CN205050465U - Planet wheel drive cam reversal demonstration appearance - Google Patents

Abstract

The utility model discloses a planet wheel drive cam reversal demonstration appearance, include the frame of constituteing by forebay and afer bay, pass the forebay circular through groove on the afer bay is provided with can be for the pivot of frame pivoted, be provided with drive arrangement in the pivot between being located on forebay, the afer bay, drive arrangement is used for the drive the pivot realizes rotating, be located the outside of forebay is provided with preceding cam corotation device, is located the outside of afer bay is provided with back cam reverse rotator. The utility model provides a planet wheel drive cam reversal demonstration appearance can show the just direction changing working process of cam, and the pressure angle in the time of can demonstrating the cam revolution again and move certain angle and the change process at transmission angle are visual in image, consequently can help the better understanding of classmates and grasp the knowledge point. In addition, because the product adopts manual rotation, can stop at any time, observe pressure angle, transmission angular variation at any time, it is very convenient consequently to use.

Description

Planetary gear driving cam reversion demonstrator

Technical field

The utility model relates to mechanical principle teaching equipment, and it is for the apparatus for demonstrating of mechanical principle cam motion, particularly planetary gear driving cam reversion demonstrator.

Background technology

During cam mechanism work, cam and driven member all in motion, in order to draw out the contour curve of cam on drawing, can adopt reversal process.For illustrated, its principle is illustrated to apex of the heart end reciprocating follower disk cam mechanism below.

As can be seen from Fig. 1 a: when cam rotates, the real motion situation of cam mechanism: cam rotates counterclockwise around axle O with constant angular velocity ω, promotes that driven member is upper and lower in guide passage moves back and forth.When driven member is in extreme lower position, cam profile curve and driven member at A point cantact, when cam turns over during angle, the radius vector OA of cam will forward on the position of OA ', and cam contour will forward the position shown in blue look dotted line in figure to.At this moment driven member tip rises to B ' from extreme lower position A, the distance s1=AB ' of rising.

As can be seen from Fig. 1 b: adopt reversal process, the motion conditions of cam mechanism: imagination cam maintains static now, and allows driven member turn over angular velocity (-ω) around O point together with guide passage angle, now driven member will rotate with angular velocity (-ω) with guide passage on the one hand, do again relative movement simultaneously, move to the position in figure shown in dotted line in guide passage.Now the distance that moves up of driven member is identical with front.Position B now occupied by driven member tip must be a bit on cam profile curve.If continue counter driven part, other point on cam profile curve can be obtained.Because this method is that supposition cam maintains static and makes driven member reverse together with guide passage, therefore claim reversal process (or kinematic inversion).The form of cam mechanism is varied, and reversal process principle is applicable to the design of various cam profile curve.

In daily teaching, the ultimate principle of design of cam profile curve institute foundation is reversal process principle.As illustrated in figure 1 c, a biased translation apex throwout lever disk cam organization is provided with.The axis of its push rod and cam turn round between axle center an offset distance.When cam sways with angular velocity omega, push rod realizes the motion expected under the promotion of cam.Now imagine and add a common angles speed-ω to whole cam mechanism, make it around axis rotation.At this moment the relative motion between cam and push rod does not change, but now cam by transfixion, push rod then on the one hand with its guide rail with angular velocity-ω around axis rotation, successively through the position of A, B, in guide rail, do again the to-and-fro movement expected on the other hand.Now, push rod is in this compound motion, and its pinnacle movement locus is cam profile curve, then draw according to the heterodromous track of push rod the reversal process principle that cam profile curve is design of cam profile curve.

This cam reversal process principle is that mechanical principle course cam mechanism learns very part and parcel, but can only state from theory in teaching at present, only have simple figure writing on the blackboard, and there is no concrete demonstrating model, so that just the student of contact machinery is difficult to understand, and study has very large difficulty.

