A kind of carbon bar machine
Technical field
The utility model relates to a kind of carbon bar molding device, specifically refers to a kind of carbon bar machine of full-automatic control.
Background technology
The application scenario of carbon bar is a lot, for example roasts, warms oneself etc., is a kind of carbon goods indispensable in people's daily life.The making method of conventional carbon bar is that the carbon bar raw material that mixes up is sent in the material-extruding machine, in material-extruding machine, extrude the long carbon bar that is strip afterwards, then should long carbon bar accept and be positioned on the die-cut platform, the operator manages the long carbon bar of die-cut cutter cutting by hand, moulding gets the carbon bar of required specification thus, a dead lift is sent die-cut to sieve plate more afterwards, and the sieve plate with the carbon-bearing bar manually carries out piling at last.Described whole punching molding and handling process are by manual operations, and operating speed is slow, and physical demands is big, and the carbon bar of moulding, die-cut unfairness, and CHI-pulse and CUN-pulse being irregular is uneven, carbon bar bad.In view of this, the inventor furthers investigate at the problem that exists in existing carbon bar punching molding and the carrying, and this case produces thus.
The utility model content
The purpose of this utility model is to provide a kind of carbon bar machine of automatization red-tape operati, has characteristics such as efficient height, carbon bar quality is good, consuming cost is low.
In order to reach above-mentioned purpose, solution of the present utility model is:
A kind of carbon bar machine, the material extrusion mechanism, punching molding mechanism and the carbon bar transfer mechanism that set gradually before and after comprising; Wherein:
Described punching molding mechanism, comprise first frame and the input belt, support platform, cutting head, output belt and the belt drives unit that are located on this first frame, the continue input terminus of described input belt of the output terminal of described material extrusion mechanism, the continue input terminus of described output belt of the output terminal of described input belt, described support platform is located at its place, below near outlet end part of described input belt compactly, described cutting head be located at described support platform directly over, and be connected with and drive this cutting head and make the piston-cylinder unit of displacement up and down;
Described carbon bar transfer mechanism, comprise second frame and the fold-type divider tape that is located on this second frame, horizontal belt, vertically transport phloeoterma band and belt drives unit, described fold-type divider tape and vertical fortune phloeoterma band are all along equidirectional conveying from front to back, described horizontal belt is carried perpendicular to fore-and-aft direction, the top that described fold-type divider tape is located at described horizontal belt and is vertically transported the phloeoterma band, the continue output terminal of described output belt of the input terminus of this fold-type divider tape, and folding is to the top of described vertical fortune phloeoterma band under the output terminal of this fold-type divider tape, described horizontal belt is positioned at the place ahead of described vertical fortune phloeoterma band, and this horizontal belt is equipped with the sieve plate steering unit that sieve plate is transferred to vertical fortune phloeoterma band from horizontal belt with vertical fortune phloeoterma interband.
Described sieve plate steering unit comprises vertical pipe nipple belt, eccentric strut member and drive-motor, described vertical pipe nipple belt is located at the below of the close output terminal of described horizontal belt, and the continue input terminus of described vertical fortune phloeoterma band of the output terminal of this vertical pipe nipple belt, the output of described horizontal belt has the horizontal wheel shaft that can transpose up and down, this horizontal wheel shaft is provided with the belt pulley for described horizontal belt winding, and described eccentric supports support drives below horizontal wheel shaft and by described drive-motor and makes eccentric movement up and down.
The other collection screen(ing) machine structure that the sieve plate that has the carbon bar is carried out piling that also is provided with of the output terminal of described vertical fortune phloeoterma band.
The phloeoterma of the fortune at a slow speed band that continues before and after described vertical fortune phloeoterma band comprises and quick fortune phloeoterma band.
The output of described horizontal belt is provided with for the induction sieve plate and transports the infrared induction unit that puts in place.
Described cutting head comprises erecting frame and several die-cut plates that are located on this erecting frame, and these several die-cut plate is arranged before and after along throughput direction.
Described several die-cut plates are assembled in a carrier separately disassembledly, and this carrier is arranged on the described erecting frame disassembledly.
The die-cut end of described several die-cut plates is height and is spaced setting.
Described input belt and output belt are connected on the same described belt drives unit via intermediate belt and belt pulley.
Described material extrusion mechanism comprises interconnective first material-extruding machine and second material-extruding machine, the continue input terminus of described output belt of the output terminal of this second material-extruding machine.
