CN205684913U - A kind of full automatic production equipment of electric precipitator cathode line - Google Patents

Abstract

The utility model discloses the full automatic production equipment of a kind of electric precipitator cathode line, including the cutting machine for cutting sheet material, also include uncoiler, the uncoiling main shaft of described uncoiler is used for rolling sheet material, and sheet material enters described cutting machine after described uncoiler uncoiling；Farther include automaton, for automatically controlling the rotating speed of described uncoiling main shaft, so that the sheet material between described uncoiler and described cutting machine has predetermined surplus.Therefore, the full automatic production equipment of the electric precipitator cathode line in this utility model ensure that the uncoiling process of uncoiler matches with the cutting process of cutting machine, therefore, it is capable of automatically controlling of sheet material uncoiling and cutting process, thus reduce required for cathode line production process artificial, and improve production efficiency.

Description

A kind of full automatic production equipment of electric precipitator cathode line

Technical field

This utility model technical field of dust removal equipment, the fully-automatic production particularly to a kind of electric precipitator cathode line sets Standby.

Background technology

Electric cleaner is a kind of to utilize electrostatic mechanics by the dust separation in industrial smoke and to be removed, thus significantly Reduce and enter the fume amount in atmosphere, to improve environmental pollution, improve the environmental protection equipment of air quality.Conventional electric cleaner Dust removal mechanism is: negative electrode corona wire discharges, and dust is charged, and is collected by positive plate.Therefore, in electric cleaner, need a large amount of Cathode line, cathode line generally uses laser cutting machine to produce.

At present, conventional laser cutting machine produces the technical scheme of cathode line: through manually being put into sheet material to be cut Laser-scribing platform carries out cut, after product has cut, then by manually taking off product from Cutting platform, then removes Waste material on Cutting platform.During batch production cathode line, repeat above-mentioned artificial loading, cut, artificial blanking, remove waste material Process.

The above-mentioned unrealized continuous automatic production of cathode line production process, belongs to discontinuous cycle production process, respectively produces Operation is all by manually carrying out, and sheet material is big with the mobile working amount of finished product, causes integral production inefficient, and need to expend a large amount of Manpower and materials.

The defect existed in view of the laser cutting machine of above-mentioned cathode line, it would be highly desirable to provide a kind of and be capable of automated production The production equipment of electric precipitator cathode line.

Utility model content

For solving above-mentioned technical problem, the purpose of this utility model is for providing the full-automatic raw of a kind of electric precipitator cathode line Product equipment, including uncoiler and cutting machine, also includes the automaton that can control the uncoiler uncoiling speed of mainshaft, so that Sheet material between uncoiler and cutting machine has predetermined surplus, and this full automatic production equipment is capable of electric precipitator cathode line Automated production, thus improve production efficiency.

In order to realize the purpose of this utility model, this utility model provides the fully-automatic production of a kind of electric precipitator cathode line Equipment, including the cutting machine for cutting sheet material, also includes uncoiler, and the uncoiling main shaft of described uncoiler is used for rolling sheet material, Sheet material enters described cutting machine after described uncoiler uncoiling；

Farther include automaton, for automatically controlling the rotating speed of described uncoiling main shaft, so that opening described in being positioned at Sheet material between volume machine and described cutting machine has predetermined surplus.

Owing to sheet material enters cutting machine after uncoiler uncoiling, therefore, when the discharging speed of uncoiler and entering of cutting machine When material speed matches, the sheet material between uncoiler and cutting machine can have predetermined surplus.And this predetermined surplus ensure that Uncoiler normally works with cutting machine, it is to avoid when above-mentioned discharging speed is less than charging rate, due to uncoiler and cutting machine it Between sheet material surplus be too small that sheet material is pullled, and then affect cutting machine and uncoiler normally works, also avoid when above-mentioned Discharging speed is the biggest more than the sheet material surplus between uncoiler during charging rate and cutting machine.

Therefore, the full automatic production equipment of the electric precipitator cathode line in this utility model ensure that the uncoiling of uncoiler Process matches with the cutting process of cutting machine, therefore, it is possible to realize automatically controlling of sheet material uncoiling and cutting process, thus subtracts Artificial required for few cathode line production process, and improve production efficiency.

