in vibration control portion,Control the vibration velocity of the vibrating device according to the real time temperature of tail temperature detecting unit detection by vibrating controller again,The speed to come off is released from casting die to accelerate or slow down calcium carbide ingot.

Description

The calcium carbide production crushing all-in-one machine for automatically controlling vibrational system is set

Technical field

Calcium carbide shaping casting technical field is the utility model is related to, more particularly to a kind of setting automatically controls vibrational system Calcium carbide production crushing all-in-one machine.

Background technology

In existing casting machine, in order to accelerate the speed that calcium carbide ingot comes off from casting die, generally in casting die Lower section sets vibrating device, and the device makes calcium carbide ingot in casting die loosen separation by vibration, and then is easy to come off, and The vibration frequency or speed of the existing vibrating device for casting machine are certain, even if being mounted with the motor of frequency conversion, motor The speed of vibration is also required to manual adjustment, and the speed vibrated can not combine the chaindriven speed progress of transmission of casting machine Automatically adjust.

The content of the invention

It is necessary to propose that a kind of setting that can automatically adjust vibration velocity according to the speed of driving-chain automatically controls vibration The calcium carbide production crushing all-in-one machine of system.

A kind of set automatically controls the calcium carbide production crushing all-in-one machine of vibrational system, including casting portion, move portion, is arranged on Vibrating device, vibration control portion in casting portion, the move portion are arranged on the lower section in casting portion, to drive casting portion to move, The casting portion is used to calcium carbide liquation being shaped to calcium carbide ingot, and the casting portion includes support frame, set on the support frame Driving-chain, motor, some casting dies being arranged on driving-chain, the motor with transmission chain link, with drive Dynamic driving-chain action, the driving-chain include up driving-chain and descending driving-chain, and the up driving-chain is from head to machine The driving-chain of tail transmission, the descending driving-chain are the driving-chain of slave Caudad head transmission, the vibration control portion and vibration Device connects, and to control the action of vibrating device, the vibration control portion includes vibrating controller, tail temperature detecting unit, The vibrating controller is connected with vibrating device, and the tail temperature detecting unit is fixedly installed on the support frame close to tail On, for detecting the real time temperature of the calcium carbide ingot in the casting die at tail, vibrating controller and tail temperature detection Unit connects, and the vibrating controller controls shaking for the vibrating device according to the real time temperature of tail temperature detecting unit detection Dynamic speed, the speed to come off is released to accelerate or slow down calcium carbide ingot from casting die.

Preferably, the tail temperature detecting unit is temperature sensor.

Preferably, the vibration control portion also includes memory cell, comparing unit, and the memory cell connects with comparing unit Connect, the comparing unit is connected with tail temperature detecting unit and vibrating controller, and memory cell is used to store at tail Calcium carbide ingot reference temperature, real time temperature that the comparing unit provides tail temperature detecting unit carries out with reference temperature Compare, and comparative result is supplied to the vibrating controller, on the vibrating controller controls according to the comparative result The vibration velocity of vibrating motor and lower vibrating motor, the speed to come off is released from casting die to accelerate or slow down calcium carbide ingot.

Preferably, the vibrating device includes upper vibrating device, the upper vibrating device include upper mounted plate, upper junction plate, on Portable plate, upper vibrating motor, upper lead, upper limit spring, upper vibrating plate, horizontal axis, institute are set on upper mounted plate Vibrating motor is stated to be fixedly installed on upper mobile board, upper vibrating motor is connected with vibrating controller, one end of upper mobile board with Upper horizontal axis coordinates, so that upper mobile board rotates around upper horizontal axis, the other end of upper mobile board is connected with upper lead, The upper lead sequentially passes through the other end of the upper mobile board, upper junction plate, and upper lead is fixedly connected with upper mobile board, Upper lead is not connected to upper junction plate, so that upper mobile board and upper lead can move up and down relative to upper junction plate, Upper limit spring is arranged on the outer wall of upper lead between upper mobile board and upper junction plate, is set on the top of upper lead Oscillating plate, fixed plate and upper junction plate are fixed on the support frame between the up driving-chain and descending driving-chain On, the upper vibrating plate is arranged on below the lower surface of up driving-chain, with casting die fixed on up driving-chain Rear-face contact.

