CN204171094U - A kind of tin silk full-automatic molding cutter - Google Patents

Abstract

The utility model discloses a kind of tin silk full-automatic molding cutter, for becoming to meet the flat tin bar of the length-specific of welding requirements by the tin silk extrusion process of continuous print package cylindrical shape, comprise extruded for the cylindric tin silk shaping mechanism for flat tin bar, drive described shaping mechanism by driving mechanism extruded for tin silk, by the feeding mechanism of cylindric for package tin silk feeding shaping mechanism, the tin bar after extruded is cut into the shut-off mechanism of length-specific and is used for installing the frame of each composition mechanism; The utility model can complete the actions such as the feeding of tin silk, shaping, cut-out automatically, simple for structure, take up room little, the tin bar thickness utilizing tin silk full-automatic molding cutter to prepare is identical, length is in the same size, it is all the finished product that can directly use, make welding quality and bonding speed all have greatly improved and improve, and the appearance uniform of solder joint is consistent, greatly reduces the fraction defective of welding.

Description

A kind of tin silk full-automatic molding cutter

Technical field

The utility model relates to a kind of equipment for the preprocessing of tin silk, is specifically related to a kind of Xi Si automatic moulding mechanism for becoming to be convenient to carry out the form of welding by the preprocessing of tin silk.

Background technology

Existing vehicle glass is generally cool with simple glass high temperature to be prepared from again.The windshield of automobile is usually in order to U.S.'s decorations glass, and be surrounded by black surround at its periphery, and because of defrosting demand on rear seat windscreen, glass be usually printed on heater strip, heater has the ability eliminating glass outer surface thermal treatment zone frost.Because safety glass can not be reprocessed, so in the preparation process of keeping out the wind safety glass, first simple glass to be wrapped black surround and after printed heater strip (end is provided with bus rod), then carry out heating and do tempering process.

The tempering windshield obtained after simple glass is carried out tempering process needs welding electric mortiser sheet heater strip and power supply to be coupled together, and the heating for heater strip provides energy supply.In the welding process of carrying out electric mortiser sheet, need to use tin silk is welded on glass by electric mortiser sheet, the supply of material state of tin silk is generally the cylindric tin silk of volume one volume, continuous print tin silk uses very inconvenience in welding process, weld for convenience, method conventional at present manually uses scissors that tin silk is cut off into the tin bar of about 1cm length, but a volume tin silk all to be processed into the time that sectional tin bar needs 2 ~ 3 hours, to waste time and energy and the tin bar obtained is different in size, the demand of production can not be met, also easily because the length of tin bar does not meet the requirements and affects the welding quality of electric mortiser sheet, cause the waste of human and material resources.

Utility model content

The purpose of this utility model is to propose a kind of tin silk full-automatic molding cutter that the tin silk extrusion process of continuous print package cylindrical shape can be become meet the flat tin bar of the length-specific of welding requirements for above-mentioned technical problem.

The utility model solves the problems of the technologies described above adopted technical scheme: a kind of tin silk full-automatic molding cutter, for becoming to meet the flat tin bar of the length-specific of welding requirements by the tin silk extrusion process of continuous print package cylindrical shape, comprise extruded for the cylindric tin silk shaping mechanism for flat tin bar, drive the driving mechanism of the extruded action of described shaping mechanism, cylindric for package tin silk is sent into the feeding mechanism of shaping mechanism, tin bar after extruded is cut into the shut-off mechanism of length-specific, for controlling the controlling organization of above-mentioned each composition mechanism coordinative operation and the frame for installing each composition mechanism,

Under the control of described controlling organization, continuous print tin silk is sent into described shaping mechanism by described feeding mechanism;

Described driving mechanism drives described shaping mechanism to move to the second place by primary importance, by extruded for tin silk be flat, wherein, described driving mechanism and shaping mechanism relative position closest to time be primary importance, described driving mechanism and shaping mechanism relative position farthest time be the second place;

Described driving mechanism is also for driving described shut-off mechanism to be cut off by extruded tin silk simultaneously, namely described shut-off mechanism is synchronous with described shaping mechanism under the effect of described driving mechanism moves to the second place by primary importance, and the extruded tin silk for flat is cut into the tin bar of length-specific;

Described driving mechanism comprise motor, driving wheel and be set in described driving wheel with and the eccentric driving wheel connected of described motor output shaft, described driving wheel drives described driving wheel to move back and forth around described active crop rotation bias as eccentric motion under the effect of motor, drives described shaping mechanism and shut-off mechanism by extruded for tin silk and cut into the flat tin bar of length-specific;

