CN206200023U - Mo(u)ld bottom half double lead-screw feeding structure on full-automatic computer knives bending machine - Google Patents

Abstract

The utility model discloses mo(u)ld bottom half double lead-screw feeding structure on a kind of full-automatic computer knives bending machine, including：Strip support rolls axle for supporting band from bottom, for the guiding guardrail for guiding band to travel forward, including upper gripper jaw, top shoe and upper leading screw upper clamping device, and the lower clamping device including lower clamping jaw, sliding block and lower leading screw.It uses the leading screw of upper and lower parallel arrangement to drive sliding block to drive clamping jaw to move, so as to shorten the shift motion of die-cutting rule clamping, improves machining accuracy；Using can the guiding guardrail guiding band of adjusting position up and down travel forward so that be oriented to guardrail and can tune to the both sides of band medium position, band can be avoided from being oriented in guardrail, may also adapt to the feeding of the band of arbitrary height.

Description

Mo(u)ld bottom half double lead-screw feeding structure on full-automatic computer knives bending machine

Technical field

The utility model is related to full-automatic computer knives bending machine technical field, on a kind of specifically disclosed full-automatic computer knives bending machine Mo(u)ld bottom half double lead-screw feeding structure.

Background technology

Electronics, printing packaging industry are developed rapidly now, as its supporting industry --- die cutting plate (cutting die) processing industry Very big development is obtained.And knives bending machine is used as one of two big nucleus equipments in cutting die production, the efficiency and essence processed to cutting die Degree plays very important effect.The full-automatic computer knives bending machine for growing up for nearest 2 years is more omitted many troubles, only Parameter is set, computer manipulation is more convenient, simple.

Full-automatic computer knives bending machine typically can disposably complete feeding, bending, shearing, bridge location, olecranon, the work(such as fluting Can, generally comprise the parts such as feed system, bridge location, olecranon, truncation system, bending system, edging (fluting) system.Prior art In, there is more research on each structure member.Such as：Patent CN104889202A discloses a kind of knives bending machine with greatly Angle bent blade device and knives bending machine, patent CN104889229A disclose a kind of knives bending machine serrated knife die cutting die structure and tulwar Machine, patent CN104889857A discloses a kind of knives bending machine Multifunctional two sides edging device, knives bending machine and edging method.

It is relatively advanced at present to there is patent CN204724744U to disclose for the research of full-automatic computer knives bending machine feeding structure A kind of computer automatic rule bender feed mechanism, it includes：Supporting table, be fixedly installed in the supporting table for accommodating Die-cutting rule and make die-cutting rule be in straight panel shape receiving block, be arranged on the clamping for clamping die-cutting rule in the supporting table Device, the release for controlling the clamping device being arranged on the clamping device and the adjusting means of clamping, Yi Jishe The drive device being connected with the clamping device in the supporting table is put, the drive device drives the clamping device along institute The length direction for stating receiving block moves linearly.It uses forward and backward leading screw to drive clamping device, and simple structure can reliable, stabilization Die-cutting rule is moved on ground forwards.

Because the patent drives the upper of gripping apparatus grips die-cutting rule (i.e. band) using two leading screws of forward and backward setting Portion travels forward, and the bottom of its die-cutting rule must set the gap (track) of guiding die-cutting rule movement, the height of the vertical plate of both sides Degree must be less than the height of die-cutting rule, there is following problem：

1st, the feeding stroke of above-mentioned patent feeding structure is more long, and machining accuracy is poor.Using two leading screws of forward and backward setting The structure of clamping device is driven, the clamping movement distance of die-cutting rule is naturally larger than two sections of length of leading screw, its stroke is more long, and Can apply larger vertical impact power when die-cutting rule bending, shearing, bridge location, olecranon, fluting etc. are processed to act on die-cutting rule, The somewhat shake skew of die-cutting rule porch can progressively amplify as stroke increases, so that the precision that die-cutting rule is processed is influenceed, Feeding stroke is more long, and machining accuracy is poorer.

