CN109677017A - A kind of shaft control device and the automatic embossing machine equipped with the device - Google Patents

Abstract

A kind of shaft control device, including the first swing arm, second swing arm, cam disk between the first swing arm and the second swing arm, it is separately connected the dynamic clamping head and quiet clamping head of the first swing arm Yu the second swing arm end, first swing arm and the second swing arm other end are articulated on the roller ontology end face being equipped with, the first roller bearing is equipped on the inside of first middle part of swing arm, the second roller bearing is equipped on the inside of second middle part of swing arm, first swing arm, connecting rod, rocking bar is successively hinged, the radially fixed connecting cylinder tooth shaft of rocking bar, the cam disk can be with respect to the first swing arm, second swing arm and dynamic clamping head and quiet clamping head rotation, the cam disk includes the sequentially connected convex disk of integral type, connecting tube, under convex disk, when scallop enters lower arc sections to the first roller bearing under connecting, second roller bearing is also from upper arc sections are connected into upper scallop , the first swing arm rotates at this time, drives the rotation of cylinder tooth shaft by the successively transmission of connecting rod and rocking bar.

Description

A kind of shaft control device and the automatic embossing machine equipped with the device

Technical field

The present invention relates to embossing machinery fields, and in particular to a kind of shaft control device and the automatic embossing equipped with the device Machine.

Background technique

The intermittent rotation of control shaft in the prior art generally realized by the positive and negative rotation of motor, and motor is repeatedly just Reverse turn is for the more demanding of motor, and the repetition positive and negative rotation of motor easily causes burning for motor.

Summary of the invention

To solve the above-mentioned problems, the automatic embossing the present invention provides a kind of shaft control device and equipped with the device Machine:

A kind of shaft control device, including the first swing arm, the second swing arm, convex between the first swing arm and the second swing arm Wheel disk, the dynamic clamping head and quiet clamping head for being separately connected the first swing arm Yu the second swing arm end, first swing arm and the second swing arm are another End is articulated on the roller ontology end face being equipped with, and the first roller bearing, the second swing arm are equipped on the inside of first middle part of swing arm Inside middle portion is equipped with the second roller bearing, the connecting rod that first swing arm other end is hingedly equipped with, and the connecting rod is hingedly set Some rocking bars, the radially fixed cylinder tooth shaft being connected with of the rocking bar, the cam disk can be with respect to the first swing arm, second Swing arm and dynamic clamping head and quiet clamping head rotation, the cam disk include the sequentially connected convex disk of integral type, connecting tube, under convex disk,

The convex disk and the second roller bearing composition abut against cooperation, and the convex disk includes upper arc sections and to outer arcuate The upper scallop of protrusion, the upper scallop are equipped with multiple mounting holes, since the surface area of upper scallop is larger, user The relative position for fixing cam disk and pedestal can be installed in a manner of directly being fixed by mounting hole with bolt；It is convex under described Disk and the first roller bearing composition abuts against cooperation, under described convex disk include lower arc sections and to outer arcuate protrusion lower scallop, The lower scallop is corresponded to each other with upper scallop, when the first roller bearing connects lower scallop, second roller bearing Arc sections in connection, when the first roller bearing connects lower arc sections, second roller bearing connects upper scallop.

When scallop enters lower arc sections to the first roller bearing under connecting, the second roller bearing is also from the upper circular arc of connection Portion enters upper scallop, and the first swing arm rotates at this time, drives cylinder tooth shaft to turn by the successively transmission of connecting rod and rocking bar It is dynamic.

Preferably, the dynamic clamping head and quiet clamping head is tension spring, and the tension spring both ends are respectively articulated with the first swing arm and the second swing arm End.

A kind of automatic embossing machine, including pedestal, be flexibly connected pedestal first embossing roller and second embossing roller, institute It states the first embossing roller and the second embossing roller is mutually sequentially connected；The first embossing roller includes roller ontology, roller tooth Grabbing device and the shaft control device, the roller ontology passes through the central rotating shaft being equipped with and is flexibly connected pedestal, described Roller tooth grabbing device is installed in the first mounting groove being equipped in roller ontology, and the roller tooth grabbing device includes and center The parallel cylinder tooth shaft of shaft and axial restraint are installed on multiple roller teeth in a tooth shaft, and the cylinder tooth shaft is flexibly connected It is pierced by in roller ontology and one end and is fixedly connected with rocking bar, multiple roller teeth are equipped with outwardly extending pressing plate portion, when When one embossing roller is turned within the scope of certain angle, the shaft control device application cylinder tooth shaft rotation, the pressing plate portion Crawl part to be embossed is routed up outward.

