CN107696258A - A kind of resistor ceramic mud rod formation system - Google Patents

Abstract

The invention discloses a kind of resistor ceramic mud rod formation system, including extrusion forming device and cutting conveying appliance, cutting conveying appliance to include：First conveyer belt；Cutting mechanism, including cutting wire and cutting cylinder；Second conveyer belt；Blower mechanism, including blowing source of the gas, blower, blowing control valve and multiple tuyeres, source of the gas is connected, the other end is connected with multiple tuyeres with blowing for blower one end, and blowing control valve is located at blower, and direction of transfer of multiple tuyeres along the first conveyer belt is set gradually.The present invention sets extrusion forming device to extrude pug and is in the form of a column, first conveyer belt conveys resistor ceramic mud rod along extrusion direction, and by driving cutting wire interval to be cut to set the resistor ceramic mud rod of length, multiple tuyeres produce air-flow and the resistor ceramic mud rod on the first conveyer belt are blown into the second conveyer belt simultaneously, the resistor ceramic mud rod of lengthwise movement can be transitted to transverse movement by it, which obviated the deformation of resistor ceramic mud rod, improved transition transfer efficiency.

Description

A kind of resistor ceramic mud rod formation system

Technical field

The present invention relates to the white rod technology of preparing of resistor ceramic, more particularly, to a kind of resistor ceramic mud rod formation system.

Background technology

In the white rod preparation process of resistor ceramic, various ingredients are first typically configured to base substrate, Ran Houtong by setting ratio Cross extrusion molding apparatus extrusion to be in the form of a column, the cleavable resistor ceramic mud rod into certain length after extrusion molding, finally by defeated Band is sent to be delivered to subsequent processing.But existing resistor ceramic mud rod, more using artificial cutting, it is easily caused Cutting Length not One so that wasted during subsequent treatment serious；Moreover, in order to ensure the efficiency of subsequent technique, it is necessary to by multiple resistance after cutting Ceramic mud rod transition be delivered to side by side place shape body after enter subsequent processing, in traditional handicraft transition be delivered to laying state arranged side by side When use human assistance more, it is easily caused the deformation of resistor ceramic mud rod or even is broken, and seriously reduces the matter of resistor ceramic mud rod Amount.

The content of the invention

It is an object of the invention to overcome above-mentioned technical deficiency, a kind of resistor ceramic mud rod cutting conveying appliance is proposed, is solved Yielding technical problem when certainly resistor ceramic mud rod Cutting Length differs in the prior art, transition conveys.

To reach above-mentioned technical purpose, technical scheme provides a kind of resistor ceramic mud rod cutting conveying appliance, Including an extrusion forming device and a cutting conveying appliance, the cutting conveying appliance includes：

First conveyer belt, its extrusion direction along extrusion forming device extruder head is set and its feed end matches with extruder head Close；The cutting planes in the extrusion direction of a vertical extrusion head are formed between first conveyer belt and extruder head；

Cutting mechanism, it includes a cutting wire and a driving cutting wire makees interval back and forth movement in cutting planes Cut cylinder；

Second conveyer belt, its feed end are vertically connected at the discharge end of first conveyer belt；

Blower mechanism, it includes dry source of the gas, blower, blowing control valve and multiple tuyeres, described blower one end with The connection of blowing source of the gas, the other end are connected with multiple tuyeres, and the blowing control valve is arranged at the blower and for controlling institute State blower interval to turn on, direction of transfer of multiple tuyeres along the first conveyer belt is set in turn in the first conveyer belt side simultaneously The resistor ceramic mud rod motion on the first conveyer belt of driving can be produced to the air-flow of the second conveyer belt.

Compared with prior art, the present invention sets extrusion forming device to extrude pug and is in the form of a column, and the first conveyer belt edge Direction conveying resistor ceramic mud rod is extruded, and drives cutting wire to make interval back and forth movement by drive cylinder and is cut with carrying out interval Cut, so as to form the resistor ceramic mud rod of setting length, while blower mechanism is set, it can be by multiple tuyeres for being set up in parallel Produce air-flow and the resistor ceramic mud rod on the first conveyer belt is blown to the second conveyer belt, it will can longitudinally be transported on the first conveyer belt Dynamic resistor ceramic mud rod transits to the second conveyer belt of transverse movement, which obviates the deformation of resistor ceramic mud rod, improves Transition transfer efficiency.