Utility model content

The purpose of this utility model is to provide a kind of planetary gear driving cam reversion demonstrator, to solve the problem.

In order to achieve the above object, the technical solution of the utility model is achieved in that

The utility model provides a kind of planetary gear driving cam reversion demonstrator, comprise the frame be made up of forebay (A) and afer bay (B), described forebay (A), described afer bay (B) are equipped with circular groove and feather key, and being provided with through the circular groove on described forebay (A), described afer bay (B) can relative to the rotating shaft of gantry rotation (C); Rotating shaft (C) between being positioned on described forebay (A), described afer bay (B) is provided with drive unit; Described drive unit realizes rotating for driving described rotating shaft (C); The arranged outside being positioned at described forebay (A) has the positive rotary device of front cam, and the arranged outside being positioned at described afer bay (B) has rear cam inversion set;

The positive rotary device of described front cam is identical with described rear cam reversing device structure;

The positive rotary device of described front cam specifically comprises annular wheel (1), transverse slat (2), two-way bolt (3), nut (4), planet carrier (5), axle (6), planetary gear (7), neutral gear (8), cam (9), push rod (10), pin (11), spring (12), contact plate (13), axle (14), the first laser lamp, the second laser lamp and the 3rd laser lamp;

Rotate forward in apparatus structure in front cam, each structure above-mentioned has following connected mode, position relationship and topology layout: the rotating shaft (C) in described forebay (A) outside is coaxially installed with annular wheel (1), and is fixed on forebay (A) by pin (11); Described annular wheel (1) top groove is placed with transverse slat (2), and be fixed on annular wheel (1) by two-way bolt (3) and nut (4), for realize push rod (10) bias and to the heart; Planet carrier (5) is provided with between described annular wheel (1) and rotating shaft (C), one end key of described planet carrier (5) is connected in described rotating shaft (C), and the other end key of described planet carrier 5 is connected with axle (6); And the planetary gear (7) that centre is provided with circular groove is sleeved on axle (6), make described planetary gear (7) and described annular wheel (1) internal messing; The neutral gear (8) that centre is provided with circular groove and gathering sill is sleeved in rotating shaft (C), be stuck in the gathering sill of described neutral gear (8) for making the feather key of rotating shaft (C) and realize key connection, and described neutral gear (8) and described planetary gear (7) external toothing; Be positioned at described neutral gear (8) and the outside front of described planetary gear (7), rotating shaft (C) with axle (6) are set with cam (9); Circle hole sleeve on described transverse slat (2) loads onto push rod (10), described push rod (10) and described annular wheel (1) intermediate sleeve load onto spring (12), are in contact condition for making push rod and cam always; One through hole is arranged at the bottom of described push rod, use axle (14) to sell and link, and contact plate (13) contacts with cam (9) for making itself and contact plate (13);

Described push rod (10) bottom is provided with the first laser lamp and the second laser lamp, and along bar straight up, described second laser lamp direction of illumination is parallel to frame and irradiates to both sides perpendicular to push rod (10) described first laser lamp direction of illumination; Described contact plate (13) is provided with the 3rd laser lamp, described 3rd laser lamp direction of illumination is parallel to frame and irradiates vertically upward perpendicular to contact plate; The ray intersection of described three laser lamps is in a bit, and the angle of three is pressure angle and drive line angle.

Preferably, can embodiment as one, in the rear in cam reversing device structure:

Described rear cam inversion set specifically comprises annular wheel (1), transverse slat (2), two-way bolt (3), nut (4), planet carrier (5), axle (6), planetary gear (7), neutral gear (8), cam (9), push rod (10), pin (11), spring (12), contact plate (13), axle (14), the first laser lamp, the second laser lamp and the 3rd laser lamp;

In rear cam reversing device structure, each structure above-mentioned has following connected mode, position relationship and topology layout:

Described afer bay (B) outside rotating shaft (C) is coaxially installed with annular wheel (1), and is fixed on afer bay (B) by pin (11); Described annular wheel (1) top groove is placed with transverse slat (2), and be fixed on annular wheel (1) by two-way bolt (3) and nut (4), for realize push rod (10) bias and to the heart;

Planet carrier (5) is provided with between described annular wheel (1) and rotating shaft (C), one end key of described planet carrier (5) is connected in described rotating shaft (C), and the other end key of described planet carrier 5 is connected with axle (6); And the planetary gear (7) that centre is provided with circular groove is sleeved on axle (6), for making described planetary gear (7) and described annular wheel (1) internal messing; The neutral gear (8) that centre is provided with circular groove and gathering sill is sleeved in rotating shaft (C), be stuck in the gathering sill of described neutral gear (8) for making the feather key of rotating shaft (C) and realize key connection, and described neutral gear (8) and described planetary gear (7) external toothing; Be positioned at described neutral gear (8) and the outside front of described planetary gear (7), rotating shaft (C) with axle (6) are set with cam (9); Circle hole sleeve on described transverse slat (2) loads onto push rod (10), and described push rod (10) and annular wheel (1) intermediate sleeve load onto spring (12), are that push rod and cam are in contact condition always; One through hole is arranged at the bottom of described push rod, use axle (14) to sell and link, and contact plate (13) contacts with cam (9) for making itself and contact plate (13);

Described push rod (10) bottom is provided with the first laser lamp and the second laser lamp, and along bar straight up, described second laser lamp direction of illumination is parallel to frame and irradiates to both sides perpendicular to push rod (10) described first laser lamp direction of illumination; Described contact plate (13) is provided with the 3rd laser lamp, described 3rd laser lamp direction of illumination is parallel to frame and irradiates vertically upward perpendicular to contact plate; The ray intersection of three above-mentioned laser lamps (the first laser lamp and the second laser lamp and the 3rd laser lamp) is in a bit, and the angle of three is pressure angle and drive line angle.

Preferably, can embodiment as one, rotate forward in apparatus structure in front cam,

The outside front rotating shaft (C) of described cam (9) is also screwed with described nut (4), and described nut (4) moves axially and is convenient for changing described cam (9) for fixing each part spacing.

Preferably, can embodiment as one, in rear cam reversing device structure,

The outside front rotating shaft (C) of described cam (9) is also screwed with described nut (4), and described nut (4) moves axially and is convenient for changing described cam (9) for fixing each part spacing.

Preferably, can embodiment as one, the bottom of described forebay (A) and described afer bay (B) is also provided with base for supporting; Described forebay (A) and described afer bay (B) are fixedly connected on the end face of described base for supporting.

Preferably, can embodiment as one, the end face of described base for supporting is also provided with two reinforcements; Reinforcement described in one of them is arranged between described base for supporting and described forebay (A); Reinforcement described in another is arranged between described base for supporting and described afer bay (B).

Preferably, can embodiment as one, described reinforcement is leg-of-mutton reinforcement version.

Compared with prior art, the advantage of the utility model embodiment is:

A kind of planetary gear driving cam reversion demonstrator that the utility model provides, wherein, the positive rotary device of front cam, (being positioned at middle part) drive unit, rear cam inversion set.This product can either show the course of work of the rotating of cam, can demonstrate again the change procedure of pressure angle when cam often turns an angle and drive line angle, visual in image, therefore, it is possible to help classmates better understand and grasp knowledge point.In addition, because product adopts hand rotation, can stop at any time, observe pressure angle, drive line angle change at any time, therefore very easy to use.

The planetary gear driving cam reversion demonstrator of the utility model embodiment can meet education, teaching request, all very succinct, cheer and bright from profile to internal structure, is highly suitable for the experimental teaching to mechanical principle subject of each universities and colleges.