Described shaping mechanism comprise neighbour be located at described driving mechanism one side guide rail, be slidably arranged in described guide rail and the sliding shoe be hinged with described driving wheel and the fixed block be oppositely arranged with described sliding shoe, described sliding shoe moves to the second place by primary importance, after the cylindric tin silk be placed between described sliding shoe and fixed block is squeezed into the tin silk of flat, described sliding shoe to be playbacked to primary importance by the second place again, week and reciprocally by extruded for cylindric tin silk be the tin silk of flat, complete forming action;

Described feeding mechanism comprises gauge tap and two and to be oppositely arranged between described sliding shoe and fixed block and counter-rotational first pinch roller and the second pinch roller, described sliding shoe is provided with the breach avoiding described first pinch roller, described second pinch roller is installed on described fixed block, described first pinch roller and the second pinch roller pressure holding are lived tin silk and are mutually rotated backward, and are constantly sent into by tin silk in described shaping mechanism; Described gauge tap is arranged on described driving wheel side, described gauge tap is touched in described driving wheel rotation process, described first pinch roller and the second pinch roller start to rotate feeding, until described driving wheel leaves no longer touch described gauge tap, described first pinch roller and the second pinch roller stop operating feeding, and the cylindric tin silk newly sent into is shaped to flat tin silk by described shaping mechanism.

Described shut-off mechanism comprises the cutoff tool be installed on described sliding shoe, with described sliding shoe synchronization action, the tin silk being shaped to flat is cut to the tin bar of length-specific.

In the utility model, between described driving mechanism and shaping mechanism, being provided with the guiding mechanism for adjusting tin bar molding thickness, comprising and being connected to adjustment screw rod between described driving wheel and sliding shoe and locking nut; The stroke adjusting described sliding shoe by described adjustment screw rod adjusts the spacing when the second place between described sliding shoe and fixed block, and then adjusts the thickness of shaping rear tin bar.

In the utility model, be there is the sudden change of a profile by described sliding shoe in cylindric tin silk in extruded for the cylindric tin silk process for flat tin silk, likely there will be cylindric tin silk in described sliding shoe edge to break and even rupture, tin bar defect or operation is caused to interrupt, for this reason, described sliding shoe is arranged an arc transition district, ensure the integrality of tin bar and the continuity of operation.

In the utility model, due to tin silk supply state time be reeling condition, tin silk still keeps certain case of bending after pull-out enters described shaping mechanism from tin silk volume, shaping and fixed length are all had a certain impact, for by the alignment of tin silk, tin silk full-automatic molding cutter is provided with tin filament straightener, and tin silk is introduced into the alignment of tin filament straightener after pull-out and carries later and carry out following process preparation from tin silk volume.

In the utility model, slidingly contacting for face contact between the driving wheel of described driving mechanism and driving wheel, load coefficient of friction is large, in operation, caloric value is large, particularly in high speed or when operating for a long time, be more prone to break down, the phenomenon that clamping stagnation is even stuck occurs, and the relative position instability between described driving wheel and driving wheel, be easily shifted; Between described driving wheel and driving wheel, set up a bearing, be used for reducing the coefficient of friction between described driving wheel and driving wheel in power transmission process and keep the relative position of described driving wheel and driving wheel stable.

Tin silk full-automatic molding cutter described in the utility model can complete the actions such as the feeding of tin silk, shaping, cut-out automatically, simple for structure, take up room little, significant in the factory building of limited space, the tin bar thickness utilizing tin silk full-automatic molding cutter to prepare is identical, length is in the same size, it is all the finished product that can directly use, welding quality and bonding speed is made all to have greatly improved and improve, and the appearance uniform of solder joint is consistent, greatly reduces the fraction defective of welding.

Accompanying drawing explanation

Fig. 1 is the complete machine structure schematic diagram that in the utility model one embodiment, shaping mechanism is positioned at primary importance;

Fig. 2 is the complete machine structure schematic diagram one of shaping mechanism in the utility model one embodiment;

Fig. 3 is the complete machine structure schematic diagram that in another embodiment of the utility model, shaping mechanism is positioned at primary importance;

Fig. 4 is the complete machine structure schematic diagram two of shaping mechanism in another embodiment of the utility model;

Fig. 5 is the structural representation of the sliding shoe in the utility model one embodiment.