After adopting such scheme, a kind of carbon bar of the utility model machine, during work, at first the carbon bar raw material that mixes up is sent in the material extrusion mechanism, by material extrusion mechanism raw material is extruded into strip carbon bar, delivered to by the output terminal of material extrusion mechanism on the input belt of impact briquetting mechanism, driven by the associated belt driver element, the input belt is delivered to strip carbon bar near on the support platform of its output terminal, cylinder obtains moving behind the signal afterwards, the drive cutting head moves down, the moulding carbon bar that die-cut strip carbon bar of while is required suitable length, behind die-cut the finishing, cylinder drives on the cutting head and moves, and the input belt continues to transmit toward output belt direction, enters on the fold-type divider tape of follow-up carbon bar transfer mechanism thereby the moulding carbon bar after die-cut is transferred to the output belt, import next group of belt strip carbon bar to be punched simultaneously in this and be sent to again on the support platform, going round and beginning again thus continues punching molding and sends moulding carbon bar.
Carbon bar after the impact briquetting is sent into by the input terminus of fold-type divider tape, sieve plate is sent into by horizontal belt simultaneously, move via the sieve plate steering unit, the sieve plate of delivering to horizontal belt output terminal is transferred on vertical fortune phloeoterma band smoothly, the relative travelling speed of phloeoterma band and fold-type divider tape is vertically transported in control, make sieve plate on vertical fortune phloeoterma band from the below of the output terminal of fold-type divider tape through out-of-date, carbon bar on the fold-type divider tape is sent on the sieve plate and equidistantly arrangement of front and back on sieve plate successively, and the sieve plate that is loaded with the carbon bar at last carries out piling along with vertical fortune phloeoterma band is transported to its output.
The entire operation process of above-mentioned carbon bar machine is full-automatic control, and control action is adjustable and smooth, the punching molding action of carbon bar, carries action fast and precisely, the efficient height, and consuming cost is low, gained moulding carbon bar specification unanimity, excellent quality.
Description of drawings
Fig. 1 is the structural representation of this novel carbon bar machine;
Fig. 2 is the side-looking structural representation of this novel punching molding mechanism;
Fig. 3 is the side-looking structural representation of this novel carbon bar transfer mechanism;
Fig. 4 is the plan structure synoptic diagram of this novel carbon bar transfer mechanism.
Label declaration
1 punching molding mechanism 2 of material extrusion mechanism
Frame 21 input belts 22
Output belt 23 support platforms 24
Cutting head 25 erecting frames 251
Carrier 252 die-cut plates 253
Belt drives unit 27 piston-cylinder units 26
Intermediate belt 28 belt pulleys 29
Carbon bar transfer mechanism 3 second frames 31
Fold-type divider tape 32 horizontal wheel shafts 331
Laterally belt 33 is vertically transported phloeoterma band 34
Transport phloeoterma band 341 fortune phloeoterma band 342 fast at a slow speed
Sieve plate steering unit 35 vertical pipe nipple belts 351
Eccentric strut member 352 drive-motor 353
Collection screen(ing) machine structure 4 sieve plates 5
Carbon bar 6
Embodiment
In order further to explain the technical solution of the utility model, the utility model is elaborated below by specific embodiment.
Be depicted as a novel a kind of carbon bar machine that relates to as Fig. 1-4, the material extrusion mechanism 1, punching molding mechanism 2 and the carbon bar transfer mechanism 3 that set gradually before and after mainly comprising; Described material extrusion mechanism 1 preferably comprises interconnective first material-extruding machine and second material-extruding machine, carbon bar raw material is sent into by first material-extruding machine, after the secondary material extrusion via a material extrusion of first material-extruding machine and second material-extruding machine, strip carbon bar is by the output terminal output of second material-extruding machine, deliver to punching molding mechanism 2 and carbon bar transfer mechanism 3 afterwards successively, carry out the die-cut and moulding carbon bar output of carbon bar respectively.Below the structure of punching molding mechanism 2 and carbon bar transfer mechanism 3 is elaborated.
