CN204954169U - Duplex position rotary mechanism and laser marking equipment - Google Patents

Abstract

The utility model is suitable for a workstation technical field provides a duplex position rotary mechanism and laser marking equipment, aims at solving the technical problem of work piece autogiration. This duplex position rotary mechanism includes the load bearing seat of conveyer belt, a plurality of lift -launch work pieces, the drive arrangement who has the output shaft and direction subassembly, the one end that includes the subassembly that leads is fixed in the output shaft and the other end is arranged in the centre gripping load bearing seat so that load bearing seat lift -launch work piece is followed the synchronous pivoted holder of drive arrangement and is followed the direction of delivery setting of conveyer belt and adjust the load bearing seat with the guide block with the leading -in holder of load bearing seat in conveyer belt removal in -process. This duplex position rotary mechanism is rotated along with drive arrangement is synchronous by drive arrangement drive load bearing seat and work piece through utilizing guide block adjustment load bearing seat in order to restrict the load bearing seat on the holder to realized that the work piece carries out rotary motion's function on the conveyer belt, simplified mechanism structure, improved whole process operation speed, improved work efficiency effectively.

Description

Double rotating mechanism and laser marking device

Technical field

The utility model belongs to stage technology field, particularly relates to a kind of double rotating mechanism, has the laser marking device of this double rotating mechanism.

Background technology

Laser marking on various different material surface, stamps permanent mark with laser beam.The effect of mark exposes deep layer material by the evaporation of entry material, or cause the Chemical Physics change of entry material by luminous energy and " quarters " goes out vestige, or burns moieties by luminous energy, show the required pattern, the word that etch.Laser marking has the advantages such as signature velocity is fast, continuous operation good stability, positioning precision, is widely used in the figure in various field and the markings of word such as electronics, five metals, aviation, auto parts, metal tag.

Laser marking device is generally made up of workbench, laser instrument, light path system and control system.The workbench of laser marking device is generally simple is set to planar working table formula, side formula rotary chuck, vertical rotating platform or parallel-moving type conveyer belt, cylindrical work, when laser marking, needs fixed placement on side formula rotary chuck or vertical rotating platform, carry out the manual working of single double.

Usually, some full-automatic or semiautomatic equipments can use the automatic circumferential 360 degree rotation markings reaching workpiece to complete in conjunction with translation conveyer belt, manipulator, turntable three.But existing translation conveyer belt does not all have to allow the automatic 360 degree of functions rotated of product workpiece, Gu and individual manipulator and turntable will have been added, manipulator is put into turntable the workpiece product that will rotate from the crawl of translation conveyer belt and carries out rotary laser marking.Simultaneously, produce a set of laser marking working table comprising translation conveyer belt, manipulator and turntable need the software-controlled manner of very complicated and pneumatic hardware control circuit to add the manufacturing cost of the cylinder of turntable and manipulator, screw mandrel, guide rail is high, and the large installation and debugging of volume are complicated, cost of labor is high, poor stability, easily be out of order, after-sales service cost is large, activity duration is long, efficiency is low, cause its production production capacity low, the market demand is few, and mainly seldom enterprise can afford input cost.

Therefore, how overcoming translation conveyer belt in prior art cannot make the technical problem of workpiece automatic rotation become industry technical problem urgently to be resolved hurrily.

Utility model content

The purpose of this utility model is to provide a kind of double rotating mechanism, is intended to the technical problem solving workpiece automatic rotation.

The utility model realizes like this, a kind of double rotating mechanism, comprise drive workpiece translational motion and for plate chain structure conveyer belt, multiple be installed on described conveyer belt with carry described workpiece load bearing seat, drive described load bearing seat to rotate relative to described conveyer belt and there is the drive unit of output shaft and the guidance set for guiding described load bearing seat; Described guidance set comprises one end and is fixed on described output shaft and the other end arranges for clamping described load bearing seat to make described load bearing seat carry the holder of described workpiece with described drive unit synchronous axial system and the throughput direction along described conveyer belt and in described conveyer belt moving process, adjusts described load bearing seat described load bearing seat to be imported the guide pad in described holder.

Further, described load bearing seat comprise be arranged on described conveyer belt and with the pedestal of described conveyer belt movement, be fixedly connected with described pedestal and pass described conveyer belt and be coaxially fixedly connected on described pedestal for the reach clamping described workpiece with the turning cylinder coordinated with described holder and with described turning cylinder.

Further, described carrying the tip of the axis is provided with the first surface axially arranged along it and the location division formed for limiting described workpiece.

Further, described holder comprises the clamping head that is positioned at the same side with described guide pad and outstandingly along described clamping head surface to extend and the power transmission shaft be coaxially fixedly connected with described output shaft.