2nd, the altitude range of the die-cutting rule that above-mentioned patent feeding structure can be matched is limited, it is difficult to the mould of compatible different height The feeding of cutting knife.Need the height of the die-cutting rule of processing general in 6-32mm, and in above-mentioned patent feeding structure both sides it is vertical The height of plate must be less than the height of die-cutting rule, and the position of the difference of both height can be used for hitch feed.If above-mentioned patent Feeding structure needs the feeding of the die-cutting rule of compatibility 6mm or so, then the height of the vertical plate of both sides should be arranged on a 2-3mm left sides It is right.So, by the way of the driving of forward and backward leading screw track will necessarily be brought more long, and track is long, and play track guide effect Vertical plate it is highly relatively low, this is easy for causing feeding die-cutting rule easy abjection (custom from gap (track) when quick mobile Claim " derailing " phenomenon), cause to shut down, cause the discontinuous of processing.

Utility model content

The purpose of this utility model is to provide mo(u)ld bottom half double lead-screw feeding structure on a kind of full-automatic computer knives bending machine, and it is adopted Drive clamping jaw to move with the leading screw driving sliding block of upper and lower parallel arrangement, so as to shorten the shift motion of die-cutting rule clamping, improve and add Work precision；Using can up and down adjusting position guiding guardrail guiding band travel forward so that be oriented to guardrail can tune to band The both sides of material medium position, can avoid band from being oriented in guardrail, and may also adapt to the feeding of arbitrary height band.

The utility model provides mo(u)ld bottom half double lead-screw feeding structure on a kind of full-automatic computer knives bending machine, including：

Strip support rolls axle, for supporting band from bottom；

Guardrail is oriented to, the both sides of band is arranged at, for guiding band to travel forward；

Upper clamping device, including upper gripper jaw, top shoe and upper leading screw, upper gripper jaw is arranged on top shoe, for clamping band The top of material, top shoe does the linear reciprocating motion parallel to band along upper screw rod；And

Lower clamping device, including lower clamping jaw, sliding block and lower leading screw, lower clamping jaw are arranged on sliding block, for clamping band The bottom of material, sliding block does the linear reciprocating motion parallel to band along lower screw mandrel, and opposite with the direction of motion of top shoe.

Preferably, being provided for the first adjustment unit for controlling upper gripper jaw to open and clamp on top shoe, set on sliding block Put the second adjustment unit for controlling lower clamping jaw to open and clamp, it is preferred that first adjustment unit, the second adjustment unit It is drive cylinder.

Preferably, upper leading screw and lower leading screw are driven by leading screw driver element, and drive upper gripper jaw and lower clamping jaw synchronous backward Linear motion.

Preferably, leading screw driver element typically uses motor, it may be preferred to be servomotor.

The type of leading screw have left hand thread and right-handed thread point, when adding a left side using a right-handed thread structure leading screw When revolving the combination of helicitic texture leading screw, the direction of upper and lower clamping jaw movement is also opposite during upper and lower two leading screw rotating Vortexes , then connected using synchronous belt or similar structures using the transmission mechanism of the same servomotor of connection.

When the leading screw of right-handed thread structure or left hand thread structure is all using two, then upper and lower two leading screws are needed Direction of rotation difference can just reach upper and lower clamping jaw rightabout displacement, then be needed during the transmission mechanism for connecting same servomotor If upper and lower leading screw direction of rotation is inverted using gear or similar means.

Certainly, when upper and lower leading screw connects a servomotor and individually controls respectively, then no matter the screw thread knot of upper and lower leading screw Structure direction, can realize the synchronous backward displacement of upper and lower clamping jaw.

Preferably, lower leading screw in upper leading screw, lower clamping device in upper clamping device and being oriented to the two ends of guardrail and consolidating It is scheduled on same base.

Preferably, mo(u)ld bottom half double lead-screw feeding structure also includes that substructure height adjusts list on above-mentioned full-automatic computer knives bending machine Unit, for adjusting base and the relative altitude of band, to realize upper gripper jaw, lower clamping jaw, guiding guardrail and band relative position It is adjusted in synchronism.

Guardrail can be directed to by the substructure height adjustment unit to adjust to band height center line position, for any high Spending the band (typically in 6-32mm) can ensure that being oriented to guardrail is located at band height center line position, so as to avoid band in fortune " derailing " phenomenon of dynamic process.

Preferably, it is the thin plate for being arranged on band both sides to be oriented to guardrail, inner side thin plate two ends are fixed, outside thin plate one end hinge Connect the fixed, other end to be flexibly connected, squeeze outside thin plate during bending so that band is obstructed.

Preferably, one end that outside thin plate is flexibly connected is connected using magnet adsorption.