Accompanying drawing explanation

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is 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 a is camming movement principle key diagram of the prior art;

Fig. 1 b is cam reversal process principle key diagram of the prior art;

Fig. 1 c is another cam reversal process principle key diagram of the prior art;

The three-dimensional general assembly (GA) structural representation of the planetary gear driving cam reversion demonstrator that Fig. 2 provides for the utility model embodiment;

The planetary gear driving cam reversion demonstrator that Fig. 3 provides for the utility model embodiment removes the three-dimensional partial assembled structural representation after cam;

The detonation configuration schematic diagram of the planetary gear driving cam reversion demonstrator that Fig. 4 provides for the utility model embodiment in Fig. 2;

Annular wheel in the planetary gear driving cam reversion demonstrator that Fig. 5 provides for the utility model embodiment, three-dimensional assembly structure schematic diagram between neutral gear and planetary gear;

Fig. 5 a is the main TV structure schematic diagram of Fig. 5;

The three-dimensional design of part schematic diagram of the cam of the planetary gear driving cam reversion demonstrator that Fig. 6 provides for the utility model embodiment;

Fig. 6 a is the main TV structure schematic diagram of Fig. 6;

The three-dimensional design of part schematic diagram of planet carrier in the planetary gear driving cam reversion demonstrator that Fig. 7 provides for the utility model embodiment;

Fig. 7 a is the main TV structure schematic diagram of Fig. 7.

Embodiment

Be clearly and completely described the technical solution of the utility model below in conjunction with accompanying drawing, obviously, described embodiment is the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

In description of the present utility model, it should be noted that, orientation or the position relationship of the instruction such as term " " center ", " on ", D score, "left", "right", " vertically ", " level ", " interior ", " outward " they be based on orientation shown in the drawings or position relationship; be only the utility model and simplified characterization for convenience of description; instead of instruction or imply the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore can not be interpreted as restriction of the present utility model.In addition, term " first ", " second ", " the 3rd " only for describing object, and can not be interpreted as instruction or hint relative importance.

In description of the present utility model, it should be noted that, unless otherwise clearly defined and limited, term " installation ", " being connected ", " connection " should be interpreted broadly, and such as, can be fixedly connected with, also can be removably connect, or connect integratedly; Can be mechanical connection, also can be electrical connection; Can be directly be connected, also indirectly can be connected by intermediary, can be the connection of two element internals.For the ordinary skill in the art, concrete condition the concrete meaning of above-mentioned term in the utility model can be understood.

Also by reference to the accompanying drawings the utility model is described in further detail below by specific embodiment.

See Fig. 2, Fig. 3 and Fig. 4, a kind of planetary gear driving cam reversion demonstrator that the utility model embodiment provides, comprise the frame be made up of forebay A and afer bay B, described forebay A, described afer bay B are equipped with circular groove and feather key, and being provided with through the circular groove on described forebay A, described afer bay B can relative to the rotating shaft C of gantry rotation; Rotating shaft C between on described forebay A, described afer bay B is provided with drive unit; Described drive unit realizes rotating for driving described rotating shaft C; The arranged outside being positioned at described forebay A has the positive rotary device of front cam, and the arranged outside being positioned at described afer bay B has rear cam inversion set;

The positive rotary device of described front cam is identical with described rear cam reversing device structure;

The positive rotary device of described front cam specifically comprise annular wheel 1 (see also Fig. 5 and Fig. 5 a), transverse slat 2, two-way bolt 3, nut 4, planet carrier 5 (see also Fig. 7 and Fig. 7 a), axle 6, planetary gear 7, neutral gear 8, cam 9 (see also Fig. 6 and Fig. 6 a), push rod 10, pin 11, spring 12, contact plate 13, axle 14, first laser lamp (not shown), the second laser lamp (not shown) and the 3rd laser lamp (not shown);