Brief description of the drawings

Fig. 1 is the attachment structure schematic diagram of the resistor ceramic mud rod formation system of the present invention；

Fig. 2 is the structural representation of the extrusion forming device of the present invention；

Fig. 3 is Fig. 2 of present invention A-A direction views；

Fig. 4 is Fig. 2 of present invention B-B direction view；

Fig. 5 is the structural representation of the cutting conveying appliance of the present invention；

Fig. 6 is Fig. 5 of present invention C-C to cutaway view Amplified image；

Fig. 7 is the structural representation of the U-shaped backplate of the present invention；

Fig. 8 is the structural representation of the fixed plate of the present invention；

Fig. 9 is the connection block diagram of the cutter controller of the present invention；

Figure 10 is the connection block diagram of the blowing controller of the present invention.

Embodiment

In order to make the purpose , technical scheme and advantage of the present invention be clearer, it is right below in conjunction with drawings and Examples The present invention is further elaborated.It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, and It is not used in the restriction present invention.

As shown in figure 1, the invention provides a kind of resistor ceramic mud rod formation system, including extrusion forming device 200 and Cutting conveying appliance 100.Extrusion forming device 200 includes feeding mechanism 21, double end pressing mechanism 22, transverse shear stress mechanism 23rd, longitudinal pressing mechanism 24, extruder head 25 and vacuum device 26.

As shown in figures 1-4, feeding mechanism 21 includes feeding rack 211, conveying roller 212 and charging deflector roll 213, conveying roller 212 To be multiple and be uniformly arranged along the length direction of feeding rack 211, charging deflector roll 213 then at least two, charging deflector roll 213 is arranged at The conveyor side of conveying roller 212, and discharge end of the deflector roll 213 close to feeding rack 211 is fed, each of which charging He of deflector roll 213 Conveying roller 212 be arranged in parallel.And multiple conveying rollers 212 are located at the first plane, and at least two charging deflector rolls 213 are then positioned at the Two planes, the first plane and the second plane be arranged in parallel, and it, which to feed, forms a charging between deflector roll 213 and conveying roller 212 Gap 210, it is easy to feed deflector roll 213 to being oriented in the base substrate of strip, is easy to strip base substrate to enter double end pressing mechanism In 22.

Smoothly enter for the ease of the material of feeding mechanism 21 in Action of Gravity Field in double end pressing mechanism 22, can be by feeding rack 211 are obliquely installed, i.e., formed with 60~75 ° of angle between feeding rack 211 and horizontal plane, the where multiple conveying rollers 212 60~75 ° of angle is formed between one plane and horizontal plane, preferably 68 °, it ensures strip base substrate non-resistance and at the uniform velocity entered Double end pressing mechanism 22.

Double end pressing mechanism 22 includes extruding housing 221, is juxtaposed in the extruding housing 221 and can reversely turn Two dynamic compression rollers 222；Therefore the lower end of feeding rack 211 is connected to extruding housing 221 top, corresponding extruding housing 221 pushes up The charging aperture for setting and coordinating with charging gap 2100 is held, for the ease of thickness can be squeezed into more after the base substrate entrance of strip Small, formed with top clearance 222a between two compression rollers 222, gap 210 is corresponding with top clearance 222a sets for charging Put so that strip base substrate is directly dropped down onto in top clearance 222a after entering along charging gap 210.Moreover, top clearance 222a should Less than the distance between charging gap 210, specially two compression rollers 222 be less than between the first plane and the second plane away from From consequently facilitating extruding strip base substrate.And in order to improve squeezing effect, it is additionally provided with the present embodiment compression roller 222 The groove arranged along its length, two compression rollers 222 coordinate the pug after extruding can substantially undulate, it is easy to subsequently Compactibility conveying.