Preferably, sensor is fitted with the thin plate of outside, the disengagement status signals for detecting outside thin plate.

During transfer band, if above resistance is larger, band flexural deformation, that is, " card that industry is commonly called as can be caused In the case of knife ", the thin plate track of semi open model structure can be squeezed due to band flexural deformation, and the sensing fitted with thin plate track Device can detect disengagement signal, so as to reach detection " swaging clamp " phenomenon, and produce the effect of alarm.

The beneficial effects of the utility model have：

1st, sliding block is driven to drive clamping jaw to move using the leading screw of upper and lower arrangement, so as to shorten the mobile row of die-cutting rule clamping Journey, improves machining accuracy.

2nd, band bottom uses axle supports, and the both sides of band medium position set guiding guardrail can be oriented to, and The height of guardrail is oriented to by adjusting can be caused to be directed to the band of arbitrary height, can realize that being oriented to guardrail is located at band middle part The both sides of position, can avoid band from occurring from the situation for being oriented to abjection in guardrail, such that it is able to adapt to the band of arbitrary height Feeding.

3rd, the outside thin plate for being oriented to guardrail is hinged fixation using one end, the semi open model structure that the other end is flexibly connected, just The release of band bending stress when " swaging clamp ", it is to avoid the damage to equipment, setting inductor again in addition can then form " card Knife " warning function.

The utility model is described further below in conjunction with the drawings and specific embodiments.

Brief description of the drawings

Fig. 1 is band lower support structure schematic diagram of the present utility model.

Fig. 2 is the main structure diagram of upper mo(u)ld bottom half double lead-screw feeding structure of the present utility model.

Fig. 3 is that the band of upper mo(u)ld bottom half double lead-screw feeding structure of the present utility model and the position relationship for being oriented to guardrail are illustrated Figure.

Fig. 4 is the overlooking the structure diagram of upper mo(u)ld bottom half double lead-screw feeding structure of the present utility model.

In figure, 1- strip support rolls axles, 2- bands, 3- is oriented to guardrail, the upper clamping devices of 4-, clamping device under 5-, 6- bottoms Seat height adjusting unit；31- inner sides thin plate, thin plate on the outside of 32-, 33- pins, 34- magnet, 41- upper gripper jaws, 42- top shoes, 43- upper leading screws, 44- bases, clamping jaw under 51-, 52- sliding blocks, 53- lower leading screws.

Specific embodiment

The present embodiment is the utility model preferred embodiment, and other all its principles and basic structure are identical with the present embodiment Or it is approximate, within the utility model protection domain.

Embodiment 1

Incorporated by reference to referring to accompanying drawing 1 to 2, mo(u)ld bottom half double lead-screw feeding structure on the full-automatic computer knives bending machine of the present embodiment is wrapped Include：

Strip support rolls axle 1, for supporting band 2 from bottom；

Guardrail 3 is oriented to, the both sides of band 2 is arranged at, for guiding band 2 to travel forward；

Upper clamping device 4, including upper gripper jaw 41, top shoe 42 and upper leading screw 43, upper gripper jaw 41 are arranged on top shoe 42, Top for clamping band 2, top shoe 42 does the linear reciprocating motion parallel to band 2, upper leading screw 43 along upper screw rod 43 Two ends be fixed on base 44；And

Lower clamping device 5, including lower clamping jaw 51, sliding block 52 and lower leading screw 53, lower clamping jaw 51 are arranged on sliding block 52, Bottom for clamping band 2, sliding block 52 does the linear reciprocating motion parallel to band 2 along lower screw mandrel 53, and with upper cunning The direction of motion of block 42 is conversely, the two ends of lower leading screw 53 are also secured on base 44；

Wherein, the first adjustment unit for controlling upper gripper jaw 41 to open and clamp, sliding block 52 are provided on top shoe 42 On be provided for the second adjustment unit for controlling lower clamping jaw 51 to open and clamp, first, second adjustment unit uses existing skill Art, if can realize control clamping jaw (41,42) open with clamping function, used in the present embodiment upper and lower cylinder divide Not Kong Zhi upper gripper jaw 41, lower clamping jaw 51 open and clamp.