Alternatively, described automaton includes the charging sensing being located between described uncoiler and described cutting machine Portion, for detection panel height of sheet material between described uncoiler and described cutting machine；

Described panel height has top dead centre and lower dead center, and the panel height detected when described charging induction part is more than institute When stating top dead centre the first preset distance, control the described uncoiling speed of mainshaft and increase, when the sheet material that described charging induction part detects Time highly less than described lower dead center the second preset distance, control the described uncoiling speed of mainshaft and reduce.

Alternatively, described charging induction part includes that the first capacitive approach switch being vertically distributed and the second condenser type connect Nearly switch, the two corresponding described top dead centre of difference and described lower dead center；

Detection support is all located at by described first capacitive approach switch and described second capacitive approach switch.

Alternatively, described cutting machine includes feeding main shaft and laser cutting head, and sheet material enters described through described charging main shaft In cutting machine；

Being additionally provided with orthogonal cross slide way and longitudinal rail in described cutting machine, described automaton is further Control described laser cutting head to slide along described cross slide way and described longitudinal rail.

Alternatively, described laser cutting head connects lowering or hoisting gear, and described automaton controls described the most further Lowering or hoisting gear vertically moves, slides along described cross slide way and described longitudinal rail.

Alternatively, described lowering or hoisting gear includes motor and the leading screw vertically connected, and described laser cutting head is fixed on described Leading screw.

Alternatively, described laser cutting head is provided with the capacitance sensor for detecting sheet material position, described in automatically control dress Put the detection signal according to described capacitance sensor and control described lowering or hoisting gear action.

Alternatively, the Cutting platform of described cutting machine has the through hole passed through for finished product and waste material, described cut Blowning installation it is provided with, so that finished product and waste material are fallen by described through hole at Tou；

Being provided with the finished product platform for placing finished product below described Cutting platform, described finished product platform is by some support pins Formed, so that the gap that waste material is between adjacent described support lever falls to below described finished product platform.

Alternatively, in described cutting machine, it is additionally provided with discharge duct, is used for discharging cutting process and produces flue dust.

Alternatively, also include retainer arm, for holding up under the control of described automaton or putting down described uncoiling Main shaft.

Alternatively, the connection end of described retainer arm is articulated with Hydraulic Station, and motion end coordinates with described uncoiling main shaft；

Described motion end connects oblique arm, and described oblique arm linearly can move back and forth under the control of described Hydraulic Station, So that described retainer arm rotates around described connection end.

Alternatively, described uncoiler also has mobile base, and described uncoiling main shaft is articulated with described mobile base, described shifting Dynamic base is additionally provided with fixing bar, and described fixing bar connects the regulating wheel for pressure strip material.

Accompanying drawing explanation

Fig. 1 is the structural representation of the full automatic production equipment of the provided electric precipitator cathode line of this utility model；

Fig. 2 is the front view of Fig. 1；

Fig. 3 is the structural representation of cutting machine in Fig. 1.

In Fig. 1-3:

1 uncoiler, 11 uncoiling main shafts, 12 move base, 13 retainer arms, 131 oblique arms, 14 Hydraulic Stations, 15 fix Bar, 16 regulating wheels；

2 cutting machines, 21 laser cutting heads, 22 charging main shaft, 23 cross slide waies, 24 lowering or hoisting gears；

3 detection support, 31 first capacitive approach switches, 32 second capacitive approach switches；

4 dust cars, 5 lead flat rolling.

Detailed description of the invention

In order to make those skilled in the art be more fully understood that the technical solution of the utility model, below in conjunction with the accompanying drawings and tool The utility model is described in further detail for body embodiment.

Refer to accompanying drawing 1-3, wherein, Fig. 1 sets by the fully-automatic production of the provided electric precipitator cathode line of this utility model Standby structural representation；Fig. 2 is the front view of Fig. 1；Fig. 3 is the structural representation of cutting machine in Fig. 1.