Transverse shear stress mechanism 23 includes a transverse shear stress cylinder 231 laterally set, is coaxially built in the transverse shear stress cylinder 231 transverse shear stress screw rod 232, the transverse shear stress motor 233 and and transverse shear stress for driving the transverse shear stress screw rod 232 to rotate The horizontal cooling water pipe 234 of horizontal cooling cavities connection between the side wall of cylinder 231；Extruding housing 221 lower end is provided with discharging opening, And the charging aperture of the upside of transverse shear stress cylinder 231 is connected with the discharging opening of extruding housing 221 lower end, in order to extrude undulate Base substrate enters in transverse shear stress cylinder 231, then carries out conveying-type extruding by transverse shear stress screw rod 232, due to extrusion process not Disconnected to be stirred, it is also easy to produce substantial amounts of heat, therefore the outer cylinder body and inner barrel of the transverse shear stress cylinder 231 of the present embodiment form horizontal stroke To cooling cavities, the horizontal cooling cavities can use annular cooling cavities, also use helical form cooling cavities, therefore can pass through horizontal stroke Cooling water is injected to horizontal cooling chamber body-internal-circulation of the cooling water pipe 234 into transverse shear stress cylinder 231, is laterally squeezed in order to take away Screw rod 232 is pressed in heat caused by conveying, stirring.

Wherein, in order to ensure stability that double end pressing mechanism 22 and transverse shear stress mechanism 23 coordinate, the present embodiment double end Pressing mechanism 22 also includes the driving gear 223 and driven gear 224 being meshed, and two described 222 equal one end of compression roller pass through The extruding housing 221 is simultaneously connected with the driving gear 223 and driven gear 224 respectively；The transverse shear stress mechanism 23 is wrapped Include a drive shaft 235 and be sheathed on the drive shaft 235 and the drive gear 236 engaged with the driving gear 223, the drive The one end of moving axis 235 is connected with the transverse shear stress screw rod 232, the other end is connected with the transverse shear stress motor 233.Specific driving When, transverse shear stress motor 233 drives drive shaft 235 to rotate to drive transverse shear stress screw rod 232 and drive gear 236 coaxially to turn It is dynamic, and drive gear 236 can then drive driving gear 223 to rotate, driving gear 223 drives driven gear 224 to rotate, i.e., it is logical Axle 235 of overdriving driving transverse shear stress screw rod 232 and two synchronous axial systems of compression roller 222, it advantageously ensures that transverse shear stress spiral shell The stability that bar 232 and two compression rollers 222 coordinate, ensure that two compression rollers 222 extrude doses and transverse shear stress screw rod 232 Extrude doses coordinate uniformity, which obviate charging it is excessive or very few, ensure that transverse shear stress screw rod 232 squeezes to pug Pressure, mixing effect.Wherein, the part of driving gear 223 is engaged with driven gear 224 and part is engaged with drive gear 236, so as to Improve drive efficiency.

Longitudinal pressing mechanism 24 includes the longitudinally disposed and longitudinal recipient that is connected with the discharge end of transverse shear stress cylinder 231 241st, coaxially it is built in longitudinal extruding screw 242 of longitudinal recipient 241, drives the vertical of longitudinal rotation of extruding screw 242 The longitudinal cooling water pipe connected to extruding motor 243 and longitudinal cooling cavities between the side wall of longitudinal recipient 241 244；Longitudinal recipient 241 is vertically arranged with transverse shear stress cylinder 231, and transverse shear stress mechanism 23 and longitudinal pressing mechanism 24 can be distinguished Formula extruding conveying is stirred to pug by horizontal and vertical, it can improve the degree of packing and viscosity of pug extruding conveying, ensure The stability for the mud rod being extruded into, avoid producing slight crack on mud rod and mud rod is broken, it is advantageous to the matter for improving mud rod Amount.Wherein, transverse shear stress cylinder 231 is roughly the same with the structure of longitudinal recipient 241, and the water side of horizontal cooling water pipe 234 It can be connected with the water inlet end of longitudinal cooling water pipe 244, so as to realize the cold successively of transverse shear stress cylinder 231 and longitudinal recipient 241 But.

Extruder head 25 is connected with the discharge end of longitudinal recipient 241, and it can be coaxially disposed with longitudinal recipient 241.Extrusion First 25 can use existing conventional structure, therefore not be described in detail.

Vacuum device 26 can connect with the feed end of longitudinal recipient 241, unavoidably a small amount of during due to transverse shear stress Air enter in longitudinal recipient 241, above-mentioned air is easily pressed into resistor ceramic mud rod 300 and produces bubble, therefore The present embodiment can be extracted out the air of the feed end of longitudinal recipient 241 by vacuum device 26, i.e., when transverse shear stress cylinder 231 When interior blank enters longitudinal recipient 241, the air in it is escaped and extracted out by vacuum device 26, and vacuum device 26 can Using conventional vavuum pump and a vacuum inspective meter composition, it can be by the absolute vacuum of the feed end of longitudinal recipient 241 Degree, which is evacuated to, is less than -0.08MPA.