In order to ensure the uniformity of upper leading screw 43 and the pace of movement of lower leading screw 53, upper leading screw 43 and lower leading screw 53 are driven by leading screw Moving cell drives and drives top shoe and sliding block synchronous backward linear motion, and in the present embodiment, upper and lower leading screw (43,53) uses Precision ball screw, leading screw driver element uses motor, preferential to select elaborate servo motor, to drive upper and lower leading screw (43,53) The positive and negative purpose for being conveyed to the true feeding of continuous fine.

The type of leading screw have left hand thread and right-handed thread point, when adding a left side using a right-handed thread structure leading screw When revolving the combination of helicitic texture leading screw, the direction of upper and lower clamping jaw movement is also opposite during upper and lower two leading screw rotating Vortexes , then connected using synchronous belt or similar structures using the transmission mechanism of the same servomotor of connection.

When the leading screw of right-handed thread structure or left hand thread structure is all using two, then upper and lower two leading screws are needed Direction of rotation difference can just reach upper and lower clamping jaw rightabout displacement, then be needed during the transmission mechanism for connecting same servomotor If upper and lower leading screw direction of rotation is inverted using gear or similar means.

Certainly, when upper and lower leading screw connects a servomotor and individually controls respectively, then no matter the screw thread knot of upper and lower leading screw Structure direction, can realize the synchronous backward displacement of upper and lower clamping jaw.

The combination plus synchronous belt for adding left hand thread structure leading screw using a right-handed thread structure leading screw connect Preferred scheme of the type of drive for servomotor as the present embodiment is connect, the full-automatic computer knives bending machine of the present embodiment is upper and lower Type double lead-screw feeding structure also includes

Substructure height adjustment unit 6, for adjusting base 44 and the relative altitude of band 2, to realize upper gripper jaw 41, lower folder Pawl 51, the synchronous adjustment for being oriented to guardrail 3 and band relative position.

Guardrail can be directed to by the substructure height adjustment unit to adjust to band height center line position, for any high Spending the band (typically in 6-32mm) can ensure that being oriented to guardrail is located at band height center line position, so as to avoid band in fortune " derailing " phenomenon of dynamic process.

Substructure height adjustment unit can be realized using prior art.In the present embodiment, driven using cylinder Base is upper and lower to be lifted to realize the regulation of base relative altitude.

Incorporated by reference to referring to accompanying drawing 3,0 datum line with tangent line outside the top of strip support rolls axle as height that is to say：Band Bottom datum line be 0 height, the height (namely difference in height of band top and bottom) of band is calculated as X, in the prior art mould The height X of cutting knife is generally 6-32mm, and the difference in height that definition is oriented between guardrail center line and 0 datum line is calculated as Y, for ease of leading Band being fixed to guardrail and avoiding " derailing " phenomenon, Y is set to Y=X/2 by general use.

When selecting different height band X to carry out feeding, then the Y value that can be by substructure height adjustment unit can be with Regulation is easy to guiding guardrail to fix band and avoids " derailing " phenomenon to the position of Y=X/2.

The track thin plate that band is transferred as guardrail be oriented to and in put, using the top and the bottom of band all as transferring The retained part of mechanism, different bands are corresponded to highly by the height of integrated regulation holder, so, no matter using how high Band, guide rail is all, in the centre position of band, to be thus also not easy derailing, it is also possible to so that the band of different height A half height of about band is all respectively clamped up and down.

When using, according to the height of band, operation base height adjusting unit 6 is located at the two of the centre position of band Side, adjustment upper gripper jaw 41 and/or lower clamping jaw 51 clamp the depth of band, and during work, upper gripper jaw 41 clamps band 2 and the fortune that moves ahead Dynamic, simultaneously, lower clamping jaw 51 unclamps and moves backward；When the end of travel of upper gripper jaw 41 to upper leading screw 43, lower clamping jaw 51 is first Band 2 is clamped, upper gripper jaw 41 is unclamped again, and lower clamping jaw 41 is moved further along；Treat the end of travel of lower clamping jaw 51 to lower leading screw 53 When, upper gripper jaw 41 first clamps band 2, and lower clamping jaw 51 is unclamped again, and upper gripper jaw is moved further along；And so on, realize band 2 from Dynamic serialization feeding.

Embodiment 2

Incorporated by reference to referring to accompanying drawing 4, on the full-automatic computer knives bending machine of the present embodiment mo(u)ld bottom half double lead-screw feeding structure with implement Example 1 is essentially identical, and its main further prioritization scheme is the structure for being oriented to guardrail.