Rotate forward in apparatus structure in front cam, each structure above-mentioned has following connected mode, position relationship and topology layout: the rotating shaft C outside described forebay A is coaxially installed with annular wheel 1, and is fixed on forebay A by pin 11; Described annular wheel 1 top groove is placed with transverse slat 2, and is fixed on annular wheel 1 by two-way bolt 3 and nut 4, for the bias that realizes push rod 10 with to the heart; Be provided with planet carrier 5 between described annular wheel 1 and rotating shaft C, one end key of described planet carrier 5 is connected in described rotating shaft C, and the other end key of described planet carrier 5 is connected with axle 6; And the planetary gear 7 that centre is provided with circular groove is sleeved on axle 6, make described planetary gear 7 and described annular wheel 1 internal messing; The neutral gear 8 that centre is provided with circular groove and gathering sill is sleeved in rotating shaft C, is stuck in the gathering sill of described neutral gear 8 realizes key connection for making the feather key of rotating shaft C, and described neutral gear 8 and the external toothing of described planetary gear 7; Be positioned at described neutral gear 8 and the outside front of described planetary gear 7, rotating shaft C and axle 6 are set with cam 9; Circle hole sleeve on described transverse slat 2 loads onto push rod 10, and described push rod 10 loads onto spring 12 with described annular wheel 1 intermediate sleeve, is in contact condition for making push rod and cam always; One through hole is arranged at the bottom of described push rod, use axle 14 to sell and link, and contact plate 13 contacts with cam 9 for making itself and contact plate 13;

Be provided with the first laser lamp and the second laser lamp bottom described push rod 10, along bar straight up, described second laser lamp direction of illumination is parallel to frame and irradiates to both sides perpendicular to push rod 10 described first laser lamp direction of illumination; Described contact plate 13 is provided with the 3rd laser lamp, described 3rd laser lamp direction of illumination is parallel to frame and irradiates vertically upward perpendicular to contact plate; The ray intersection of described three laser lamps is in a bit, and the angle of three is pressure angle and drive line angle.

In the rear in cam reversing device structure:

Described rear cam inversion set specifically comprises annular wheel 1, transverse slat 2, two-way bolt 3, nut 4, planet carrier 5, axle 6, planetary gear 7, neutral gear 8, cam 9, push rod 10, pin 11, spring 12, contact plate 13, axle 14, first laser lamp, the second laser lamp and the 3rd laser lamp;

In rear cam reversing device structure, each structure above-mentioned has following connected mode, position relationship and topology layout:

Outside described afer bay B, rotating shaft C is coaxially installed with annular wheel 1, and is fixed on afer bay B by pin 11; Described annular wheel 1 top groove is placed with transverse slat 2, and is fixed on annular wheel 1 by two-way bolt 3 and nut 4, for the bias that realizes push rod 10 with to the heart;

Be provided with planet carrier 5 between described annular wheel 1 and rotating shaft C, one end key of described planet carrier 5 is connected in described rotating shaft C, and the other end key of described planet carrier 5 is connected with axle 6; And the planetary gear 7 that centre is provided with circular groove is sleeved on axle 6, for making described planetary gear 7 and described annular wheel 1 internal messing; The neutral gear 8 that centre is provided with circular groove and gathering sill is sleeved in rotating shaft C, is stuck in the gathering sill of described neutral gear 8 realizes key connection for making the feather key of rotating shaft C, and described neutral gear 8 and the external toothing of described planetary gear 7; Be positioned at described neutral gear 8 and the outside front of described planetary gear 7, rotating shaft C and axle 6 are set with cam 9; Circle hole sleeve on described transverse slat 2 loads onto push rod 10, and described push rod 10 loads onto spring 12 with annular wheel 1 intermediate sleeve, is that push rod and cam are in contact condition always; One through hole is arranged at the bottom of described push rod, use axle 14 to sell and link, and contact plate 13 contacts with cam 9 for making itself and contact plate 13;

Be provided with the first laser lamp and the second laser lamp bottom described push rod 10, along bar straight up, described second laser lamp direction of illumination is parallel to frame and irradiates to both sides perpendicular to push rod 10 described first laser lamp direction of illumination; Described contact plate 13 is provided with the 3rd laser lamp, described 3rd laser lamp direction of illumination is parallel to frame and irradiates vertically upward perpendicular to contact plate; The ray intersection of described three laser lamps is in a bit, and the angle of three is pressure angle and drive line angle.