Detailed description of the invention

In order to be illustrated more clearly in the technical solution of the utility model, below in conjunction with drawings and Examples, the technical solution of the utility model is further elaborated, apparently, the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other embodiment can also be obtained according to these embodiments.

With reference to Fig. 1, Fig. 2, a kind of tin silk full-automatic molding cutter, for the tin silk extrusion process of continuous print package cylindrical shape is become to meet the flat tin bar of the length-specific of welding requirements, comprise extruded for the cylindric tin silk shaping mechanism for flat tin bar, drive shaping mechanism by driving mechanism extruded for tin silk, cylindric for package tin silk sent into the feeding mechanism of shaping mechanism and the tin bar after extruded cut into the shut-off mechanism of length-specific; Driving mechanism, shaping mechanism and feeding mechanism adjoin each other layout, and the action that cooperatively interacts under the control of controlling organization of driving mechanism, shaping mechanism, feeding mechanism and shut-off mechanism completes the shaping shearing work of tin silk, and controlling organization generally adopts PLC.

The shaping shearing work flow process of tin silk is as follows, and package tin silk 70 is installed in the side of feeding mechanism, and under the control of controlling organization, continuous print tin silk is sent into shaping mechanism by feeding mechanism;

With reference to Fig. 1, Fig. 2, driving mechanism drives shaping mechanism to move to the second place by primary importance, by extruded for the tin silk sent into by feeding mechanism be flat, and reciprocating action back and forth between the first position and the second position, completes the continuously shaped operation of tin silk;

Shut-off mechanism and shaping mechanism synchronization action, shut-off mechanism moves to the second place by primary importance the effect of driving mechanism is synchronous with shaping mechanism, and the extruded tin silk for flat is cut into the tin bar of length-specific;

Wherein, with reference to Fig. 2 and Fig. 4, driving mechanism and shaping mechanism relative position closest to time be primary importance, driving mechanism and shaping mechanism relative position farthest time be the second place, namely when primary importance, farthest, when the second place, sliding shoe 102 is with the nearest of fixed block 103 and the thickness of now spacing after to be tin silk extruded for the distance of sliding shoe 102 and fixed block 103.

Concrete, with reference to Fig. 1, Fig. 2, driving mechanism comprises motor, driving wheel 202, be connected to the drive rod 205 on driving wheel 202 and be set in driving wheel 202 and the driving wheel 201 connected with motor output shaft 204 bias, driving wheel 202 offers the through hole concentric with driving wheel 201, driving wheel 201 is installed in through hole, drive rod 205 one end is fixedly connected on driving wheel 202, on the sliding shoe 102 that drive rod 205 other end is articulated and connected on shaping mechanism, the output shaft bias of motor is connected on driving wheel 201, form an eccentric moving mechanism, because the fixed position of motor output shaft 204 in frame 60 is constant, thus the rotary motion of motor output shaft 204 and driving wheel 201 is converted to the conversion of the locus of driving wheel 202, driving wheel 201 is made eccentric motion and is driven driving wheel 202 to do eccentric movement around driving wheel 201 under the effect of motor, namely driving wheel 202 is reciprocating under driving wheel 201 with the mating reaction of motor, and then drive shaping mechanism and shut-off mechanism by extruded for tin silk and cut into the flat tin bar of length-specific.

Shaping mechanism comprises the guide rail 101 that neighbour is located at driving mechanism one side, to be slidably arranged in guide rail 101 and the sliding shoe 102 be hinged with drive rod 205 and the fixed block 103 be oppositely arranged with sliding shoe 102, guide rail 101 and fixed block 103 keep at a certain distance away and use the securing member such as bolt to be locked respectively in frame 60, guide rail 101 provides support and leads to the motion of sliding shoe 102, driving wheel 202 drives sliding shoe 102 to move back and forth along guide rail 101 by drive rod 205, sliding shoe 102 has two extreme positions in guide rail 101, sliding shoe 102 and fixed block 103 lie farthest away during primary importance, during the second place sliding shoe 102 and fixed block 103 interval minimum, spacing now between sliding shoe 102 and fixed block 103 is the thickness of shaping rear tin bar, during operation, sliding shoe 102 moves to the second place by primary importance, after the cylindric tin silk be placed between sliding shoe 102 and fixed block 103 is squeezed into the tin silk of flat, to be playbacked to primary importance by the second place again, week and reciprocally by extruded for cylindric tin silk be the tin silk of flat, complete forming action, the length that cylindric tin silk is shaped to flat tin silk by shaping mechanism is each time the length of finished product tin bar.