It is the thin plate (31,32) for being arranged on band both sides to be oriented to guardrail 3, and the two ends of inner side thin plate 31 are fixed, outside thin plate 32 One end be hinged fixation, the other end is flexibly connected, and semi open model structure is opened in formation, and it is thin during bending to squeeze outside so that band is obstructed Plate.In the present embodiment, it is hinged fixing end and is hinged using the fixation of pin 33, and it is flexibly connected end and adsorbs connection using magnet 34.

As the preferred scheme of the present embodiment, sensor (not shown) is fitted with outside thin plate 32, for detecting outside The disengagement status signals of thin plate 32.The thin plate disengages status signals and is delivered in computer industrial computer, and can start corresponding alarm System is alarmed (such as pronunciation, luminous etc.), reminds operating personnel " swaging clamp " phenomenon occur, and processed as early as possible.

During transfer band, if above resistance is larger, band flexural deformation, that is, " card that industry is commonly called as can be caused In the case of knife ", the thin plate track of semi open model structure can be squeezed due to band flexural deformation, and the sensing fitted with thin plate track Device can detect disengagement signal, so as to reach detection " swaging clamp " phenomenon, and produce the effect of alarm.

Above disclosed is only preferred embodiment of the present utility model, can not limit this practicality with this certainly new The interest field of type, therefore the equivalent variations made according to present utility model application the scope of the claims, still belong to the utility model and are covered Scope.

Claims (9)

1. mo(u)ld bottom half double lead-screw feeding structure on a kind of full-automatic computer knives bending machine, it is characterised in that：

Including：

Strip support rolls axle, for supporting band from bottom；

Guardrail is oriented to, the both sides of band is arranged at, for guiding band to travel forward；

Upper clamping device, including upper gripper jaw, top shoe and upper leading screw, upper gripper jaw is arranged on top shoe, for clamping band Top, top shoe does the linear reciprocating motion parallel to band along upper screw rod；And

Lower clamping device, including lower clamping jaw, sliding block and lower leading screw, lower clamping jaw are arranged on sliding block, for clamping band Bottom, sliding block does the linear reciprocating motion parallel to band along lower screw mandrel, and opposite with the direction of motion of top shoe.

2. mo(u)ld bottom half double lead-screw feeding structure on full-automatic computer knives bending machine according to claim 1, it is characterised in that：Upper cunning The first adjustment unit for controlling upper gripper jaw to open and clamp is provided on block, is provided for controlling lower clamping jaw to open on sliding block With the second adjustment unit for clamping.

3. mo(u)ld bottom half double lead-screw feeding structure on full-automatic computer knives bending machine according to claim 1, it is characterised in that：Upper silk Thick stick and lower leading screw are driven by leading screw driver element, and drive upper gripper jaw and lower clamping jaw synchronous backward to move along a straight line.

4. mo(u)ld bottom half double lead-screw feeding structure on full-automatic computer knives bending machine according to claim 3, it is characterised in that：Leading screw Driver element is servomotor.

5. mo(u)ld bottom half double lead-screw feeding structure on full-automatic computer knives bending machine according to claim 1, it is characterised in that：Upper folder The two ends held the upper leading screw in device, the lower leading screw in lower clamping device and be oriented to guardrail are fixed on same base.

6. mo(u)ld bottom half double lead-screw feeding structure on full-automatic computer knives bending machine according to claim 5, it is characterised in that：Also wrap Substructure height adjustment unit is included, for adjusting base and the relative altitude of band, to realize upper gripper jaw, lower clamping jaw, be oriented to guardrail With the synchronous adjustment of band relative position.

7. mo(u)ld bottom half double lead-screw feeding structure on full-automatic computer knives bending machine according to claim 1, it is characterised in that：It is oriented to Guardrail is the thin plate for being arranged on band both sides, and inner side thin plate two ends are fixed, and outside thin plate one end is hinged fixed, other end activity even Connect, squeeze outside thin plate during bending so that band is obstructed.

8. mo(u)ld bottom half double lead-screw feeding structure on full-automatic computer knives bending machine according to claim 7, it is characterised in that：Outside One end that thin plate is flexibly connected is connected using magnet adsorption.

9. mo(u)ld bottom half double lead-screw feeding structure on full-automatic computer knives bending machine according to claim 8, it is characterised in that：Outside Sensor is fitted with thin plate, the disengagement status signals for detecting outside thin plate.