The concrete technical pattern of the planetary gear driving cam reversion demonstrator provided the utility model embodiment below and concrete technique effect do and describe in detail:

Rotate forward in apparatus structure in front cam,

The outside front rotating shaft C of described cam 9 is also screwed with described nut 4, and described nut 4 moves axially and is convenient for changing described cam 9 for fixing each part spacing.

In rear cam reversing device structure,

The outside front rotating shaft C of described cam 9 is also screwed with described nut 4, and described nut 4 moves axially and is convenient for changing described cam 9 for fixing each part spacing.

It should be noted that, at front cam rotating forward apparatus structure and in rear cam reversing device structure: the rotating shaft C of the outside front of each cam 9 is provided with a nut 4, above-mentioned nut 4 is dismountable to be connected in rotating shaft C, for to limiting moving axially of each part, and cam 9 is facilitated to be replaced by the cam of other shapes.

In concrete structure, the bottom of described forebay A and described afer bay B is also provided with base for supporting; Described forebay A and described afer bay B is fixedly connected on the end face of described base for supporting.

In concrete structure, the end face of described base for supporting is also provided with two reinforcements; Reinforcement described in one of them is arranged between described base for supporting and described forebay A; Reinforcement described in another is arranged between described base for supporting and described afer bay B.

In concrete structure, described reinforcement is leg-of-mutton reinforcement version.

It should be noted that, above-mentioned base for supporting is mainly used in supporting and is fixedly connected with two frames vertically arranged; Simultaneously in structures such as rotating shaft C, annular wheels 1 in rotation process, the trace of frame and each structure will inevitably be caused to vibrate, affect Visual Observations Observations effect.For this reason, above-mentioned base for supporting there is also mounted leg-of-mutton reinforcement gusset, leg-of-mutton reinforcement gusset is fixed between base for supporting and frame, can effectively support frame and fix.Therefore, the planetary gear driving cam reversion demonstrator that the utility model embodiment provides is when demonstrating reversal process motion process, and transmission smooth steady between each gear, connect closely between each structure, the Stability Analysis of Structures of the whole demonstrator of composition, reliability is strong.

The motion interaction relation analyzed before the inner structure of the planetary gear driving cam reversion demonstrator that the utility model embodiment provides is known: rotate forward device for front cam, as shown in Figure 2, when the drive unit drive shaft C at middle part axially turns clockwise, annular wheel 1 and the neutral gear 8 of forebay A outside front all turn clockwise; Be with moving cam 9 to have the movement tendency of the acceleration turned clockwise simultaneously; Meanwhile, neutral gear 8 drives planetary gear 7 by gear external toothing effect, causes planetary gear 7 to revolve round the sun clockwise along neutral gear 8; Cam 9 also will turn clockwise simultaneously; Again because push rod 10 is fixed together with annular wheel 1, so push rod 10 can turn clockwise together with annular wheel 1 under the drive of transverse slat 2.Velocity of rotation due to annular wheel 1 is greater than cam 9 velocity of rotation, and therefore driven member and push rod 10 will move along cam 9 profile contacts; By observing the motion process between each structure of above-mentioned demonstrator, can be clear recognize cam return motion principle.

In sum, the utility model embodiment provide one (based on reversal process make) planetary gear driving cam reversion demonstrator.It comprises:, the positive rotary device of front cam, (being positioned at middle part) drive unit, rear cam inversion set.This product can either show the course of work of the rotating of cam, can demonstrate again the change procedure of pressure angle when cam often turns an angle and drive line angle, visual in image, therefore, it is possible to help classmates better understand and grasp knowledge point.In addition, because product adopts hand rotation, can stop at any time, observe pressure angle, drive line angle change at any time, therefore very easy to use.