Further, described clamping head is provided with the holding tank of locating described turning cylinder, described guide pad is provided with and guides described turning cylinder to move into guidance part in described holding tank to make described turning cylinder in moving process, and described turning cylinder is coaxially connected with described power transmission shaft in time being limited in described holding tank.

Further, described guidance part is the triangular cut extended along described conveyer belt moving direction.

Further, the end of described turning cylinder is flat, and described holding tank is square groove, and described holding tank and described guidance part are located along the same line.

Further, described guidance set also comprises and being fixedly installed in frame and installing plate between described guide pad and described drive unit, described guide pad and described drive unit are fixedly installed in two apparent surfaces of described installing plate respectively, and described guide pad is between described conveyer belt and described installing plate.

Further, at least two described load bearing seats guide through at least two corresponding described guidance sets side by side on described conveyer belt and simultaneously and rotate with the described drive unit with correspondence.

The utility model additionally provides a kind of laser marking device, comprises above-mentioned double rotating mechanism.

The utility model relative to the technique effect of prior art is: this double rotating mechanism by installing described load bearing seat on described conveyer belt, and utilize described guide pad to adjust described load bearing seat to be limited on described holder by described load bearing seat, described holder synchronous axial system is driven by described drive unit, thus drive described load bearing seat and the described workpiece that is equipped on described load bearing seat with described drive unit synchronous axial system, thus achieve the function that described workpiece is rotated on described conveyer belt, simplify mechanism structure, save activity time, greatly reduce manufacturing cost, improve whole procedures speed, effectively improve operating efficiency.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme of the utility model embodiment, be briefly described to the accompanying drawing used required in the utility model embodiment or description of the prior art below, apparently, accompanying drawing described is below only embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the stereogram of the double rotating mechanism that the utility model embodiment provides;

Fig. 2 is the exploded view of double rotating mechanism in Fig. 1;

Fig. 3 be in Fig. 1 double rotating mechanism in the sectional view in a direction;

Fig. 4 be in Fig. 1 double rotating mechanism in the sectional view of other direction.

Description of reference numerals:

20 conveyer belt 50 guidance sets

30 load bearing seat 52 holders

32 pedestal 520 clamping heads

34 turning cylinder 522 holding tanks

340 second surface 524 power transmission shafts

342 the 3rd surperficial 54 shaft couplings

36 reach 55 guide pads

360 location division 550 guidance parts

362 first surface 56 installing plates

40 drive unit 560 locating slots

42 output shaft 57 confinement blocks

58 fixed blocks

Detailed description of the invention

In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

Please refer to Fig. 1 to Fig. 4, the double rotating mechanism that the utility model embodiment provides comprise drive workpiece translational motion and for plate chain structure conveyer belt 20, multiple be installed on described conveyer belt 20 with carry described workpiece load bearing seat 30, drive described load bearing seat 30 to rotate relative to described conveyer belt 20 and there is the drive unit 40 of output shaft 42 and the guidance set 50 for guiding described load bearing seat 30; Described guidance set 50 comprises one end and is fixed on described output shaft 42 and the other end arranges for clamping described load bearing seat 30 to make described load bearing seat 30 carry the holder 52 of described workpiece with described drive unit 40 synchronous axial system and the throughput direction along described conveyer belt 20 and in described conveyer belt 20 moving process, adjusts described load bearing seat 30 described load bearing seat 30 to be imported the guide pad 55 in described holder 52.

The double rotating mechanism that the utility model embodiment provides by installing described load bearing seat 30 on described conveyer belt 20, and utilize described guide pad 55 to adjust described load bearing seat 30 to be limited on described holder 52 by described load bearing seat 30, described holder 52 synchronous axial system is driven by described drive unit 40, thus drive described load bearing seat 30 and the described workpiece that is equipped on described load bearing seat 30 with described drive unit 40 synchronous axial system, thus achieve the function that described workpiece is rotated on described conveyer belt 20, simplify mechanism structure, save activity time, greatly reduce manufacturing cost, improve whole procedures speed, effectively improve operating efficiency.

In this embodiment, adopt the conveyer belt 20 of plate chain structure to reduce to pass vibration amplitude in loose process, and ensure that whole transport process is more steady, be also conducive in addition described load bearing seat 30 stably being fixed, to play the effect of rigid support.

In this embodiment, described drive unit 40 is stepper motor, and in other embodiments, described drive unit 40 also can be other type of drive, rotates to be suitable to realize described workpiece.