Described punching molding mechanism 2 includes frame 21 and is located at input belt 22, output belt 23, support platform 24, cutting head 25 and belt drives unit 27 on this frame 21.The continue input terminus of input belt 22 of the output terminal of described material extrusion mechanism 1, the output terminal of input belt 22 continues and exports the input terminus of belt 23, belt drives unit 27 is specially a drive-motor, it is connected to input belt 22 and output belt 23 via intermediate belt 28 and belt pulley 29, namely import belt 22 and output belt 23 shared belt drives unit 27, to drive this input belt 22 and to export belt 23 and do the synchronous driving effect.Support platform 24 is located at input belt 22 its places, below near outlet end part compactly, the upper surface of support platform 24 is close to the lower surface setting of input belt 22, cutting head 25 be located at support platform 24 directly over, this cutting head 25 is connected with piston-cylinder unit 26, drives to drive cutting head 25 by this piston-cylinder unit 26 and is shifted up and down.
Described cutting head 25 is used for the die-cut carbon bar to be punched that is delivered on the support platform 24, embodiment as cutting head 25, it comprises erecting frame 251 and several die-cut plates 253, die-cut plate 253 directly is fixedly mounted on the erecting frame 251, and described several die-cut plates 253 are arranged before and after along throughput direction.Another preferred embodiment, described several die-cut plates 253 are assembled in a carrier 252 separately disassembledly, this carrier 252 is arranged on the erecting frame 251 more disassembledly, thus when certain a few die-cut plate 253 service failure, only needing to change the die-cut plate 253 that damages gets final product, and need not discarded whole cutting head 25, improve mechanism part work-ing life and utilization ratio.Have again, the mounting height of die-cut plate 253 on carrier 252 also is adjustable, be beneficial to and on the carbon bar, suitably punch out pre-die-cut line so that use, for example provide among Fig. 1, the die-cut end of the die-cut plate 253 of several arrangements is height and is spaced setting, wherein the die-cut plate 253 of lower position is used for cutting off the carbon bar, and the not die-cut fully disconnected whole carbon bar of the die-cut plate 253 of higher position, thereby punch out pre-die-cut line at the carbon bar, the degree of depth of pre-die-cut line is decided according to the difference of altitude of the die-cut plate of height, it is simple and easy adjustable, and the number of the die-cut plate of lower position between two blocks of die-cut plates of every adjacent higher position has determined the bar number of the pre-die-cut line on every moulding carbon bar.In addition, carrier 252 relative erecting frames 251 are adjustable, when the carbon bar of the die-cut different size of needs, need not the whole cutting head 25 of standby many covers, only need the corresponding installation site of carrier 252 on erecting frame 251 of adjusting to get final product.
Described carbon bar transfer mechanism 3, comprise second frame 31 and be located at fold-type divider tape 32 on this second frame 31, laterally belt 33, vertically transport phloeoterma band 34 and belt drives unit (not shown).Fold-type divider tape 32 and vertically fortune phloeoterma band 34 is all along equidirectional (namely among the figure direction) from right to left conveying from front to back, horizontal belt 33 is carried perpendicular to fore-and-aft direction.The top that fold-type divider tape 32 is located at horizontal belt 33 and is vertically transported phloeoterma band 34, the input terminus of this fold-type divider tape 32 continues and exports the output terminal of belt 23, and folding is to the top of vertically transporting phloeoterma band 34 under the output terminal of this fold-type divider tape 32, laterally belt 33 is positioned at the place ahead of vertical fortune phloeoterma band 34, and this horizontal belt 33 and vertically transport 34 on phloeoterma band sieve plate steering unit 35 is installed, the effect of this sieve plate steering unit 35 is that sieve plate 5 is transferred on vertical fortune phloeoterma band 34 from horizontal belt 33, thereby can make sieve plate 5 change 90 and spend into vertically and transport by laterally transporting.
One preferred embodiment of described sieve plate steering unit 35 as shown in Figure 3, comprise vertical pipe nipple belt 351, eccentric strut member 352 and drive-motor 353, vertically pipe nipple belt 351 is located at the below of the close output terminal of horizontal belt 33, and the output terminal of this vertical pipe nipple belt 351 continues and vertically transports the input terminus of phloeoterma band 34, laterally the output of belt 33 has movable horizontal wheel shaft 331, the two ends of this horizontal wheel shaft 351 are provided with the belt pulley for horizontal belt 33 windings, the lower end of eccentric strut member 351 is assembled on the output shaft of drive-motor 353, horizontal wheel shaft 331 is supported in the upper end, driven by drive-motor 353 in this, rotate the lower end that drives eccentric strut member 352, thereby it is up and down to drive eccentric strut member 351, and then the output terminal that drives horizontal belt 33 via horizontal wheel shaft 331 is up and down.