During extrusion forming device specific works, moved in the base substrate of strip in Action of Gravity Field along conveying roller 212, when moving to During close to double end pressing mechanism 22, base substrate is moved to control charging rate in charging gap 210, and base substrate is by feeding gap 210 Undulate is extruded into top clearance 222a and in the effect of two compression rollers 222, subsequently into transverse shear stress cylinder 231, Blank is acted in transverse shear stress screw rod 232 and water is uniformly mixed to form the pug of consolidation, and the pug of last consolidation enters longitudinal direction and squeezed Pressure cylinder 241 is simultaneously stirred formula extruding in the effect of longitudinal extruding screw 242 to pug and is extruded into by extruder head 25 again Bar-shaped material.

As shown in Figure 1, shown in Figure 5, cutting conveying appliance 100 includes the first conveyer belt 11, the second conveyer belt 12, cutting mechanism 13rd, blower mechanism 14, cut-sytle pollination mechanism 15 and blowing controlling organization 16.

As shown in Fig. 1, Fig. 5, Fig. 7, the first conveyer belt 11 is engaged with the extruder head 25 of extrusion molding apparatus 200 so that The cylindricality strip resistor ceramic mud rod 300 of extrusion can be moved along the first conveyer belt 11, therefore the first conveyer belt 11 is needed along extrusion First 25 extrusion direction is set, and the downside outer rim of the settable extrusion with extruder head 25 of transmission plane of the first conveyer belt 11 Concordantly, so as to ensure extrusion resistor ceramic mud rod 300 move to the first conveyer belt 11 when will not deform；Meanwhile in order to It is easy to cut, the cutting planes in the extrusion direction of a vertical extrusion head 25 is formed between the first conveyer belt 11 and extruder head 25.And In order to avoid sidesway occurs for the resistor ceramic mud rod 300 after the drive of cutting mechanism 13 cutting in cutting process and cause to deform, this Embodiment sets a U-shaped backplate 17, resistor ceramic mud to be cut between the feed end of cutting planes and the first conveyer belt 11 There is gap between rod 300 and U-shaped backplate 17.

As shown in Figure 5, Figure 6, cutting mechanism 13 includes a cutting wire 131 and a driving cutting wire 131 is flat in cutting Make the cutting cylinder 132 of interval back and forth movement in face, cutting wire 131 can as needed be vertically arranged, is horizontally disposed with or tilt and set Put, it can be moved in cutting planes cuts off resistor ceramic mud rod 300.For the ease of setting, the present embodiment cutting Silk 131 is horizontally disposed, therefore the cutting wire 131 makees back and forth movement in the horizontal direction in cutting planes, for the ease of cutting wire 131 Setting, can be set a cutting support 133, it is in Contraband font that the cutting support 133 is settable, its two free end respectively with cutting wire 131 both ends connection, cut middle part between the tailpiece of the piston rod of cylinder 132 and cutting and connect；The cutting cylinder 132 of the present embodiment drives Dynamic cutting wire 131 makees interval back and forth movement, that is, the piston rod for cutting cylinder 132 alternately stretched out and shunk in the unit interval, such as It stretched out at first second, second shrinks, stretches out within the 3rd second, shrinks within the 4th second etc., cutting cylinder 132 often make once stretch out it is dynamic When work or contractive action, cutting wire 131 is completed once to cut, and the present embodiment can be by controlling extending action and shrinking dynamic The Cutting Length of interval time regulation resistance ceramics mud rod 300 between work.