In a kind of detailed description of the invention, this utility model provides the fully-automatic production of a kind of electric precipitator cathode line to set Standby, as depicted in figs. 1 and 2, this full automatic production equipment includes the cutting machine 2 for cutting sheet material, also includes uncoiler 1, should The uncoiling main shaft 11 of uncoiler 1 is used for rolling sheet material, and sheet material is cut into electricity in entering cutting machine 2 after uncoiler 1 uncoiling and removes The cathode line of dirt device.It addition, this full automatic production equipment farther includes automaton, this automaton is for certainly The dynamic uncoiling main shaft 11 controlling uncoiler 1, so that the sheet material between uncoiler 1 and cutting machine 2 has predetermined surplus.

Owing to sheet material enters cutting machine 2 after uncoiler 1 uncoiling, therefore, when discharging speed and the cutting machine 2 of uncoiler 1 Charging rate when matching, the sheet material between uncoiler 1 and cutting machine 2 can have predetermined surplus.And this predetermined surplus energy Enough ensure that uncoiler 1 normally works with cutting machine 2, it is to avoid when above-mentioned discharging speed is less than charging rate, due to uncoiler 1 and Sheet material surplus between cutting machine 2 is too small that sheet material is pullled, and then affects cutting machine 2 and uncoiler 1 normally works, also Avoid when above-mentioned discharging speed more than charging rate time uncoiler 1 and cutting machine 2 between sheet material surplus the biggest.

Therefore, the full automatic production equipment of the electric precipitator cathode line in the present embodiment ensure that opening of uncoiler 1 The cutting process licking journey and cutting machine 2 matches, and is capable of automatically controlling of sheet material uncoiling and cutting process, thus subtracts Artificial required for few cathode line production process, and improve production efficiency.

Specifically, as depicted in figs. 1 and 2, this automaton includes being located at sheet material between uncoiler 1 and cutting machine 2 Charging induction part at minimum point, for detection panel height of sheet material between uncoiler 1 and cutting machine 2.Due to uncoiling Sheet material between machine 1 and cutting machine 2 is in vacant state, therefore, when the discharging speed of uncoiler 1 is more than the charging of cutting machine 2 During speed, panel height height under gravity declines, when the discharging speed of uncoiler 1 is fast less than the charging of cutting machine 2 When spending, panel height rises.

Meanwhile, above-mentioned panel height has top dead centre and lower dead center, and the panel height detected when charging induction part is more than During top dead centre the first preset distance, panel height is higher, i.e. sheet material surplus is less, and the sheet material between uncoiler 1 and cutting machine 2 can Can be pullled, now, automaton controls uncoiling main shaft 11 rotary speed and increases, thus increases the discharging speed of uncoiler 1 Degree, and then increase above-mentioned sheet material surplus, prevent sheet material from being pullled.The panel height detected when charging induction part is less than lower dead center During the second preset distance, panel height is relatively low, i.e. sheet material surplus is more, and now, automaton controls uncoiling main shaft 11 Rotary speed reduces, thus reduces the discharging speed of uncoiler 1, and then reduces above-mentioned sheet material surplus.

Therefore, the sheet material tool when panel height is between top dead centre and lower dead center, between uncoiler 1 and cutting machine 2 Having above-mentioned predetermined surplus, now, this full automatic production equipment is in optimum Working.In embodiment shown in Fig. 1, above-mentioned plate Material height is the height of sheet material minimum point, and certainly, charging induction part is alternatively the height of other optional position of sheet material.

It should be noted that above-mentioned first preset distance and the second preset distance can be arranged according to practical situation, the two is also Zero can be.

Certainly, above-mentioned sheet material has predetermined surplus it is not necessary to realize, automatically by controlling the discharging speed of uncoiler 1 Control device and control the charging rate of cutting machine 2 also dependent on the signal that charging induction part detects, but, in the present embodiment Set-up mode ensure that the sheet material amount entering cutting machine 2 in production process is constant, thus ensures that cutting process is not by uncoiler 1 The impact of uncoiling process, it is ensured that cutting process is stably carried out.

Specifically, as depicted in figs. 1 and 2, above-mentioned charging induction part includes that the first capacitive proximity being vertically distributed is opened Pass 31 and the second capacitive approach switch, the two the corresponding above-mentioned top dead centre of difference and lower dead center.It addition, uncoiler 1 and cutting machine 2 Between detection support 3, and above-mentioned first capacitive approach switch 31 and the second capacitive approach switch are set at sheet material minimum point 32 are located at this detection support 3.