The planetary gear driving cam reversion demonstrator of the utility model embodiment can meet education, teaching request, all very succinct, cheer and bright from profile to internal structure, is highly suitable for the experimental teaching to mechanical principle subject of each universities and colleges.

Last it is noted that above each embodiment is only in order to illustrate the technical solution of the utility model, be not intended to limit; Although be described in detail the utility model with reference to foregoing embodiments, those of ordinary skill in the art is to be understood that: it still can be modified to the technical scheme described in foregoing embodiments, or carries out equivalent replacement to wherein some or all of technical characteristic; And these amendments or replacement, do not make the essence of appropriate technical solution depart from the scope of each embodiment technical scheme of the utility model.

Claims (7)

1. a planetary gear driving cam reversion demonstrator, it is characterized in that, comprise the frame be made up of forebay (A) and afer bay (B), described forebay (A), described afer bay (B) are equipped with circular groove and feather key, and being provided with through the circular groove on described forebay (A), described afer bay (B) can relative to the rotating shaft of gantry rotation (C); Rotating shaft (C) between being positioned on described forebay (A), described afer bay (B) is provided with drive unit; Described drive unit realizes rotating for driving described rotating shaft (C); The arranged outside being positioned at described forebay (A) has the positive rotary device of front cam, and the arranged outside being positioned at described afer bay (B) has rear cam inversion set;

The positive rotary device of described front cam is identical with described rear cam reversing device structure;

The positive rotary device of described front cam specifically comprises annular wheel (1), transverse slat (2), two-way bolt (3), nut (4), planet carrier (5), axle (6), planetary gear (7), neutral gear (8), cam (9), push rod (10), pin (11), spring (12), contact plate (13), axle (14), the first laser lamp, the second laser lamp and the 3rd laser lamp;

Rotate forward in apparatus structure in front cam, each structure above-mentioned has following connected mode, position relationship and topology layout: the rotating shaft (C) in described forebay (A) outside is coaxially installed with annular wheel (1), and is fixed on forebay (A) by pin (11); Described annular wheel (1) top groove is placed with transverse slat (2), and be fixed on annular wheel (1) by two-way bolt (3) and nut (4), for realize push rod (10) bias and to the heart; Planet carrier (5) is provided with between described annular wheel (1) and rotating shaft (C), one end key of described planet carrier (5) is connected in described rotating shaft (C), and the other end key of described planet carrier (5) is connected with axle (6); And the planetary gear (7) that centre is provided with circular groove is sleeved on axle (6), make described planetary gear (7) and described annular wheel (1) internal messing; The neutral gear (8) that centre is provided with circular groove and gathering sill is sleeved in rotating shaft (C), be stuck in the gathering sill of described neutral gear (8) for making the feather key of rotating shaft (C) and realize key connection, and described neutral gear (8) and described planetary gear (7) external toothing; Be positioned at described neutral gear (8) and the outside front of described planetary gear (7), rotating shaft (C) with axle (6) are set with cam (9); Circle hole sleeve on described transverse slat (2) loads onto push rod (10), described push rod (10) and described annular wheel (1) intermediate sleeve load onto spring (12), are in contact condition for making push rod and cam always; One through hole is arranged at the bottom of described push rod (10), use axle (14) to sell and link, and contact plate (13) contacts with cam (9) for making itself and contact plate (13);

Described push rod (10) bottom is provided with the first laser lamp and the second laser lamp, and along bar straight up, described second laser lamp direction of illumination is parallel to frame and irradiates to both sides perpendicular to push rod (10) described first laser lamp direction of illumination; Described contact plate (13) is provided with the 3rd laser lamp, described 3rd laser lamp direction of illumination is parallel to frame and irradiates vertically upward perpendicular to contact plate; The ray intersection of three laser lamps is in a bit, and the angle of three is pressure angle and drive line angle.