Due to resistor ceramic mud rod 300 length not only by interval time also by extruder extruded velocity shadow Ring, therefore control the precision of the length of resistor ceramic mud rod 300 relatively low only by interval time, therefore in order to improve resistor ceramic mud The length control accuracy of rod 300, the present embodiment resistor ceramic mud rod cutting conveying appliance 100 also include a cutting controlling organization 15, it include one be used for sense the first conveyer belt 11 on resistor ceramic mud rod 300 the first inductor 151 and one according to first The actuated signal control cutting cylinder 132 of inductor 151 replaces the cutter controller 152 of back and forth movement.For the ease of detection the Resistor ceramic mud rod 300 on one conveyer belt 11, then there must be separation gap between two neighboring resistor ceramic mud rod 300, That is the transfer rate of the first conveyer belt 11 should be slightly bigger than the extruded velocity of extruder head 25 so that cutting wire 131 is by resistor ceramic mud , can be first between the resistor ceramic mud rod 300 and resistor ceramic mud rod 300 to be cut that have cut after rod 300 cuts off A separation gap, and the transmission speed of the first conveyer belt 11 squeezing no more than extruder head 25 are formed in the presence of conveyer belt 11 Go out that speed is excessive, to avoid resistor ceramic mud rod 300 to be cut from being pullled under the frictional force effect of the first conveyer belt 11 Deformation.When resistor ceramic mud rod 300 to be cut moves to the first inductor 151, the first inductor 151 detects that this is to be cut The resistor ceramic mud rod 300 cut, and induced signal is produced, cutter controller 152 controls cutting cylinder 132 according to the cutoff signal Effect.

Alternately stretch out, shrink, the present embodiment cut-sytle pollination mechanism for the ease of control 132 alternate piston rod of cutting cylinder 15 also include a cut-sytle pollination valve for being used to control the first gas port 132a and the second gas port 132b of cutting cylinder 132 to replace air inlet 153.Cutting cylinder 132 can use double-acting cylinder, when the first gas port 132a air inlets, the second gas port 132b exhausts, cut gas The piston rod of cylinder 132 makees extending action；When the second gas port 132b air inlets, the first gas port 132a exhausts, the work of cutting cylinder 132 Stopper rod makees contractive action.It is described to cut and cut-sytle pollination valve 153 can use the 3 position-5 way magnetic valve to match with double-acting cylinder Controller 152 is cut for the first gas port of alternate conduction of actuated signal control cut-sytle pollination valve 153 according to the first inductor 151 132a and the second gas port 132b air inlets, i.e., when the first time of the first inductor 151 detecting resistor ceramic mud rod 300, cutting control Device 152 processed controls cut-sytle pollination valve 153 to obtain electric and turns on the first gas port 132a air inlets, and when second of the inspection of the first inductor 151 When measuring resistor ceramic mud rod 300, cutter controller 152 controls the dead electricity of cut-sytle pollination valve 153 and turns on the second gas port 132b Gas, when the third time of the first inductor 151 detects resistor ceramic mud rod 300, cutter controller 152 controls cut-sytle pollination again Valve 153 obtains electric and turns on the first gas port 132a air inlets, and it can alternately control cut-sytle pollination valve 153 to obtain dead electricity and be cut to control successively Cylinder 132 alternately stretches out and contractive action, so as to realize that interval is cut.Wherein, the present embodiment cuts cylinder 132 by cutting Cut airduct 134 to be connected with cutting source of the gas 135, that is, cut source of the gas 135 and provide power for cutting cylinder 132, cut-sytle pollination valve 153 can It is arranged on cutting airduct 134, it replaces available for control the first gas port 132a and the second gas port 132b with cutting source of the gas 135 leads It is logical.

As shown in Fig. 1, Fig. 5, Fig. 9, the present embodiment cutter controller 152 includes one and is used to gather first inductor The cutoff signal acquisition module 152a of first electric signal, one caused by 151 detection resistance ceramics mud rods 300 are used to drive cutting control Valve 153 processed turns on the first drive module 152b of the first gas port 132a air inlets, one for driving cut-sytle pollination valve 153 to turn on second Second drive module 152c of gas port 132b air inlets and one is used to control the first driving respectively according to two neighboring first electric signal The micro treatment module 152d of module 152b and the second drive module 152c effects, the cutoff signal acquisition module 152a, first Drive module 152b, the second drive module 152c are connected with the micro treatment module 152d, and micro treatment module 152d can basis First electric signal of cutoff signal acquisition module 152a collections alternately controls the first drive module 152b and the second drive module 152c is acted on, wherein the first drive module 152b can control cut-sytle pollination valve 153 electric, the second drive module 152c is controllable to be cut Cut the dead electricity of control valve 153.May also set up a counting module 152e, its can counting to the first electric signal of collection, when adopting Integrate as odd-times electric signal when, micro treatment module 152d control the first drive module 152b effect, and when collection be even number During secondary electric signal, it can drive the second drive module 152c to act on.