Preferably, the vibrating device also includes lower vibrating device, the lower vibrating device include bottom plate, lower connecting plate, Lower portable plate, lower vibrating motor, lower lead, the first lower limit spring, the second lower limit spring, lower oscillating plate, in lower fixation Horizontal axis under being set on plate, the lower vibrating motor are fixedly installed on the upper surface of lower portable plate, and lower vibrating motor is with shaking Movement controller connects, and one end of lower portable plate coordinates with lower horizontal axis, so that lower portable plate rotates around lower horizontal axis, under The other end of portable plate is connected with lower lead, and the lower lead sequentially passes through the other end of the lower portable plate, lower connection Plate, lower lead are not connected to lower portable plate, and lower lead is fixedly connected with lower connecting plate, so that lower portable plate is along lower guiding Post moves up and down relative to lower lead and lower connecting plate, on the outer wall of the lower lead between lower portable plate and lower connecting plate The first lower limit spring is arranged, the second lower limit spring is arranged on the outer wall of the lower lead above lower portable plate, is led under Limited block is set to the top of post, to avoid the second lower limit spring from being slipped from the top of lower lead, under lower portable plate Lower push rod is set on surface, and the oscillating plate in the case where the low side of lower push rod is set, the bottom plate and lower connecting plate are fixed on described Under support frame between descending driving-chain and descending driving-chain, the lower oscillating plate is arranged on the top of descending driving-chain, with With the rear-face contact of casting die fixed on descending driving-chain.

Preferably, the move portion includes front jockey wheel, guide motor, rear movable pulley, mobile motor, the front jockey wheel Be separately positioned on the front-end and back-end of support frame with rear movable pulley, the guide motor and mobile motor with the carriage Frame is fixedly connected, and the guide motor is connected with front jockey wheel, described to drive front jockey wheel to rotate by guide motor Mobile motor and rear movable pulley are connected, and are rotated with movable pulley after being driven by mobile motor, the control unit is led with described It is electrically connected with to motor and mobile motor, to control the action of guide motor and mobile motor by control unit, and then realizes certainly Dynamic movement and auto-steering.

Preferably, in addition to firm banking, hydraulic jack, steering gear, the firm banking are fixedly installed on support frame Lower section, the both ends of firm banking are connected with two front jockey wheels respectively, and the guide motor is connected with hydraulic jack, to pass through The stretching or retraction of the cylinder rod of guide motor driving hydraulic jack, the cylinder rod of the hydraulic jack are connected with the steering gear, institute State steering gear to be connected with two front jockey wheels, and then drive two front jockey wheels to rotate by guide motor, realize and turn to.

Preferably, the steering gear includes having mutually isostructural left-hand diverter and right hand steering device and balanced connecting rod, To drive left-hand diverter and right hand steering device synchronous axial system by balanced connecting rod, and then two front jockey wheels are driven synchronously to turn It is dynamic, realize and turn to, the left-hand diverter includes rotating shaft, axle sleeve, first connecting rod, second connecting rod, third connecting rod, the axle sleeve with The wheel hub of front jockey wheel is fixedly connected, and the rotating shaft and axle sleeve axis connection, the end of the firm banking are fixedly connected with rotating shaft, One end of the first connecting rod is fixedly connected with axle sleeve, the other end of first connecting rod and the cylinder rod axis connection of hydraulic jack, described One end of second connecting rod is fixedly connected with axle sleeve, and the other end of second connecting rod is fixedly connected with one end of third connecting rod, and the 3rd connects The other end of bar and the end axis connection of balanced connecting rod.

The utility model detects the temperature of calcium carbide ingot by the tail temperature detecting unit in vibration control portion, then by vibrating Controller controls the vibration velocity of the vibrating device according to the real time temperature of tail temperature detecting unit detection, to accelerate or subtract Slow calcium carbide ingot releases the speed to come off from casting die.