Preferably, first mounting groove upper end is equipped with multiple arc bridge crossing plates being axially distributed, multiple arc mistakes Bridge plate is corresponding with the rounded sides of roller ontology, and the roller tooth corresponds to the gap between arc bridge crossing plate.When roller tooth not When flipping outward stretching, part to be embossed directly can continue embossing transmission by arc bridge crossing plate, without falling into the first peace In tankage.

Preferably, axle bed is equipped in first mounting groove, described axle bed one end is fixedly connected with roller ontology, and the other end is set There is axially extending bore, the bearing of inner sleeve tooth shaft is equipped in the axially extending bore, to substantially increase a stabilization for tooth shaft Property, avoid a tooth shaft from shifting.

Preferably, the roller tooth is equipped with the perforation passed through for cylinder tooth shaft, is equipped with radially protruding on the inside of the perforation Detent portion, the axial slide that the detent portion and cylinder tooth shaft are equipped with constitutes clamping matching, so that each roller tooth phase It is consistent for the angle of cylinder tooth shaft, it avoids different relative to the angle of cylinder tooth shaft due to each roller tooth and influences roller tooth Crawl to part to be embossed.

Preferably, the roller ontology is equipped with gasket and coats mechanism, and gasket cladding mechanism includes softer, elastic pad Piece and two rubber clamping plates, the softer, elastic gasket coat roller body part region, and two rubber clamping plates pass through The second installation that the both ends of softer, elastic gasket are individually fixed in the first mounting groove and are equipped with by detachable bolt fastener In slot.

Preferably, gasket cladding mechanism further includes tightening regulator, and the tightening regulator includes Rubber eraser clamp Axis, screw thread adjusting rod, Rubber eraser clamp axis side and rubber clamping plate pass through the fixed softer, elastic gasket of bolt clamping, Rubber eraser clamp axis One end is equipped with to be used to control the rotation of Rubber eraser clamp axis, passes through rubber with screw thread adjusting rod meshed gears, the screw thread adjusting rod The rotational angle of axis is pressed from both sides to generate outside tension power to softer, elastic gasket, keeps the tensioning of softer, elastic gasket Degree.

Preferably, the softer, elastic gasket is elastic rubber gasket.Between the rubber layer and roller ontology of traditional roller By glue fixed bonding, once rubber layer is damaged, just it is difficult to replace.And the abrasion of rubber layer is difficult in institute in real life Exempt from, replacement roller needs biggish cost, and if be changed without, then will lead to corresponding precision problem.Therefore this product is set In respect of the replacement for being conducive to softer, elastic gasket, the thickness of softer, elastic gasket can also be independently selected according to actual needs.

Preferably, multiple sawtooth are equipped on the outside of the rubber clamping plate to be open, consequently facilitating checking rubber sheet gasket whether It is installed in rubber clamping plate.

It is overturn by part clamping to be embossed between roller tooth and roller ontology in the process of running by roller tooth, thus solid The outer end of fixed part to be embossed, then pass through the own rotation of roller ontology, so that being further transmitted for part to be embossed is driven, to protect The rate of tension for having held part to be embossed improves embossing precision.

The invention has the following beneficial effects: when the first roller bearing is from when connecting lower scallop and entering lower arc sections, the Second wheel bearing is also from upper arc sections are connected into upper scallop, and the first swing arm turns to the inside at this time, and the second swing arm is outside Side rotation just formed with the first swing arm it is mutual to drawing active force so that the rotation that the first swing arm is steady smooth, in turn Drive the smooth rotation of cylinder tooth shaft.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of embodiment.

Fig. 2 is the enlarged diagram of A in Fig. 1.

Fig. 3 is the schematic diagram of internal structure 1 of embodiment.

Fig. 4 is the enlarged diagram of B in Fig. 3.

Fig. 5 is the schematic diagram of internal structure 2 of embodiment.

Fig. 6 is the scheme of installation of shaft control device.

Fig. 7 is the structural schematic diagram of cam disk.

Fig. 8 is simplified pinciple Fig. 1 of shaft control device.

Fig. 9 is simplified pinciple Fig. 2 of shaft control device.

Figure 10 is simplified pinciple Fig. 3 of shaft control device.