In this embodiment, in the translation direction of described conveyer belt 20, described load bearing seat 30 is first through the adjustment of described guide pad 55, move on described holder 52 again, under the drive of described drive unit 40, described holder 52 rotates together with described load bearing seat 30, thus makes described workpiece also realize rotary motion.

In this embodiment, described workpiece can be LEDbulb lamp or similar products.

Please refer to Fig. 1 to Fig. 4, further, described load bearing seat 30 comprise be arranged on described conveyer belt 20 and with the pedestal 32 of described conveyer belt 20 movement, be fixedly connected with described pedestal 32 and pass described conveyer belt 20 and be coaxially fixedly connected on described pedestal 32 for the reach 36 clamping described workpiece with the turning cylinder 34 coordinated with described holder 52 and with described turning cylinder 34.Described pedestal 32 is fixed on described conveyer belt 20, be fixedly connected with between described turning cylinder 34 with described reach 36 and can rotate relative to described pedestal 32, preferably, described turning cylinder 34 mutually spins with the end of described reach 36 and utilizes securing member to achieve a fixed connection.Described workpiece is sheathed on described reach 36, and rotates with described drive unit 40.

Please refer to Fig. 1 to Fig. 4, further, the end of described reach 36 is provided with the first surface 362 axially arranged along it and the location division 360 formed for limiting described workpiece.Be connected on described location division 360 to make described workpiece by arranging first surface 362, make described workpiece relative fixing with described reach 36, like this, described workpiece rotates along with the rotary motion of described reach 36.

Please refer to Fig. 2 to Fig. 4, further, described holder 52 comprises the clamping head 520 that is positioned at the same side with described guide pad 55 and outstandingly along described clamping head 520 surface to extend and the power transmission shaft 524 be coaxially fixedly connected with described output shaft 42.Preferably, described clamping head 520 and described power transmission shaft 524 are by one-body molded and make.In this embodiment, described double rotating mechanism also comprises the shaft coupling 54 being fixedly connected on described power transmission shaft 524 end and described output shaft 42 end, utilize described shaft coupling 54 to be fixedly connected with described output shaft 42 to make described power transmission shaft 524, also can ensure that described power transmission shaft 524 is coaxially connected with described output shaft 42 simultaneously.Described drive unit 40 drives described power transmission shaft 524 to rotate when rotating, structure is simple, and transmission efficiency is high.

Please refer to Fig. 2 to Fig. 4, further, described clamping head 520 is provided with the holding tank 522 of locating described turning cylinder 34, described guide pad 55 is provided with and guides described turning cylinder 34 to move into guidance part 550 in described holding tank 522 to make described turning cylinder 34 in moving process, and described turning cylinder 34 is coaxially connected with described power transmission shaft 524 in time being limited in described holding tank 522.Described workpiece does translational motion with described conveyer belt 20 under described load bearing seat 30 drives, and adjust described turning cylinder 34 to introduce in described holding tank 522 by described turning cylinder 34 through described guidance part 550, described turning cylinder 34 is positioned in described holding tank 522, thus described workpiece can be realized rotates along with the rotation of described drive unit 40.In this embodiment, the translation direction of described workpiece and described turning cylinder 34 and described power transmission shaft 524 perpendicular.

Please refer to Fig. 2 to Fig. 4, further, described guidance part 550 is the triangular cut extended along described conveyer belt 20 moving direction.Described triangular cut is large in the throat width away from described drive unit 40 side, and in shrinking gradually near described drive unit 40 side.Described turning cylinder 34 moves with the sidewall of described guidance part 550 and moves in described holding tank 522, described holder 52 is under the rotational movement of described drive unit 40, after described turning cylinder 34 moves into described holding tank 522, make described holding tank 522 to shift out direction different from described conveyer belt 20 translation direction, thus described turning cylinder 34 is rotated with the rotation of described holder 52, after rotating a circle, described holding tank 522 to shift out direction consistent with the translation direction of described conveyer belt 20, described turning cylinder 34 shifts out from described holding tank 522, and do translational motion with described conveyer belt 20.

Please refer to Fig. 1 to Fig. 4, further, the end of described turning cylinder 34 is flat, and described holding tank 522 is square groove, and described holding tank 522 and described guidance part 550 are located along the same line.The end of described turning cylinder 34 is provided with the second surface 340 and the 3rd surface 342 that are axially oppositely arranged in it, and wherein, described second surface 340 presses close to the sidewall of described guidance part 550, and under the guiding function of described guidance part 550, enter described holding tank 522.By the end of described turning cylinder 34 is set to flat, to facilitate the described turning cylinder 34 of adjustment and described turning cylinder 34 can be made to enter in described holding tank 522 smoothly, is also conducive to described turning cylinder 34 in addition and shifts out in described holding tank 522.Described holding tank 522 is located along the same line along on the translation direction of described conveyer belt 20 with described guidance part 550, to ensure the translation direction of described load bearing seat 30.