As shown in Figure 1, shown in Figure 5, it is moved along the first conveyer belt 11 after resistor ceramic mud rod 300 is cut, when it is moved to During close to the end of travel of the first conveyer belt 11, resistor ceramic mud rod 300 can be blown to the second transmission by it by blower mechanism 14 Band 12, acted on for the ease of blower mechanism 14, the feed end of the second conveyer belt 12 is vertically connected at the discharging of the first conveyer belt 11 End, and the transmission plane of the second conveyer belt 12 is slightly below the transmission plane of the first conveyer belt 11.

Blower mechanism 14 includes blowing source of the gas 141, blower 142, blowing control valve 143 and multiple tuyeres 144, blower Source of the gas 141 is connected, the other end is connected with multiple tuyeres 144 with blowing for 142 one end, and the blowing control valve 143 is arranged at described Blower 142 simultaneously is used to control the blower 142 intermittently to turn on, transmission of multiple tuyeres 144 along the first conveyer belt 11 The resistor ceramic mud rod 300 that direction is set in turn in the side of the first conveyer belt 11 and can produced on the first conveyer belt 11 of driving moves To the air-flow of the second conveyer belt 12.Specifically, the discharge end of the second conveyer belt 12 is located at the side of the first conveyer belt 11, can be first The opposite side of conveyer belt 11 sets the installing plate 145 coordinated with the second conveyer belt 12, and installing plate 145 is along the length side of the first conveyer belt 11 To setting, multiple tuyeres 144 are evenly arranged on installing plate 145, and the settable transmission plane with the first conveyer belt 11 of tuyere 144 Concordantly, it can produce the air-flow of vertical first conveyer belt 11, consequently facilitating by the resistor ceramic mud rod 300 on the first conveyer belt 11 It is blown to the second conveyer belt 12.Because the second conveyer belt 12 and the first conveyer belt 11 are vertically arranged, therefore the transmission of the second conveyer belt 12 Direction is identical with airflow direction caused by tuyere 144, consequently facilitating the resistor ceramic mud rod 300 dropped down onto on the second conveyer belt 12 has There is certain initial velocity, it is advantageous to avoid resistor ceramic mud rod 300 from rolling and deform on the second conveyer belt 12.

In order to avoid the multiple resistor ceramic mud rods placed side by side on the second conveyer belt of airflow influence 12 caused by tuyere 144 300, blower mechanism 14 described in the present embodiment also includes a deep bead 146, and it is arranged at first conveyer belt 11 away from described The side of tuyere 144, and blow off gap, first conveyer belt formed with one between the conveyer belt 11 of the deep bead 146 and first 11 feed end is blown off below gap positioned at described, and the He of deep bead 146 is moved to when tuyere 144 blows resistor ceramic mud rod 300 When between the first conveyer belt 11, it makees parabolic motion along blowing off gap under gravity, until dropping down onto the second conveyer belt 12.

In order to ensure blow off control accuracy of the blower mechanism 14 to resistor ceramic mud rod 300, resistance described in this present embodiment Ceramic mud rod cutting conveying appliance 100 also includes a blowing controlling organization 16, it include one located at first inductor 151 and Between tuyere 144 and for sensing the second inductor 161 and one of separation gap between two neighboring resistor ceramic mud rod 300 Blowing controller 162 for the conducting of control valve 143 of being dried according to the actuated signal control of the second inductor 161.When the second sense When answering the device 161 to detect the separation gap between two neighboring resistor ceramic mud rod 300, it illustrates resistor ceramic mud to be blown off Rod 300 just moves to substantially concordant with the second conveyer belt 12, and the controllable blowing control valve 143 of blowing controller 162 turns on, more Produce air-flow is blown to the second conveyer belt 12 to individual tuyere 144 by the resistor ceramic mud rod 300 on the first conveyer belt 11 simultaneously.