1, pedestal；2, the first embossing roller；3, the second embossing roller；4, roller ontology；5, cylinder tooth shaft；6, roller tooth； 7, pressing plate portion；8, the first swing arm；9, connecting rod；10, rocking bar；11, cam disk；111, convex disk；112, connecting pipe；113, Under convex disk；12, tension spring；13, the second swing arm；14, arc bridge crossing plate；15, axle bed；16, rubber clamping plate；17, Rubber eraser clamp axis；18, Sawtooth opening.

Specific embodiment

Invention is further explained with embodiment by 1-10 with reference to the accompanying drawing.

Embodiment: a kind of automatic embossing machine, including pedestal 1, be flexibly connected pedestal 1 first embossing roller 2 and second Roller 3 is embossed, the first embossing roller 2 and the second embossing roller 3 are mutually sequentially connected.Described first, which embosses roller 2, includes Roller ontology 4, cylinder tooth grabbing device and shaft control device.The roller ontology 4 passes through the central rotating shaft being equipped with and is flexibly connected Pedestal 1, the cylinder tooth grabbing device are installed in the first mounting groove being equipped in roller ontology 4, the cylinder tooth grabbing device packet Include multiple roller teeth 6 that the cylinder tooth shaft 5 and axial restraint parallel with central rotating shaft are installed in a tooth shaft 5.The cylinder tooth Shaft 5 is movably connected in roller ontology 4 and one end is pierced by and is fixedly connected with rocking bar 10, and multiple roller teeth 6 are equipped with outward The pressing plate portion 7 of extension, when the first embossing roller 2 turns within the scope of certain angle, the shaft control device application cylinder tooth Shaft 5 rotates, and the pressing plate portion 7 routs up crawl part to be embossed outward.

Shaft control device of the present invention includes the first swing arm 8, the second swing arm 13, is located at the first swing arm 8 and second Cam disk 11 between swing arm 13, the tension spring 12 for being separately connected 13 end of the first swing arm 8 and the second swing arm.First swing arm 8 and 13 other end of the second swing arm be articulated on 4 end face of roller ontology, 8 inside middle portion of the first swing arm be equipped with first Roller bearing, 13 inside middle portion of the second swing arm are equipped with the second roller bearing.First swing arm, 8 other end, connecting rod 9, rocking bar 10 is successively hinged, the radially fixed connecting cylinder tooth shaft 5 of the rocking bar 10.

The cam disk 11 include the sequentially connected convex disk 111 of integral type, connecting tube, under convex disk 113.It is described convex Disk 111 and the second roller bearing composition abut against cooperation.The convex disk 111 includes upper arc sections and the upper fan to outer arcuate protrusion Shape portion, the upper scallop is equipped with multiple mounting holes, since the surface area of upper scallop is larger, the convex disk 111 and pedestal 1 Side is fixedly connected by the bolt fastener that mounting hole is equipped with.The connecting tube inner face is socketed center by deep groove ball bearing Shaft, so that cam disk 11 is relatively rotatable to each other with the first embossing roller 2.Convex disk 113 and the first roller bearing structure under described At abut against cooperation, under described convex disk 113 include lower arc sections and to outer arcuate protrude lower scallop, the lower scallop with it is upper Scallop corresponds to each other, and when the first roller bearing connects lower scallop, second roller bearing connects upper arc sections, when the When one roller bearing connects lower arc sections, second roller bearing connects upper scallop.12 both ends of tension spring are respectively articulated with The end of first swing arm 8 and the second swing arm 13, so that the end of the first swing arm 8 and the second swing arm 13 generates opposite elasticity Active force.

First mounting groove upper end is equipped with multiple arc bridge crossing plates 14 being axially distributed, multiple arc bridge crossing plates 14 Gap corresponding with the rounded sides of roller ontology 4, between the corresponding arc bridge crossing plate 14 of the roller tooth 6.When roller tooth 6 not When flipping outward stretching, part to be embossed directly can continue embossing transmission by arc bridge crossing plate 14, without falling into first In mounting groove.Axle bed 15 is equipped in first mounting groove, described 15 one end of axle bed is fixedly connected with roller ontology 4, and the other end is set There is axially extending bore, the bearing of inner sleeve tooth shaft 5 is equipped in the axially extending bore, to substantially increase the steady of a tooth shaft 5 It is qualitative, avoid a tooth shaft 5 from shifting.The roller tooth 6, which is equipped with, is used for the perforation that cylinder tooth shaft 5 passes through, in the perforation Side is equipped with the detent portion of radially protruding, and the axial slide that the detent portion and cylinder tooth shaft 5 are equipped with constitutes clamping matching, to make It is consistent relative to the angle of cylinder tooth shaft 5 to obtain each roller tooth 6, avoids the angle due to each roller tooth 6 relative to cylinder tooth shaft 5 Degree is different and influences crawl of the roller tooth 6 to part to be embossed.