Please refer to Fig. 1 to Fig. 4, further, described guidance set 50 also comprises and being fixedly installed in frame and installing plate 56 between described guide pad 55 and described drive unit 40, described guide pad 55 and described drive unit 40 are fixedly installed in two apparent surfaces of described installing plate 56 respectively, and described guide pad 55 is between described conveyer belt 20 and described installing plate 56.Preferably, described installing plate 56 is provided with the locating slot 560 coordinated with described guide pad 55, and described guide pad 55 to be partially housed in described locating slot 560 and to be fixed on described installing plate 56.

In this embodiment, described double rotating mechanism also comprises and described holder 52 is limited to the confinement block 57 on described installing plate 56 and described drive unit 40 is fixed on the fixed block 58 on described installing plate 56, described confinement block 57 is oppositely arranged with described fixed block 58, utilizes described confinement block 57 to avoid described holder 52 relative to described installing plate 56 bob.

Please refer to Fig. 1 to Fig. 4, further, at least two described load bearing seats 30 guide through at least two corresponding described guidance sets 50 side by side on described conveyer belt 20 and simultaneously and rotate with the described drive unit 40 with correspondence.Preferably, the quantity of the described load bearing seat 30 of described same row is two.By being arranged side by side by least two described load bearing seats 30, to increase work efficiency, reduce manufacturing cost.

The utility model laser marking device that also embodiment provides comprises above-mentioned double rotating mechanism.Double rotating mechanism in the present embodiment has identical structure with the double rotating mechanism in the various embodiments described above and closes identical effect, does not repeat herein.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all do within spirit of the present utility model and principle any amendment, equivalent to replace and improvement etc., all should be included within protection domain of the present utility model.

Claims (10)

1. a double rotating mechanism, it is characterized in that, comprise drive workpiece translational motion and for plate chain structure conveyer belt, multiple be installed on described conveyer belt with carry described workpiece load bearing seat, drive described load bearing seat to rotate relative to described conveyer belt and there is the drive unit of output shaft and the guidance set for guiding described load bearing seat; Described guidance set comprises one end and is fixed on described output shaft and the other end arranges for clamping described load bearing seat to make described load bearing seat carry the holder of described workpiece with described drive unit synchronous axial system and the throughput direction along described conveyer belt and in described conveyer belt moving process, adjusts described load bearing seat described load bearing seat to be imported the guide pad in described holder.

2. double rotating mechanism as claimed in claim 1, it is characterized in that, described load bearing seat comprise be arranged on described conveyer belt and with the pedestal of described conveyer belt movement, be fixedly connected with described pedestal and pass described conveyer belt and be coaxially fixedly connected on described pedestal for the reach clamping described workpiece with the turning cylinder coordinated with described holder and with described turning cylinder.

3. double rotating mechanism as claimed in claim 2, is characterized in that, described carrying the tip of the axis is provided with the first surface axially arranged along it and the location division formed for limiting described workpiece.

4. double rotating mechanism as claimed in claim 2, is characterized in that, described holder comprises the clamping head that is positioned at the same side with described guide pad and outstandingly along described clamping head surface to extend and the power transmission shaft be coaxially fixedly connected with described output shaft.

5. double rotating mechanism as claimed in claim 4, it is characterized in that, described clamping head is provided with the holding tank of locating described turning cylinder, described guide pad is provided with and guides described turning cylinder to move into guidance part in described holding tank to make described turning cylinder in moving process, and described turning cylinder is coaxially connected with described power transmission shaft in time being limited in described holding tank.

6. double rotating mechanism as claimed in claim 5, is characterized in that, described guidance part is the triangular cut extended along described conveyer belt moving direction.

7. double rotating mechanism as claimed in claim 5, it is characterized in that, the end of described turning cylinder is flat, and described holding tank is square groove, and described holding tank and described guidance part are located along the same line.

8. double rotating mechanism as claimed in claim 1, it is characterized in that, described guidance set also comprises and being fixedly installed in frame and installing plate between described guide pad and described drive unit, described guide pad and described drive unit are fixedly installed in two apparent surfaces of described installing plate respectively, and described guide pad is between described conveyer belt and described installing plate.

9. double rotating mechanism as claimed in claim 1, is characterized in that, at least two described load bearing seats guide through at least two corresponding described guidance sets side by side on described conveyer belt and simultaneously and rotate with the described drive unit with correspondence.

10. a laser marking device, is characterized in that, comprises the double rotating mechanism as described in claim 1 to 9 any one.