As shown in Fig. 1, Fig. 5, Figure 10, the blowing controller 162 includes one and examined for gathering second inductor 161 The blowing signal acquisition module 162a of the second electric signal caused by separation gap, one are surveyed for driving the blowing control valve 143 3rd drive module 162b of conducting, when the signal acquisition module 162a that dries collects the second electric signal, the 3rd drive module The controllable blowing control valves 143 of 162b turn on.Specifically, blowing control valve 143 can use magnetic valve, when the second inductor 161 When detecting separation gap, it is electric that the 3rd drive module 162b can control the magnetic valve to obtain, and tuyere 144 produces air-flow, when the second sense When answering the device 161 to detect resistor ceramic mud rod 300, blowing signal acquisition module 162a does not collect induced signal, the 3rd driving Module 162b then controls magnetic valve dead electricity, and magnetic valve closes in its inwall action of reset spring.

As shown in Fig. 1, Fig. 5, Fig. 8, for the ease of the installation of the first inductor 151 and the second inductor 161, the present embodiment In the first conveyer belt 11, a fixed plate 18 set along the conveying direction of the first conveyer belt 11, the first inductor are set in the middle part of it 151 and second inductor 161 be respectively arranged at fixed plate 18.One can be specifically set in fixed plate 18 along the length side of fixed plate 18 To the bar-shaped trough 181 of setting, the first inductor 151 and the second inductor 161 slide and are embedded in bar-shaped trough 181, and it can pass through Adjust the first inductor 151 and the second inductor 161 the position adjustments resistor ceramic mud rod 300 of bar-shaped trough 181 length and Blow off position.Wherein, first inductor 151 of the present embodiment and the second inductor 161 can use infrared inductor.This reality Compression others can be produced using blower fan, bellows or other routines and set by applying the cutting source of the gas 135 of example and blowing source of the gas 141 It is standby.

When the present embodiment cutting conveying appliance 100 works, the free end of column resistor ceramic mud rod 300 of the extrusion of extruder head 25 Drop down onto the first conveyer belt 11 and moved along the first conveyer belt 11, when its free end moves to the first inductor 151, cut-sytle pollination Device 152 obtains the induced signal of the first inductor 151 and controls the piston rod of cutting cylinder 132 to stretch out or shrink, and is cut with driving Cutting wire 131 cuts off resistor ceramic mud rod 300, and the solenoid ceramic mud rod after cutting off continues to move along the first conveyer belt 11, When its all by the second inductor 161 when, the second inductor 161 is detected between two neighboring resistor ceramic mud rod 300 During separation gap, blowing controller 162 obtains the induced signal of the second inductor 161 and controls air blowing control valve to turn on, and blows Multiple tuyeres 144 of mechanism produce air-flow and blow off the resistor ceramic mud rod 300 on the first conveyer belt 11 to the second conveyer belt 12.

The embodiment of present invention described above, is not intended to limit the scope of the present invention..Any basis The various other corresponding changes and deformation that the technical concept of the present invention is made, should be included in the guarantor of the claims in the present invention In the range of shield.

Claims (10)

1. A kind of 1. resistor ceramic mud rod formation system, it is characterised in that including an extrusion forming device and a cutting conveying appliance, The cutting conveying appliance includes：

   First conveyer belt, the extrusion direction of its extruder head along extrusion forming device is set and its feed end matches with extruder head Close；The cutting planes in the extrusion direction of a vertical extrusion head are formed between first conveyer belt and extruder head；

   Cutting mechanism, it includes a cutting wire and a driving cutting wire makees the cutting of interval back and forth movement in cutting planes Cylinder；

   Second conveyer belt, its feed end are vertically connected at the discharge end of first conveyer belt；

   Blower mechanism, it includes dry source of the gas, blower, blowing control valve and multiple tuyeres, described blower one end and blowing Source of the gas connection, the other end are connected with multiple tuyeres, and the blowing control valve is arranged at the blower and for controlling described blow Airduct interval turns on, and direction of transfer of multiple tuyeres along the first conveyer belt is set in turn in the first conveyer belt side and can produced Life drives the resistor ceramic mud rod motion on the first conveyer belt to the air-flow of the second conveyer belt.
2. 2. resistor ceramic mud rod formation system according to claim 1, it is characterised in that the extrusion forming device bag Include：

   Transverse shear stress mechanism, it includes a transverse shear stress cylinder laterally set, is coaxially built in the transverse direction of the transverse shear stress cylinder Extruding screw, the transverse shear stress motor that the driving transverse shear stress screw rod rotates and transverse direction between the side wall of transverse shear stress cylinder are cold But the horizontal cooling water pipe of cavity connection；