The roller ontology 4 is equipped with gasket and coats mechanism, and gasket cladding mechanism includes softer, elastic gasket, tensioning Regulating device and two rubber clamping plates 16, the softer, elastic gasket coat 4 partial region of roller ontology, two Rubber eraser clamps The both ends of softer, elastic gasket are individually fixed in the first mounting groove by detachable bolt fastener and are equipped with by plate 16 The second mounting groove in.The tightening regulator includes Rubber eraser clamp axis 17, screw thread adjusting rod, 17 side of Rubber eraser clamp axis with For rubber clamping plate 16 by the fixed softer, elastic gasket of bolt clamping, 17 one end of Rubber eraser clamp axis is equipped with the tooth engaged with screw thread adjusting rod Wheel, the screw thread adjusting rod are used to control the rotation of Rubber eraser clamp axis 17, by the rotational angle of Rubber eraser clamp axis 17 to soft Elastomeric pad generates outside tension power, keeps the rate of tension of softer, elastic gasket.

The softer, elastic gasket is elastic rubber gasket.Pass through glue between the rubber layer and roller ontology 4 of traditional roller Hydropexis bonding, once rubber layer is damaged, is just difficult to replace.And the abrasion of rubber layer is unavoidable in real life, more Roll change cylinder needs biggish cost, and if be changed without, then will lead to corresponding precision problem.Therefore the design of this product is advantageous In the replacement of softer, elastic gasket, the thickness of softer, elastic gasket can also be independently selected according to actual needs.The Rubber eraser clamp Multiple sawtooth opening 18 is equipped on the outside of plate 16, consequently facilitating checking whether rubber sheet gasket has been installed in rubber clamping plate 16.It is logical It crosses roller tooth 6 to overturn in the process of running by part clamping to be embossed between roller tooth 6 and roller ontology 4, thus fixed wait press The outer end of line part, then pass through the own rotation of roller ontology 4, so that being further transmitted for part to be embossed is driven, to maintain The rate of tension of part to be embossed improves embossing precision.

Operation logic:

6 convergence state of roller tooth: as shown in figure 8, the first roller bearing connects lower scallop, second roller shaft at this time Hold the upper arc sections of connection, the first swing arm 8, connecting rod 9, rocking bar 10, cylinder tooth shaft 5 successively transmission under, roller tooth 6 is in interior receipts State in the first mounting groove.

Roller tooth 6 turns up state: after the first embossing 2 opposite base 1 of roller turns to position as shown in Figure 9, first Roller bearing starts from lower scallop is connected into lower arc sections, and the second roller bearing also enters upper sector from the upper arc sections of connection Portion, the first swing arm 8 turns to the inside at this time, and the second swing arm 13 laterally rotates and just forms mutual pair with the first swing arm 8 Active force is drawn, so that the steady smooth rotation of the first swing arm 8, and then drive the smooth rotation of cylinder tooth shaft 5, roller tooth 6 Crawl part to be embossed is routed up outward.

It is now in as shown in Figure 10, the first roller bearing is rolled along lower arc sections, and second roller bearing is along upper fan Shape portion rolls.Roller tooth 6 clamps part to be embossed outward, and part to be embossed is transmitted.

Obviously, the above embodiment of the present invention is intended to be merely illustrative of the present example, and not to the present invention Embodiment restriction.For those of ordinary skill in the art, it can also make on the basis of the above description Other various forms of variations or variation.There is no need and unable to give poor example to all embodiments.And these belong to this The connotation changes and variations that derived from of invention still fall within protection scope of the present invention.

Claims (10)

1. a kind of shaft control device, feature are being: including the first swing arm (8), the second swing arm (13), being located at the first swing arm (8) cam disk (11) between the second swing arm (13), be separately connected the bullets of the first swing arm (8) Yu the second swing arm (13) end Property return unit, first swing arm (8) and the second swing arm (13) other end be articulated on roller ontology (4) end face being equipped with, First swing arm (8) inside middle portion is equipped with the first roller bearing, and the second swing arm (13) inside middle portion is equipped with the second roller bearing, The connecting rod (9) that first swing arm (8) other end is hingedly equipped with, the rocking bar (10) that the connecting rod (9) is hingedly equipped with are described The radially fixed cylinder tooth shaft (5) being connected with of rocking bar (10), the cam disk (11) can be with respect to the first swing arms (8), Two swing arms (13) and dynamic clamping head and quiet clamping head rotation, the cam disk (11) include the sequentially connected convex disk (111) of integral type, connect Adapter tube, under convex disk (113),