Brief description of the drawings

Fig. 1 is the structural representation of the calcium carbide production crushing all-in-one machine for setting and automatically controlling vibrational system.

Fig. 2 is the front view of the calcium carbide production crushing all-in-one machine for setting and automatically controlling vibrational system.

Fig. 3 is the partial enlarged drawing that vibrating device is expressed in Fig. 2.That is the part that symbol B is identified in Fig. 2.

Fig. 4 is the structural representation of the upper vibrating device.

Fig. 5 is the structural representation of the lower vibrating device.

Fig. 6 is the functional block diagram in the vibration control portion.

Fig. 7 is the structural representation of the move portion.

Fig. 8 is the partial enlarged drawing that left-hand diverter is expressed in Fig. 7.That is the part that symbol C is identified in Fig. 7.

Fig. 9 is the partial enlarged drawing that right hand steering device is expressed in Fig. 7.That is the part that symbol D is identified in Fig. 7.

In figure：Casting portion 1, support frame 11, driving-chain 12, up driving-chain 121, descending driving-chain 122, motor 13rd, casting die 14, move portion 2, front jockey wheel 21, guide motor 22, rear movable pulley 23, mobile motor 24, firm banking 25, Hydraulic jack 26, left-hand diverter 27, rotating shaft 271, axle sleeve 272, first connecting rod 273, second connecting rod 274, third connecting rod 275, Right hand steering device 28, rotating shaft 281, axle sleeve 282, second connecting rod 284, third connecting rod 285, balanced connecting rod 29, vibrating device 3, on Vibrating device 31, upper mounted plate 311, upper junction plate 312, upper mobile board 313, upper vibrating motor 314, upper lead 315, upper limit Spring 316, upper vibrating plate 317, upper horizontal axis 318, lower vibrating device 32, bottom plate 321, lower connecting plate 322, lower portable plate 323rd, lower push rod 3231, lower vibrating motor 324, lower lead 325, the first lower limit spring 326, the second lower limit spring 327, Lower oscillating plate 328, lower horizontal axis 329, vibration control portion 4, vibrating controller 41, tail temperature detecting unit 42, storage are single Member 43, comparing unit 44.

Embodiment

, below will be to required use in embodiment in order to illustrate more clearly of the technical scheme of the utility model embodiment Accompanying drawing be briefly described, it should be apparent that, drawings in the following description are some embodiments of the utility model, for this For the those of ordinary skill of field, on the premise of not paying creative work, it can also be obtained according to these accompanying drawings other Accompanying drawing.

Referring to Fig. 1 to Fig. 6, the utility model embodiment provides a kind of calcium carbide production for setting and automatically controlling vibrational system Crushing all-in-one machine, including casting portion 1, move portion 2, the vibrating device 3 being arranged in casting portion 1, vibration control portion 4, move portion 2 The lower section in casting portion 1 is arranged on, to drive casting portion 1 to move, casting portion 1 is used to calcium carbide liquation being shaped to calcium carbide ingot, casts Portion 1 includes support frame 11, the driving-chain 12 being arranged in support frame 11, motor 13, is arranged on driving-chain 12 Some casting dies 14, motor 13 are connected with driving-chain 12, and to drive driving-chain 12 to act, driving-chain 12 includes up biography Dynamic chain 121 and descending driving-chain 122, up driving-chain 121 are the driving-chain 12 transmitted from head to tail, descending driving-chain 122 be the driving-chain 12 of slave Caudad head transmission, and vibration control portion 4 is connected with vibrating device 3, to control vibrating device 3 Action, vibration control portion 4 include vibrating controller 41, tail temperature detecting unit 42, and vibrating controller 41 connects with vibrating device 3 Connect, tail temperature detecting unit 42 is fixedly installed in the support frame 11 of tail, for detecting pouring at tail The real time temperature of calcium carbide ingot in casting mould 14, vibrating controller 41 are connected with tail temperature detecting unit 42, vibrating controller 41 vibration velocity according to the real time temperature control vibrating device 3 of the detection of tail temperature detecting unit 42, to accelerate or slow down electricity Stone ingot releases the speed to come off from casting die 14.