Feeding mechanism comprises gauge tap and two the first pinch roller 301 and the second pinch rollers 302 be oppositely arranged between sliding shoe 102 and fixed block 103, first pinch roller 301 is connected with the output shaft of the servomotor that is arranged in frame 60 respectively with the output shaft of the second pinch roller 302 and the tangential direction of the rotation direction of the first pinch roller 301 and the second pinch roller 302 is identical, and this servomotor is electrically connected with controlling organization; Sliding shoe 102 is provided with the breach 104 avoiding the first pinch roller 301, the degree of depth of this breach 104 and the stroke of sliding shoe 102 adapt, second pinch roller 302 can be arranged on fixed block 103 around Pivot Point Center rotatably, first pinch roller 301 is lived tin silk with the second pinch roller 302 pressure holding and is rotated along identical tangential direction, is constantly sent in shaping mechanism by tin silk; Gauge tap 303 is arranged on driving wheel 202 side, gauge tap 303 is touched in driving wheel 202 rotation process, first pinch roller 301 and the second pinch roller 302 start to rotate feeding, until driving wheel 202 leaves no longer touch gauge tap 303, preferably, microswitch selected by this gauge tap 303, ensures the sensitivity controlled; First pinch roller 301 and the second pinch roller 302 stop operating feeding, and the cylindric tin silk newly sent into is shaped to flat tin silk by shaping mechanism; The length that the tin silk of shaping mechanism sent into each time by feed mechanism is the length of finished product tin bar, preferably, in order to increase the press force of the first pinch roller 301 and the second pinch roller 302 pairs of tin silks, first pinch roller 301 and the surperficial roll printing of the second pinch roller 302 have friction line, make the charging of feeding mechanism more continuously smooth.

With reference to Fig. 5, shut-off mechanism comprises the cutoff tool 40 be installed on sliding shoe 102, this cutoff tool 40 be fixed on sliding shoe 102 downside and when sliding shoe 102 is positioned at primary importance this cutoff tool 40 be just resisted against the downside of fixed block 103, cutoff tool 40 and sliding shoe 102 synchronization action, the tin silk being shaped to flat is cut to the tin bar of length-specific while cylindric tin silk is shaped to flat tin silk, completes the preparation process of tin bar.

In a specific embodiment, with reference to Fig. 3, Fig. 4, the specification of the heating wire that the safety glass of often kind of specification arranges can be distinguished to some extent, the safety glass of different size is also different to the isoparametric requirement of welding temperature in addition, therefore different to the thickness requirement of tin bar, can realize adjusting tin bar molding thickness by the relative position between adjustment driving wheel 202 and sliding shoe 102, in order to make tin silk full-automatic molding cutter can the thickness of tin bar made by the adjustment of concrete welding object, between driving mechanism and shaping mechanism, arrange the guiding mechanism for adjusting tin bar molding thickness, this guiding mechanism comprises and is connected to adjustment screw rod 501 between driving wheel 202 and sliding shoe 102 and locking nut 502, adjustment screw rod 501 one end is connected in axial threaded hole that driving wheel 202 is offered, and the other end of adjustment screw rod 501 is connected with the axial threaded hole that connecting rod 206 one end is offered, and the other end of this connecting rod 206 is articulated and connected on sliding shoe 102, when needs adjustment tin bar molding thickness time, locking nut 502 is used to lock after on request the protruded length (distance namely between driving mechanism and shaping mechanism) of adjustment screw rod 501 being adjusted to the length of setting, spacing when the second place between sliding shoe 102 and fixed block 103 is adjusted by adjusting the stroke of sliding shoe 102, and then adjust the thickness of shaping rear tin bar, to obtain the tin bar meeted the requirements, preferably, frame 60 is provided with the touch display screen 80 running ginseng and display tin silk full-automatic molding cutter operation conditions for arranging tin silk full-automatic molding cutter, fast setting can be carried out to the various operational factors of tin silk full-automatic molding cutter easily by this touch display screen 80 and show the operational factor of tin silk full-automatic molding cutter in real time.