In the present embodiment, in order to improve accuracy of detection, the two ends of sheet material are equipped with above-mentioned detection support 3, certainly, detection The number of frame 3 has no effect on protection domain of the present utility model.

It is appreciated that above-mentioned charging induction part is it is not necessary to realize by capacitive approach switch, it is possible to use ability Other parts that territory is conventional, such as infrared inductor etc., it is not construed as limiting herein.

On the other hand, as shown in figures 1 and 3, cutting machine 2 includes feeding main shaft 22 and laser cutting head 21, and sheet material is through entering Material main shaft 22 enters in cutting machine 2, is cut into cathode line through laser cutting head 21.It is mutually perpendicular to it addition, be additionally provided with in cutting machine 2 Cross slide way 23 and longitudinal rail (not shown), laser cutting head 21 can be under the control of above-mentioned automaton Transversely guide rail 23 and longitudinal rail slide.

It is arranged such, when transversely guide rail 23 slides laser cutting head 21, it is possible to realize cathode line length direction Cutting, when laser cutting head 21 slides along longitudinal rail, it is possible to realize the cutting to cathode line width, and above-mentioned cutting Process is also by automaton control realization.

Further, as it is shown on figure 3, laser cutting head 21 connects lowering or hoisting gear 24, this lowering or hoisting gear 24 can be upper State vertical motion under the control of automaton, thus drive laser cutting head 24 vertical motion, meanwhile, this lowering or hoisting gear 24 Can also under the control of above-mentioned automaton transversely guide rail 23 slide with longitudinal rail, to realize laser cutting head 21 transversely and longitudinal sliding motion.

When the Cutting platform that sheet material enters cutting machine 2 through feeding main shaft 22, the sheet material stretching out cathode line width is cut Cutting, now, this part sheet material is in vacant state, there is the sagging and situation of deformation.In the present embodiment, by arranging lifting dress Put 24 so that laser cutting head 21 can vertically move, thus ensure in cutting process between sheet material and laser cutting head 21 Vertical constant distance, and then ensure the cathode line steady quality that cuts out.

In sum, the laser cutting head 21 in the present embodiment can transversely, longitudinal direction and vertical motion, and along all directions Motion all controlled by automaton, thus ensure that the process cutting sheet material also is able to realization and automatically controls.

Specifically, above-mentioned lowering or hoisting gear 24 includes vertical interconnective motor and leading screw, and wherein, laser cutting head 21 is solid Due to leading screw, leading screw can under the control of motor output shaft vertical motion, it addition, the duty of motor is by automatically controlling dress Put control.

Certainly, above-mentioned lowering or hoisting gear 24 is not limited in being realized with leading screw by motor, it is possible to use commonly used in the art Other is capable of the parts of straight reciprocating motion, and such as, this lowering or hoisting gear 24 can be hydraulic cylinder, by stretching of hydraulic cylinder cylinder rod Contracting realizes the lifting of laser cutting head 21.

Further, above-mentioned laser cutting head 21 is provided with the capacitance sensor for sensing sheet material position, automatically controls dress Put the output shaft controlling motor under the effect of this capacitive sensor signal, and then the vertical motion of control laser cutting head 21, Ensure the vertical constant distance between laser cutting head 21 and sheet material.

It addition, the Cutting platform of above-mentioned cutting machine 2 has the through hole passed through for finished product cathode line and waste material, cut Being provided with blowning installation at 21, this blowning installation has gases at high pressure, and after each cathode line has been cut, blowning installation is opened, Under the effect of gases at high pressure, finished product cathode line and waste material separate with sheet material, and are fallen by above-mentioned through hole.Meanwhile, cutting machine 2 Lower section be provided with the finished product platform for placing finished product cathode line, this finished product platform is formed by some support block bars, when waste material with become When product cathode line falls within this finished product platform, waste material gap between adjacent supports pin falls to giving up below this finished product platform Truck 4, finished product cathode line is pushed out to feed bin by cylinder.

Therefore, the cutting machine 2 in the present embodiment is capable of the cutting of cathode line, separates with sheet material and waste material, and on State each operation all to be realized by automaton.