2. planetary gear driving cam reversion demonstrator as claimed in claim 1, is characterized in that,

In the rear in cam reversing device structure:

Described rear cam inversion set specifically comprises annular wheel (1), transverse slat (2), two-way bolt (3), nut (4), planet carrier (5), axle (6), planetary gear (7), neutral gear (8), cam (9), push rod (10), pin (11), spring (12), contact plate (13), axle (14), the first laser lamp, the second laser lamp and the 3rd laser lamp;

In rear cam reversing device structure, each structure above-mentioned has following connected mode, position relationship and topology layout:

Described afer bay (B) outside rotating shaft (C) is coaxially installed with annular wheel (1), and is fixed on afer bay (B) by pin (11); Described annular wheel (1) top groove is placed with transverse slat (2), and be fixed on annular wheel (1) by two-way bolt (3) and nut (4), for realize push rod (10) bias and to the heart;

Planet carrier (5) is provided with between described annular wheel (1) and rotating shaft (C), one end key of described planet carrier (5) is connected in described rotating shaft (C), and the other end key of described planet carrier (5) is connected with axle (6); And the planetary gear (7) that centre is provided with circular groove is sleeved on axle (6), for making described planetary gear (7) and described annular wheel (1) internal messing; The neutral gear (8) that centre is provided with circular groove and gathering sill is sleeved in rotating shaft (C), be stuck in the gathering sill of described neutral gear (8) for making the feather key of rotating shaft (C) and realize key connection, and described neutral gear (8) and described planetary gear (7) external toothing; Be positioned at described neutral gear (8) and the outside front of described planetary gear (7), rotating shaft (C) with axle (6) are set with cam (9); Circle hole sleeve on described transverse slat (2) loads onto push rod (10), and described push rod (10) and annular wheel (1) intermediate sleeve load onto spring (12), are that push rod and cam are in contact condition always; One through hole is arranged at the bottom of described push rod, use axle (14) to sell and link, and contact plate (13) contacts with cam (9) for making itself and contact plate (13);

Described push rod (10) bottom is provided with the first laser lamp and the second laser lamp, and along bar straight up, described second laser lamp direction of illumination is parallel to frame and irradiates to both sides perpendicular to push rod (10) described first laser lamp direction of illumination; Described contact plate (13) is provided with the 3rd laser lamp, described 3rd laser lamp direction of illumination is parallel to frame and irradiates vertically upward perpendicular to contact plate; The ray intersection of described three laser lamps is in a bit, and the angle of three is pressure angle and drive line angle.

3. planetary gear driving cam reversion demonstrator as claimed in claim 1, is characterized in that,

Rotate forward in apparatus structure in front cam,

The outside front rotating shaft (C) of described cam (9) is also screwed with described nut (4), and described nut (4) moves axially and is convenient for changing described cam (9) for fixing each part spacing.

4. planetary gear driving cam reversion demonstrator as claimed in claim 2, is characterized in that,

In rear cam reversing device structure,

The outside front rotating shaft (C) of described cam (9) is also screwed with described nut (4), and described nut (4) moves axially and is convenient for changing described cam (9) for fixing each part spacing.

5. the planetary gear driving cam reversion demonstrator as described in any one of claim 1-4, is characterized in that,

The bottom of described forebay (A) and described afer bay (B) is also provided with base for supporting; Described forebay (A) and described afer bay (B) are fixedly connected on the end face of described base for supporting.

6. planetary gear driving cam reversion demonstrator as claimed in claim 5, is characterized in that,

The end face of described base for supporting is also provided with two reinforcements; Reinforcement described in one of them is arranged between described base for supporting and described forebay (A); Reinforcement described in another is arranged between described base for supporting and described afer bay (B).

7. planetary gear driving cam reversion demonstrator as claimed in claim 6, is characterized in that,

Described reinforcement is leg-of-mutton reinforcement version.