In one embodiment, referring to figs. 1 through Fig. 4, tin silk full-automatic molding cutter is to continuous continual process during package tin silk 70 extruded, the cylindrical section shape tin silk that feed mechanism conveying is come in by shaping mechanism is extruded for after flat tin silk, while flat tin silk after shaping is drawn out to cutoff tool 40 position by feeding mechanism, cylindric for new one end tin silk is transported to (i.e. sliding shoe 102 and the position of fixed block 103 on the upside of feeding mechanism) on the shaping position of shaping mechanism, the extruded process of cylindric tin silk is completed while the flat tin silk after shaping is cut into tin bar, and repetitive operation, in this process, be there is the sudden change of a profile by sliding shoe 102 in cylindric tin silk in extruded for the cylindric tin silk process for flat tin silk, because tin silk toughness is poor, likely there will be cylindric tin silk in sliding shoe 102 edge to break and even rupture, tin bar defect or operation is caused to interrupt, and Xi Sinei is enclosed with rosin, Ruo Xisi occurs breaking and rosin can be made to leak in process that is extruded or that weld, welding effect can be had a strong impact on, for this reason, break in order to avoid cylindric tin silk because of size sudden change or rupture, cylindric tin silk forms a dimensional transitions region, sliding shoe 102 is arranged an arc transition district 105, ensure the integrality of tin bar and the continuity of operation.

In one embodiment, with reference to Fig. 3, Fig. 4, because the supply of material state of tin silk is reeling condition, package tin silk 70 still keeps certain case of bending after pull-out enters shaping mechanism from tin silk volume, shaping and fixed length are all had a certain impact, the optimum state that tin silk enters shaping mechanism is straight line, this just carries out the operation of auxiliary alignment together before tin silk is sent to shaping mechanism, be in line the bending complete alignment of tin silk state, for by the alignment of tin silk, tin silk full-automatic molding cutter is provided with tin filament straightener, this tin filament straightener is arranged between package tin silk 70 and feeding mechanism, tin filament straightener comprises V-type import 901 and an aligning pipe 902, the tin silk that the case of bending of pull-out from tin silk volume is convenient in V-type import 901 enters in tin filament straightener, from tin silk volume, the case of bending tin silk of pull-out enters in aligning pipe 902 again after V-type import 901 enters tin filament straightener, linear state is corrected under the guide effect of aligning pipe 902, so that follow-up processing preparation section carries out smoothly, obtain the finished product tin bar meeted the requirements.

In one embodiment, referring to figs. 1 through Fig. 4, slidingly contacting for face contact between the driving wheel 202 of driving mechanism and driving wheel 201, load coefficient of friction is large, particularly in high speed or when operating for a long time, be more prone to break down, the phenomenon that clamping stagnation is even stuck occurs, and the relative position instability between driving wheel 202 and driving wheel 201, be easily shifted; A bearing 203 is set up between driving wheel 202 and driving wheel 201, sliding friction between driving wheel 202 and driving wheel 201 is converted into sliding friction, greatly reduce the coefficient of friction in power transmission process between driving wheel 202 and driving wheel 201, also ensure that the relative position of driving wheel 202 and driving wheel 201 is stablized simultaneously.

The tin silk shearing manipulation process of above-mentioned tin silk full-automatic molding cutter at least comprises the following steps:

S1: tin silk pulls out and passes tin filament straightener from package tin silk 70;

S2: the cylindric tin silk after the alignment of tin filament straightener through a segment distance the first pinch roller 301 and the second pinch roller 302 and pressure holding live;

S3: driving mechanism drive sliding shoe 102 slide into the second place from primary importance, by extruded for cylindric tin silk be flat tin silk;

S4: driving mechanism drives sliding shoe 102 to playback primary importance from the second place;

S5: driving mechanism is touch control switch drive sliding shoe 102 playbacks primary importance process from the second place, first pinch roller 301 of feeding mechanism and the second pinch roller 302 rotate backward mutually, extruded flat tin silk is transported to the position of cutoff tool 40, cylindric tin silk is sent to the extruded position between sliding shoe 102 and fixed block 103 simultaneously;

S6: driving mechanism drives sliding shoe 102 to slide into the second place from primary importance, by extruded for cylindric tin silk be flat tin silk while cut off acquisition finished product tin bar by through extruded flat tin silk, complete the preparation of tin bar;

Wherein, with reference to Fig. 2 and Fig. 4, driving mechanism and shaping mechanism relative position closest to time be primary importance, driving mechanism and shaping mechanism relative position farthest time be the second place, namely when primary importance, farthest, when the second place, sliding shoe 102 is with the nearest of fixed block 103 and the thickness of now spacing after to be tin silk extruded for the distance of sliding shoe 102 and fixed block 103.