Further, in this cutting machine 2, it is additionally provided with discharge duct, for discharging the flue dust produced in cutting process, thus Ensure that cutting machine 2 smoke dust pollutes, the working environment of improvement personnel, and guarantee motion and the positioning precision of laser cutting head 21, It is further ensured that the cut quality of product.

It addition, also include admission line in this cutting machine 2, a part is used for driving the component actuation such as cylinder, another part For providing auxiliary nitrogen for laser cutting process.Meanwhile, the recirculated water controlled by handpiece Water Chilling Units is also included in this cutting machine 2 Road, this circulation waterway uses temperature detection control method, and collimation lens and focusing lens in external light path cool down, To guarantee that eyeglass works in certain temperature range, it is ensured that cutting stability, and extend the service life of eyeglass.

Meanwhile, the lathe bed of this cutting machine 2 uses Welding Structure, and eliminates internal stress and process, and has higher rigidity and steady Qualitative, thus improve the precision of this cutting machine 2 further.It addition, above-mentioned cross slide way 23, longitudinal rail, lowering or hoisting gear 24 etc. Parts all use the preventer of closing, such as corrugated cover etc., to improve its precision and intensity.

In various embodiments above, as it is shown in figure 1, this full automatic production equipment also includes retainer arm 13, for above-mentioned from Hold up under the control of dynamic control device or put down uncoiling main shaft 11.

During feeding, retainer arm 13 puts down uncoiling main shaft 11, and stainless steel materials is sling by driving, along the axle of uncoiling main shaft 11 To being fixed on uncoiling main shaft 11, raise retainer arm 13 and support uncoiling main shaft 11, complete feeding process.It is arranged such so that plate The feeding process of material also is able to realization and automatically controls.

Specifically, as it is shown in figure 1, the connection end of retainer arm 13 is articulated with above-mentioned automaton, motion end and uncoiling Main shaft 11 coordinates, and is used for holding up or put down uncoiling main shaft 11.Meanwhile, motion end connects oblique arm 131, and this oblique arm 131 can be Linearly move back and forth under the control of above-mentioned automaton so that retainer arm 13 under the promotion of oblique arm 131 around even Connecing end to rotate, now, motion end vertically moves, thus realizes the picking-up of uncoiling main shaft 11 or put down.

In embodiment shown in Fig. 1, this automaton includes Hydraulic Station 14, and the connection end of retainer arm 131 is articulated with This Hydraulic Station 14, oblique arm is controlled by the hydraulic cylinder in Hydraulic Station 14, to realize straight reciprocating motion.

It should be noted that the automaton described in various embodiments above is not limited to parts, generally In the case of, the rotation of uncoiler 1 uncoiling main shaft 11 is by motor control, and the duty of motor is generally by the electric current being passed through motor Controlling, laser cutting head 21 cuts the process of sheet material generally by digital control system control, and retainer arm 13 holds up or put down uncoiling main shaft The process of 11 is controlled by Hydraulic Station 14, and therefore, above-mentioned automaton includes controlling uncoiler 1, cutting machine 2, retainer arm 13 All control parts Deng parts.

Further, this uncoiler 1 also has mobile base 12 so that the distance between uncoiler 1 and cutting machine 2 can Adjust, and above-mentioned uncoiling main shaft 11 is articulated with this and moves base 12, thus ensure that this uncoiling main shaft 11 can be freely rotatable to realize The uncoiling of sheet material.Meanwhile, this moves base 12 and is additionally provided with fixing bar 15, and this fixing bar 15 connects the tensioning for pressure strip material Wheel 16, in uncoiling main shaft 11 rotation process, this regulating wheel 16 compresses sheet material all the time, thus realizes stablizing feeding.

It addition, in the embodiment shown in Fig. 1, this full automatic production equipment also includes leading flat rolling 5, and sheet material leaves uncoiler 1 After, lead being directed in cutting machine 2 of flat rolling 5 through this.

Above the full automatic production equipment of a kind of electric precipitator cathode line provided by the utility model is carried out in detail Introduce.Principle of the present utility model and embodiment are set forth by specific case used herein, above example Illustrate to be only intended to help to understand method of the present utility model and core concept thereof.It should be pointed out that, for the art is general For logical technical staff, on the premise of without departing from this utility model principle, it is also possible to this utility model is carried out some improvement And modification, these improve and modification also falls in this utility model scope of the claims.