Further, tail temperature detecting unit 42 is temperature sensor.

Further, vibration control portion 4 also includes memory cell 43, comparing unit 44, memory cell 43 and comparing unit 44 Connection, comparing unit 44 are connected with tail temperature detecting unit 42 and vibrating controller 41, and memory cell 43 is close for storing The reference temperature of calcium carbide ingot at tail, the real time temperature that comparing unit 44 provides tail temperature detecting unit 42 and reference temperature Degree is compared, and comparative result is supplied into vibrating controller 41, and vibrating controller 41 controls according to comparative result to shake The vibration velocity of dynamic motor 314 and lower vibrating motor 324, releases what is come off to accelerate or slow down calcium carbide ingot from casting die 14 Speed.

When real time temperature is more than reference temperature, shows the speed of driving-chain 12, to accelerate coming off for calcium carbide ingot, this When comparing unit 44 to vibrating controller 41 send accelerate vibration signal, vibrating controller 41 according to the signal control on vibrates The vibration velocity of motor 314 and lower vibrating motor 324 accelerate so that calcium carbide ingot from the rapid release of casting die 14, come off, work as reality When Shi Wendu is less than reference temperature, show that the speed of driving-chain 12 is slower, comparing unit 44 is sent to vibrating controller 41 to be slowed down The signal of vibration, vibrating controller 41 control the vibration velocity of upper vibrating motor 314 and lower vibrating motor 324 to become according to the signal Slowly, to slow down coming off for calcium carbide ingot, and then the power consumption of upper vibrating motor and lower vibrating motor is reduced, realizes intelligent power saving.

Referring to Fig. 4, further, the vibrating device includes upper vibrating device 31, upper vibrating device 31 include upper mounted plate 311, Upper junction plate 312, upper mobile board 313, upper vibrating motor 314, upper lead 315, upper limit spring 316, upper vibrating plate 317, Horizontal axis 318 on being set on upper mounted plate 311, upper vibrating motor 314 are fixedly installed on upper mobile board 313, upper vibration Motor 314 is connected with vibrating controller, and one end of upper mobile board 313 coordinates with upper horizontal axis 318, so that upper mobile board 313 Rotated around upper horizontal axis 318, the other end of upper mobile board 313 is connected with upper lead 315, and upper lead 315 is worn successively The other end, the upper junction plate 312 of upper mobile board 313 are crossed, upper lead 315 is fixedly connected with upper mobile board 313, upper lead 315 are not connected to upper junction plate 312, so that upper mobile board 313 and upper lead 315 can be upper and lower relative to upper junction plate 312 It is mobile, upper limit spring 316 is arranged on the outer wall of the upper lead 315 between upper mobile board 313 and upper junction plate 312, The top of upper lead 315 sets upper vibrating plate 317, and upper mounted plate 311 and upper junction plate 312 are fixed on up driving-chain 121 In support frame 11 between descending driving-chain 122, upper vibrating plate 317 is arranged on below the lower surface of up driving-chain 121, With the rear-face contact with casting die 14 fixed on up driving-chain 121.