   Double end pressing mechanism, its extruding housing for including being connected with the charging aperture on the upside of the transverse shear stress cylinder, it is juxtaposed on And being capable of counter-rotational two compression rollers in the extruding housing；

   Longitudinal pressing mechanism, it includes the longitudinally disposed and longitudinal recipient, coaxial that is connected with the discharge end of transverse shear stress cylinder Be built in longitudinal extruding screw of longitudinal recipient, the longitudinal direction extruding motor that the driving longitudinal extruding screw rotates and with it is described Longitudinal cooling water pipe of longitudinal cooling cavities connection between the side wall of longitudinal recipient；

   Vacuum device, it is connected with the feed end of longitudinal recipient；And

   Extruder head, it is located at the discharge end of longitudinal recipient.
3. 3. resistor ceramic mud rod formation system according to claim 2, it is characterised in that the extrusion forming device also wraps A feeding mechanism is included, it includes a feeding rack, conveying roller and charging deflector roll, and the conveying roller and charging deflector roll are set in parallel in institute Feeding rack is stated, and a charging gap being engaged with extruding the charging aperture of housing tip is formed between conveying roller and charging deflector roll.
4. 4. resistor ceramic mud rod formation system according to claim 3, it is characterised in that the conveying roller is multiple and edge Feeding rack length direction is set up in parallel successively, it is described charging deflector roll at least two and be set in parallel in the feeding rack relatively squeeze Press shell one end.
5. 5. resistor ceramic mud rod formation system according to claim 4, it is characterised in that the double end pressing mechanism also wraps Include the driving gear and driven gear being meshed, two described equal one end of compression roller through the extruding housing and respectively with it is described Driving gear connects with driven gear；The transverse shear stress mechanism include a drive shaft and be sheathed on the drive shaft and with it is described The drive gear of driving gear engagement, described drive shaft one end is connected with the transverse shear stress screw rod, the other end and the transverse direction Extrude motor connection.
6. 6. resistor ceramic mud rod formation system according to claim 1, it is characterised in that the resistor ceramic mud rod cutting Conveying device also includes a cutting controlling organization, and it includes one and is located between the tuyere and extruder head and is passed for sensing first The first inductor and one for sending the resistor ceramic mud rod taken cut cylinder alternating according to the actuated signal control of the first inductor The cutter controller of back and forth movement.
7. 7. resistor ceramic mud rod formation system according to claim 6, it is characterised in that the cut-sytle pollination mechanism is also wrapped Include one be used for control cutting cylinder the first gas port and the second gas port replace air inlet cut-sytle pollination valve, the cutter controller bag Include one be used for gather the cutoff signal acquisition module of the first electric signal caused by the first inductor detection resistance ceramics mud rod, One is used to driving cut-sytle pollination valve to turn on the first drive module of the first gas port air inlet, one be used to drive cut-sytle pollination valve conducting the Second drive module of two gas port air inlets and one be used for according to two neighboring first electric signal control respectively the first drive module and The micro treatment module of second drive module effect, the cutoff signal acquisition module, the first drive module, the second drive module are equal It is connected with the micro treatment module.
8. 8. resistor ceramic mud rod formation system according to claim 7, it is characterised in that the resistor ceramic mud rod cutting Conveying device also includes a blowing controlling organization, and it includes one and is located between first inductor and tuyere and for sensing phase Second inductor of the separation gap between adjacent two resistor ceramic mud rods and one is for the induced signal according to the second inductor The blowing controller of control blowing control valve conducting.
9. 9. resistor ceramic mud rod formation system according to claim 8, it is characterised in that the blowing controller includes one It is used to drive for gathering the blowing signal acquisition module of the second electric signal, one caused by the second inductor detection separation gap The 3rd drive module and a blowing control module of the dynamic blowing control valve conducting, the blowing signal acquisition module and the 3rd Drive module is connected with blowing control module.
10. 10. resistor ceramic mud rod formation system according to claim 9, it is characterised in that the blower mechanism also includes One deep bead, it is arranged at first conveyer belt away from the tuyere side, and between the deep bead and the first conveyer belt Gap is blown off formed with one, the feed end of first conveyer belt is blown off below gap positioned at described.