Claims (12)

1. a full automatic production equipment for electric precipitator cathode line, including the cutting machine (2) for cutting sheet material, its feature exists In, also including uncoiler (1), the uncoiling main shaft (11) of described uncoiler (1) is used for rolling sheet material, and sheet material is through described uncoiler (1) described cutting machine (2) is entered after uncoiling；

Farther including automaton, being used for automatically controlling the rotating speed of described uncoiling main shaft (11), so that opening described in being positioned at Sheet material between volume machine (1) and described cutting machine (2) has predetermined surplus.

Full automatic production equipment the most according to claim 1, it is characterised in that described automaton includes being located at institute State the charging induction part between uncoiler (1) and described cutting machine (2), be positioned at described uncoiler (1) for detection and cut with described The panel height of sheet material between cutting mill (2)；

Described panel height has top dead centre and lower dead center, and the panel height detected when described charging induction part is more than on described During stop the first preset distance, control described uncoiling main shaft (11) rotating speed and increase, when the sheet material that described charging induction part detects Time highly less than described lower dead center the second preset distance, control described uncoiling main shaft (11) rotating speed and reduce.

Full automatic production equipment the most according to claim 2, it is characterised in that described charging induction part includes vertically dividing First capacitive approach switch (31) of cloth and the second capacitive approach switch (32), the two the corresponding described top dead centre of difference and institute State lower dead center；

Described first capacitive approach switch (31) is all located at detection support (3) with described second capacitive approach switch (32).

Full automatic production equipment the most according to claim 1, it is characterised in that described cutting machine (2) includes feeding main shaft (22) and laser cutting head (21), sheet material enters in described cutting machine (2) through described charging main shaft (22)；

Being additionally provided with orthogonal cross slide way (23) and longitudinal rail in described cutting machine (2), described automaton enters One step controls described laser cutting head (21) and slides along described cross slide way (23) and described longitudinal rail.

Full automatic production equipment the most according to claim 4, it is characterised in that described laser cutting head (21) connects liter Falling unit (24), described automaton control the most further described lowering or hoisting gear (24) vertically move, along described laterally Guide rail (23) and described longitudinal rail slide.

Full automatic production equipment the most according to claim 5, it is characterised in that described lowering or hoisting gear (24) includes vertically connecting The motor connect and leading screw, described laser cutting head (21) is fixed on described leading screw.

Full automatic production equipment the most according to claim 5, it is characterised in that described laser cutting head (21) be provided with for The capacitance sensor of detection sheet material position, described automaton controls described according to the detection signal of described capacitance sensor Lowering or hoisting gear (24) action.

Full automatic production equipment the most according to claim 4, it is characterised in that the Cutting platform tool of described cutting machine (2) Having the through hole passed through for finished product and waste material, described laser cutting head (21) place is provided with blowning installation, so that finished product and waste material Fallen by described through hole；

Being provided with the finished product platform for placing finished product below described Cutting platform, described finished product platform is by some support block rods Become, so that the gap that waste material is between adjacent described support pin falls to below described finished product platform.

Full automatic production equipment the most according to claim 4, it is characterised in that described cutting machine is additionally provided with aerofluxus in (2) Pipeline, is used for discharging cutting process and produces flue dust.

10. according to the full automatic production equipment according to any one of claim 1-9, it is characterised in that also include retainer arm (13), for holding up or put down described uncoiling main shaft (11) under the control of described automaton.

11. full automatic production equipments according to claim 10, it is characterised in that the connection end hinge of described retainer arm (13) Being connected to Hydraulic Station (14), motion end coordinates with described uncoiling main shaft (11)；

Described motion end connects oblique arm (131), and described oblique arm (131) can under the control of described Hydraulic Station (14) linearly Move back and forth, so that described retainer arm (13) rotates around described connection end.

12. full automatic production equipments according to claim 10, it is characterised in that described uncoiler (1) also has movement Base (12), described uncoiling main shaft (11) is articulated with described mobile base (12), and described mobile base (12) is additionally provided with fixing bar (15), described fixing bar (15) connects the regulating wheel (16) for pressure strip material.