Referring to Fig. 5, further, vibrating device 3 also includes lower vibrating device 32, lower vibrating device 32 include bottom plate 321, under Connecting plate 322, lower portable plate 323, lower vibrating motor 324, lower lead 325, the first lower limit spring 326, the second lower limit Spring 327, lower oscillating plate 328, horizontal axis 329 under being set on bottom plate 321, lower vibrating motor 324 are fixedly installed on On the upper surface of lower portable plate 323, lower vibrating motor 324 is connected with vibrating controller, one end of lower portable plate 323 and lower transverse direction Axis 329 coordinates, so that lower portable plate 323 rotates around lower horizontal axis 329, the other end of lower portable plate 323 and lower guiding Post 325 connects, and lower lead 325 sequentially passes through the other end of lower portable plate 323, lower connecting plate 322, and lower lead 325 is with Portable plate 323 is not connected to, and lower lead 325 is fixedly connected with lower connecting plate 322, so that lower portable plate 323 is along lower lead 325 move up and down relative to lower lead 325 and lower connecting plate 322, between lower portable plate 323 and lower connecting plate 322 under The first lower limit spring 326 is arranged on the outer wall of lead 325, on the outer wall of the lower lead 325 above lower portable plate 323 Be arranged the second lower limit spring 327, lower lead 325 top set limited block, with avoid the second lower limit spring 327 from The top of lower lead 325 slips, and lower push rod 3231 is set on the lower surface of lower portable plate 323, in the low of lower push rod 3231 End sets lower oscillating plate 328, and bottom plate 321 and lower connecting plate 322 are fixed on descending driving-chain 122 and descending driving-chain 122 Between support frame 11 under, lower oscillating plate 328 is arranged on the top of descending driving-chain 122, with it is solid on descending driving-chain 122 The rear-face contact of fixed casting die 14.

Referring to Fig. 7 to Fig. 9, further, move portion 2 includes front jockey wheel 21, guide motor 22, rear movable pulley 23, movement Motor 24, front jockey wheel 21 and rear movable pulley 23 are separately positioned on the front-end and back-end of support frame 11, guide motor 22 and shifting Dynamic motor 24 is fixedly connected with support frame 11, and guide motor 22 is connected with front jockey wheel 21, to pass through guide motor 22 drive front jockey wheels 21 rotate, and mobile motor 24 is connected with rear movable pulley 23, with by being moved after the drive of mobile motor 24 Driving wheel 23 is rotated, and control unit 3 is electrically connected with guide motor 22 and mobile motor 24, to control guide motor by control unit 3 22 and the action of mobile motor 24, and then realize and automatically move and auto-steering.

Further, move portion 2 also includes firm banking 25, hydraulic jack 26, steering gear, and firm banking 25 is fixedly installed on The lower section of support frame 11, the both ends of firm banking 25 are connected with two front jockey wheels 21 respectively, guide motor 22 and hydraulic oil Cylinder 26 connects, with by guide motor 22 drive hydraulic jack 26 cylinder rod stretching or retraction, the cylinder rod of hydraulic jack 26 with Steering gear is connected, and steering gear is connected with two front jockey wheels 21, and then drives two front jockey wheels 21 to rotate by guide motor 22, Realize and turn to.

Further, steering gear 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 the synchronous axial system of right hand steering device 28 by balanced connecting rod 29, and then drive two it is leading to 21 synchronous axial systems are taken turns, realizes and turns to, left-hand diverter 27 includes rotating shaft 271, axle sleeve 272, first connecting rod 273, second connecting rod 274th, third connecting rod 275, axle sleeve 272 are fixedly connected with the wheel hub of front jockey wheel 21, rotating shaft 271 and the axis connection of axle sleeve 272, fixed The end of base 25 is fixedly connected with rotating shaft 271, and one end of first connecting rod 273 is fixedly connected with axle sleeve 272, first connecting rod 273 The other end and hydraulic jack 26 cylinder rod axis connection, one end of second connecting rod 274 is fixedly connected with axle sleeve 272, second connecting rod 274 other end is fixedly connected with one end of third connecting rod 275, the other end of third connecting rod 275 and the end of balanced connecting rod 29 Axis connection.

Right hand steering device 28 also includes rotating 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, rotating shaft 281 and the axis connection of axle sleeve 282, and the end of firm banking 25 is fixed with rotating shaft 281 to be connected Connect, 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 other end of the third connecting rod 275 of side steering gear 27 and the third connecting rod 285 of right hand steering device 28.

Module or unit in the utility model embodiment device can be merged, divide and deleted according to being actually needed Subtract.