The convex disk (111) and the second roller bearing composition abut against cooperation, the convex disk (111) include upper arc sections and to The upper scallop of outer arcuate protrusion, the upper scallop are equipped with multiple mounting holes；Convex disk (113) and the first roller bearing under described Composition abuts against cooperation, and convex disk (113) includes lower arc sections and the lower scallop to outer arcuate protrusion, the lower scallop under described It is corresponded to each other with upper scallop, when the first roller bearing connects lower scallop, second roller bearing connects upper arc sections, When the first roller bearing connects lower arc sections, second roller bearing connects upper scallop.

2. a kind of shaft control device according to claim 1, feature are being: the dynamic clamping head and quiet clamping head is tension spring (12), tension spring (12) both ends are respectively articulated with the end of the first swing arm (8) Yu the second swing arm (13).

3. a kind of automatic embossing machine, including pedestal (1), it is flexibly connected first embossing roller (2) and second of pedestal (1) and embosses Roller (3), first embossing roller (2) and the second embossing roller (3) are mutually sequentially connected, it is characterised in that: described first Embossing roller (2) includes roller ontology (4), cylinder tooth grabbing device and shaft control device described in claim 1, the roller Ontology (4) passes through the central rotating shaft being equipped with and is flexibly connected pedestal (1), and the cylinder tooth grabbing device is installed in roller ontology (4) In the first mounting groove being equipped with, the cylinder tooth grabbing device includes the cylinder tooth shaft (5) and axial restraint parallel with central rotating shaft The multiple roller teeth (6) being installed in a tooth shaft (5), the cylinder tooth shaft (5) are movably connected in roller ontology (4) and one End, which is pierced by, to be fixedly connected rocking bar (10), and multiple roller teeth (6) are equipped with outwardly extending pressing plate portion (7), when the first embossing When roller (2) is turned within the scope of certain angle, shaft control device application cylinder tooth shaft (5) rotation, the pressing plate portion (7) crawl part to be embossed is routed up outward.

4. a kind of automatic embossing machine according to claim 3, it is characterised in that: first mounting groove upper end is equipped with multiple The arc bridge crossing plate (14) being axially distributed, multiple arc bridge crossing plates (14) are corresponding with the rounded sides of roller ontology (4), Gap between the roller tooth (6) corresponding arc bridge crossing plate (14).

5. a kind of automatic embossing machine according to claim 3, it is characterised in that: be equipped with axle bed in first mounting groove (15), described axle bed (15) one end is fixedly connected roller ontology (4), and the other end is equipped with axially extending bore, is set in the axially extending bore There is the bearing of inner sleeve tooth shaft (5).

6. a kind of automatic embossing machine according to claim 3, it is characterised in that: the roller tooth (6), which is equipped with, is used for cylinder tooth The perforation that shaft (5) passes through, the perforation inside are equipped with the detent portion of radially protruding, and the detent portion is set with cylinder tooth shaft (5) Some axial slides constitute clamping matching.

7. a kind of automatic embossing machine according to claim 3, it is characterised in that: the roller ontology (4) is equipped with gasket Mechanism is coated, gasket cladding mechanism includes softer, elastic gasket and two rubber clamping plates (16), the softer, elastic gasket Roller ontology (4) partial region is coated, two rubber clamping plates (16) pass through detachable bolt fastener for soft bullet The both ends of property gasket be individually fixed in the first mounting groove and the second mounting groove for being equipped in.

8. a kind of automatic embossing machine according to claim 3, it is characterised in that: gasket cladding mechanism further includes tensioning Regulating device, the tightening regulator include Rubber eraser clamp axis (17), screw thread adjusting rod, Rubber eraser clamp axis (17) side and rubber By the fixed softer, elastic gasket of bolt clamping, Rubber eraser clamp axis (17) one end is equipped with engages leather wallet plate (16) with screw thread adjusting rod Gear, the screw thread adjusting rod are used to control the rotation of Rubber eraser clamp axis (17).

9. a kind of automatic embossing machine according to claim 8, it is characterised in that: the softer, elastic gasket is elastic rubber Gasket.

10. a kind of automatic embossing machine according to claim 8, it is characterised in that: be equipped on the outside of the rubber clamping plate (16) Multiple sawtooth are open (18).