During 35 work of sieve plate steering unit, eccentric strut member 352 is positioned at upper, laterally the output terminal of belt 33 is higher than vertical pipe nipple belt 351, sieve plate 5 is sent into by the input terminus of horizontal belt 33, when delivering to the top of the corresponding vertically pipe nipple belt 351 of output terminal, drive-motor 353 obtains signal and action, it is movable downwards to drive eccentric strut member 352, make the output terminal of horizontal belt 33 not be higher than vertical pipe nipple belt 351, sieve plate 5 on the horizontal belt 33 is transferred on vertical pipe nipple belt 351, vertically pipe nipple belt 351 runnings are sent into sieve plate 5 on vertical fortune phloeoterma band 34 afterwards.The output of described horizontal belt 33 can be provided with the infrared induction unit, and it transports for induction sieve plate 5 and puts in place, by relevant controlling organization control, makes drive-motor 353 action accurately again in time.
Further, the other collection screen(ing) machine structure 4 that also is provided with of the output terminal of described vertical fortune phloeoterma band 34, this collection screen(ing) machine structure 4 is used for the sieve plate 5 that has carbon bar 6 is carried out the piling operation, do not influence the orderly conveying that phloeoterma band 34 is vertically transported in the front side when making sieve plate 5 pilings, the phloeoterma of the fortune at a slow speed band 341 that continues before and after described vertical fortune phloeoterma band 34 preferably comprises and quick fortune phloeoterma band 342, the travelling speed of transporting phloeoterma band 341 at a slow speed is slower than the travelling speed of quick fortune phloeoterma band 342.
During the work of carbon bar machine, at first the carbon bar raw material that mixes up is sent in the material extrusion mechanism 1, by material extrusion mechanism 1 raw material is extruded into strip carbon bar, delivered on the input belt 22 by the output terminal of material extrusion mechanism 1, driving Unit 27 by associated belt drives, input belt 22 is delivered to strip carbon bar near on the support platform 24 of its output terminal, cylinder 26 obtains moving behind the signal afterwards, driving cutting head 25 moves down, the moulding carbon bar that die-cut strip carbon bar of while is required suitable length, and two pre-die-cut lines have been punched out at every moulding carbon bar, behind die-cut the finishing, cylinder 26 drives on the cutting head 25 and moves, input belt 22 continues to transmit toward output belt 23 directions, thereby the moulding carbon bar after die-cut is transferred to output belt 23 enters follow-up fold-type divider tape 32, import belt 22 next group strip carbon bar to be punched simultaneously in this and be sent to again on the support platform 24, going round and beginning again thus continues punching molding and sends moulding carbon bar.
Carbon bar after the impact briquetting is sent into by the input terminus of the fold-type divider tape 32 of carbon bar transfer mechanism 3, sieve plate 5 is sent into by horizontal belt 33 simultaneously, via 35 actions of sieve plate steering unit, the sieve plate 5 of delivering to horizontal belt 33 output terminals is transferred on vertical fortune phloeoterma band 34 smoothly, the relative travelling speed of phloeoterma band 34 and fold-type divider tape 31 is vertically transported in control, make sieve plate 5 on vertical fortune phloeoterma band 34 from the below of the output terminal of fold-type divider tape 32 through out-of-date, carbon bar 6 on the fold-type divider tape 32 is sent on the sieve plate 5 and equidistantly arrangement of front and back on sieve plate 5 successively, the spacing size can be decided by the relative travelling speed of regulating control vertical fortune phloeoterma band 34 and fold-type divider tape 31, and the sieve plate 5 that is loaded with carbon bar 6 at last is transported to output by vertical fortune phloeoterma band 34 and carries out piling.
The entire operation process of above-mentioned carbon bar machine is full-automatic control, and control action is adjustable and smooth, the punching molding action of carbon bar, carries action fast and precisely, the efficient height, and consuming cost is low, gained moulding carbon bar specification unanimity, excellent quality.
Above-described embodiment and graphic and non-limiting product form of the present utility model and style, any person of an ordinary skill in the technical field all should be considered as not breaking away from patent category of the present utility model to its suitable variation or modification of doing.