Above disclosed is only the utility model preferred embodiment, can not limit the utility model with this certainly Interest field, one of ordinary skill in the art will appreciate that realize all or part of flow of above-described embodiment, and according to this reality The equivalent variations made with new claim, still fall within the scope that utility model is covered.

Claims (8)

1. a kind of set the calcium carbide production crushing all-in-one machine for automatically controlling vibrational system, it is characterised in that：Including casting portion, movement Portion, the vibrating device being arranged in casting portion, vibration control portion, the move portion are arranged on the lower section in casting portion, are poured with driving Casting portion moves, and the casting portion is used to calcium carbide liquation being shaped to calcium carbide ingot, and the casting portion includes support frame, is arranged on branch Driving-chain, motor on support frame frame, some casting dies being arranged on driving-chain, the motor connect with driving-chain Connect, to drive driving-chain to act, the driving-chain includes up driving-chain and descending driving-chain, and the up driving-chain is slave The driving-chain that head transmits to tail, the driving-chain that the descending driving-chain transmits for slave Caudad head, the vibration control portion It is connected with vibrating device, to control the action of vibrating device, the vibration control portion includes vibrating controller, tail temperature detection Unit, the vibrating controller are connected with vibrating device, and the tail temperature detecting unit is fixedly installed on the branch close to tail On support frame frame, for detecting the real time temperature of the calcium carbide ingot in the casting die at tail, vibrating controller and tail temperature Spend detection unit connection, the real time temperature control vibration dress of the vibrating controller according to the detection of tail temperature detecting unit The vibration velocity put, the speed to come off is released from casting die to accelerate or slow down calcium carbide ingot.

2. as claimed in claim 1 set the calcium carbide production crushing all-in-one machine for automatically controlling vibrational system, it is characterised in that：Institute It is temperature sensor to state tail temperature detecting unit.

3. as claimed in claim 1 set the calcium carbide production crushing all-in-one machine for automatically controlling vibrational system, it is characterised in that：Institute Stating vibration control portion also includes memory cell, comparing unit, and the memory cell is connected with comparing unit, the comparing unit and Tail temperature detecting unit and vibrating controller connection, memory cell are used for the reference temperature for storing the calcium carbide ingot at tail Degree, the real time temperature that the comparing unit provides tail temperature detecting unit will compare knot compared with reference temperature Fruit is supplied to the vibrating controller, and the vibrating controller controls upper vibrating motor and lower vibration according to the comparative result The vibration velocity of motor, the speed to come off is released from casting die to accelerate or slow down calcium carbide ingot.

4. as claimed in claim 1 set the calcium carbide production crushing all-in-one machine for automatically controlling vibrational system, it is characterised in that：Institute Stating vibrating device includes upper vibrating device, the upper vibrating device include upper mounted plate, upper junction plate, upper mobile board, upper vibrating motor, Upper lead, upper limit spring, upper vibrating plate, horizontal axis is set on upper mounted plate, the upper vibrating motor, which is fixed, to be set To put on upper mobile board, upper vibrating motor is connected with vibrating controller, and one end of upper mobile board coordinates with upper horizontal axis, so that Upper mobile board is rotated around upper horizontal axis, and the other end of upper mobile board is connected with upper lead, and the upper lead is worn successively The other end, the upper junction plate of the upper mobile board are crossed, upper lead is fixedly connected with upper mobile board, upper lead and upper junction plate It is not connected to, so that upper mobile board and upper lead can move up and down relative to upper junction plate, in upper mobile board and upper junction plate Between upper lead outer wall on be arranged upper limit spring, upper lead top set upper vibrating plate, it is fixed Plate and upper junction plate are fixed in the support frame between the up driving-chain and descending driving-chain, and the upper vibrating plate is set Below the lower surface of up driving-chain, with the rear-face contact with casting die fixed on up driving-chain.