Tin silk full-automatic molding cutter described in the utility model can complete the actions such as the feeding of tin silk, shaping, cut-out automatically, simple for structure, take up room little, significant in the factory building of limited space, the tin bar thickness utilizing tin silk full-automatic molding cutter to prepare is identical, length is in the same size, it is all the finished product that can directly use, welding quality and bonding speed is made all to have greatly improved and improve, and the appearance uniform of solder joint is consistent, greatly reduces the fraction defective of welding.

The above is only preferred embodiment of the present utility model; it should be pointed out that for those skilled in the art, under the prerequisite not departing from the utility model principle; can also make some improvements and modifications, these improvements and modifications also should be considered as protection domain of the present utility model.

Claims (9)

1. a tin silk full-automatic molding cutter, for becoming to meet the flat tin bar of the length-specific of welding requirements by the tin silk extrusion process of continuous print package cylindrical shape, it is characterized in that: comprise for by extruded for the cylindric tin silk shaping mechanism for flat tin silk, be arranged on described shaping mechanism side and the driving mechanism for driving described shaping mechanism be connected with described shaping mechanism, be arranged on the feeding mechanism for cylindric for package tin silk being sent into shaping mechanism in described shaping mechanism, be arranged on the shut-off mechanism for the tin bar after extruded being cut into length-specific in described shaping mechanism, for controlling described shaping mechanism, driving mechanism, the controlling organization of feeding mechanism and shut-off mechanism coordinative operation and for installing described shaping mechanism, driving mechanism, the frame (60) of feeding mechanism and shut-off mechanism,

Under the control of described controlling organization, described driving mechanism drives described shaping mechanism by extruded for described tin silk for flat;

Described driving mechanism is also for driving described shut-off mechanism to be cut off by extruded tin silk simultaneously.

2. a kind of tin silk full-automatic molding cutter as claimed in claim 1, it is characterized in that: described driving mechanism comprise motor, driving wheel (202), drive rod (205) and be set in described driving wheel (202) with and the driving wheel (201) that connects of described motor output shaft (204) bias, described drive rod (205) one end is fixedly connected on described driving wheel (202), and described drive rod (205) other end is articulated and connected on described shaping mechanism.

3. a kind of tin silk full-automatic molding cutter as claimed in claim 2, is characterized in that: described shaping mechanism comprise neighbour be located at described driving mechanism one side guide rail (101), be slidably arranged in described guide rail (101) and the sliding shoe (102) be hinged with described drive rod (205) and the fixed block (103) be oppositely arranged with described sliding shoe (102).

4. a kind of tin silk full-automatic molding cutter as claimed in claim 3, it is characterized in that: described feeding mechanism comprises the gauge tap that is arranged on described driving wheel (202) side and two and to be oppositely arranged between described sliding shoe (102) and fixed block (103) and first pinch roller (301) that can rotate around its center and the second pinch roller (302), and described first pinch roller (301) is identical with the tangential direction of the rotation direction of the second pinch roller (302); Described sliding shoe (102) is provided with the breach (104) of accommodating described first pinch roller (301), described second pinch roller (302) is arranged on described fixed block (103).

5. a kind of tin silk full-automatic molding cutter as claimed in claim 3, it is characterized in that: described shut-off mechanism comprises the cutoff tool (40) be installed on described sliding shoe (102), described cutoff tool (40) and described sliding shoe (102) synchronization action.

6. a kind of tin silk full-automatic molding cutter as claimed in claim 3, it is characterized in that: also comprise the guiding mechanism for adjusting tin bar molding thickness, described guiding mechanism comprises adjustment screw rod (501) and locking nut (502), one end of described adjustment screw rod (501) is movably connected in the axial hole that driving wheel (202) is offered, the other end of described adjustment screw rod (501) is movably connected on sliding shoe (102), and described locking nut (502) is sleeved on described adjustment screw rod (501).

7. a kind of tin silk full-automatic molding cutter as claimed in claim 3, is characterized in that: described sliding shoe (102) arranges arc transition district (105) towards described fixed block (103) side.

8. a kind of tin silk full-automatic molding cutter as claimed in claim 1, is characterized in that: described feeding mechanism is provided with tin filament straightener along feedstock direction.

9. a kind of tin silk full-automatic molding cutter as claimed in claim 2, is characterized in that: between described driving wheel (202) and driving wheel (201), be connected with a bearing (203).