5. as claimed in claim 1 set the calcium carbide production crushing all-in-one machine for automatically controlling vibrational system, it is characterised in that：Institute Stating vibrating device also includes lower vibrating device, and the lower vibrating device includes bottom plate, lower connecting plate, lower portable plate, lower vibration electricity Machine, lower lead, the first lower limit spring, the second lower limit spring, lower oscillating plate, laterally lead under being set on bottom plate Axle, the lower vibrating motor are fixedly installed on the upper surface of lower portable plate, and lower vibrating motor is connected with vibrating controller, lower work One end of dynamic plate coordinates with lower horizontal axis so that lower portable plate rotates around lower horizontal axis, the other end of lower portable plate with Lower lead connection, the lower lead sequentially pass through the other end, the lower connecting plate of the lower portable plate, lower lead and lower work Dynamic plate is not connected to, and lower lead is fixedly connected with lower connecting plate so that lower portable plate along lower lead relative to lower lead And lower connecting plate moves up and down, the first lower limit bullet is arranged on the outer wall of the lower lead between lower portable plate and lower connecting plate Spring, the second lower limit spring is arranged on the outer wall of the lower lead above lower portable plate, on the top of lower lead, limit is set Position block, to avoid the second lower limit spring from being slipped from the top of lower lead, lower push rod is set on the lower surface of lower portable plate, The oscillating plate in the case where the low side of lower push rod is set, the bottom plate and lower connecting plate are fixed on the descending driving-chain and descending biography Under support frame between dynamic chain, the lower oscillating plate is arranged on the top of descending driving-chain, with being fixed on descending driving-chain Casting die rear-face contact.

6. as claimed in claim 1 set the calcium carbide production crushing all-in-one machine for automatically controlling vibrational system, it is characterised in that：Institute Stating move portion includes front jockey wheel, guide motor, rear movable pulley, mobile motor, and the front jockey wheel and rear movable pulley are set respectively Put in the front-end and back-end of support frame, the guide motor and mobile motor are fixedly connected with the support frame, described Guide motor is connected with front jockey wheel, and to drive front jockey wheel to rotate by guide motor, the mobile motor moves with rear Driving wheel is connected, and is rotated with movable pulley after being driven by mobile motor, the control unit and the guide motor and mobile electricity Machine is electrically connected with, and is automatically moved and from turn with controlling the action of guide motor and mobile motor by control unit, and then realizing To.

7. as claimed in claim 6 set the calcium carbide production crushing all-in-one machine for automatically controlling vibrational system, it is characterised in that：Institute Stating move portion also includes firm banking, hydraulic jack, steering gear, and the firm banking is fixedly installed on the lower section of support frame, The both ends of firm banking are connected with two front jockey wheels respectively, and the guide motor is connected with hydraulic jack, with by being oriented to electricity The stretching or retraction of the cylinder rod of machine driving hydraulic jack, the cylinder rod of the hydraulic jack are connected with the steering gear, the steering Device is connected with two front jockey wheels, and then drives two front jockey wheels to rotate by guide motor, is realized and is turned to.

8. as claimed in claim 7 set the calcium carbide production crushing all-in-one machine for automatically controlling vibrational system, it is characterised in that：Institute Stating steering gear includes having mutually isostructural left-hand diverter and right hand steering device and balanced connecting rod, to pass through balanced connecting rod band Dynamic left-hand diverter and right hand steering device synchronous axial system, and then two front jockey wheel synchronous axial systems are driven, realize and turn to, the left side Side steering gear includes rotating shaft, axle sleeve, first connecting rod, second connecting rod, third connecting rod, and the wheel hub of the axle sleeve and front jockey wheel is fixed Connection, the rotating shaft and axle sleeve axis connection, the end of the firm banking are fixedly connected with rotating shaft, one end of the first connecting rod It is fixedly connected with axle sleeve, the other end of first connecting rod and the cylinder rod axis connection of hydraulic jack, one end of the second connecting rod and axle Set is fixedly connected, and the other end of second connecting rod is fixedly connected with one end of third connecting rod, and the other end and the balance of third connecting rod connect The end axis connection of bar.