CN204607004U - A kind of conical flask shunting transmission apparatus - Google Patents

Abstract

The utility model discloses a kind of conical flask shunting transmission apparatus, comprise linear conveying device, shunting conveying mechanism, channel-dividing device; Linear conveying device comprises a pair straight line supply unit, horizontal feed base plate; Shunting conveying mechanism comprises two shunting feedways, and each shunting feedway is all connected with linear conveying device; Channel-dividing device is positioned at the joining place of shunting conveying mechanism and linear conveying device, and channel-dividing device comprises swinging block.First conical flask is hold by a pair straight line supply unit of linear conveying device and moves ahead, and so, conical flask can be avoided to topple in operational process; Afterwards, channel-dividing device carrys out the conical flask quantity in controlling run to each shunting feedway by the swing of swinging block; Conical flask is delivered to packing machine place by each shunting feedway quantitatively, by packing machine by the vanning of conical flask batch.

Description

A kind of conical flask shunting transmission apparatus

Technical field

The utility model relates to beverage bottle conveying technology field, in particular to a kind of conical flask shunting transmission apparatus.

Background technology

As shown in Figure 1, a kind of conical flask 90, by prior art, transport tape 80 mean level transmitting described conical flask 90 is in process of production arranged, that is, transport tape 80 drives conical flask 90 displacement by the contact friction force of itself and conical flask 90 bottom surface.But, there is following drawback in this kind of mode of movement: as shown in Figure 1, when the conical flask 90-a being positioned at front runs into obstacle, or skids with transport tape 80, or the conical flask 90-b running velocity being positioned at its rear is greater than the conical flask 90-a in its front, the conical flask 90-b being positioned at rear easily topples over.

Utility model content

The technical matters that the utility model solves: in prior art, for the horizontal transmission bands of conical flask, the front conical flask run thereon runs into obstacle, or skid with transport tape, or the conical flask running velocity being positioned at rear is when being greater than the conical flask in its front, the conical flask being positioned at rear is easily toppled over.

The utility model provides following technical scheme:

A kind of conical flask shunting transmission apparatus, comprises linear conveying device, shunting conveying mechanism, channel-dividing device;

Described linear conveying device comprises straight line supply unit, horizontal feed base plate, described straight line supply unit comprises transport tape, for driving the pair of rolls of transport tape, the motor for driven roller rotation, described pair of rolls is vertically articulated on horizontal feed base plate, the quantity of described straight line supply unit is two, described two straight line supply units are disposed in parallel on horizontal feed base plate, and the gap width between described two straight line supply units equals the maximum outside diameter value of conical flask;

Described shunting conveying mechanism comprises two shunting feedways, described two shunting feedways are horizontally disposed with, overlook shunting conveying mechanism, described shunting conveyer forms a V-arrangement, the narrow end of described V-arrangement shunting conveying mechanism is connected with linear conveying device, wherein, one end of described two shunting feedways is connected with linear conveying device respectively;

Described channel-dividing device be positioned at shunting conveying mechanism and linear conveying device joining place and inside the narrow end being positioned at V-arrangement shunting conveying mechanism, the centre of described channel-dividing device between two shunting feedways; Described channel-dividing device comprises swinging block, oscillating axle, motor, described swinging block is fixedly mounted on one end of oscillating axle, the other end of described oscillating axle connects with motor, described oscillating axle is vertically arranged, when described swinging block pendulum is to feedway place, one of shunting conveying mechanism shunting, can stop that the conical flask transported from linear conveying device enters this shunting feedway.

By technique scheme, conical flask enters the gap between two straight line supply units by the entrance of linear conveying device, motor drives transport tape to run by roller, the transport tape constant speed of two straight line supply units is run in the same way, because the gap width between two straight line supply units equals the maximum outside diameter value of conical flask, so the transport tape that two straight line supply units are positioned at clearance side contacts with conical flask maximum outside diameter place, and hold conical flask and be fed forward.So, each conical flask can be made to run in linear conveying device relatively independently, can not occur because front conical flask runs into obstacle, or skid with transport tape, or the conical flask running velocity being positioned at rear is greater than the conical flask in its front and causes the conical flask being positioned at rear to be toppled over.

When conical flask moves to the exit of linear conveying device, the swinging block of channel-dividing device swings under the driving of oscillating axle between two shunting feedways.When swinging block pendulum is to one of two shunting feedways feedway place, shunting, conical flask cannot enter this shunting feedway, and flows in another shunting feedway.So, operating personal is by arranging the hunting frequency of swinging block and controlling to flow to from linear conveying device the conical flask quantity of each shunting feedway.

By technique scheme, after conical flask carries out overturning-preventing conveying by linear conveying device, enter quantitatively under the shunting of channel-dividing device in each shunting feedway in the conveying mechanism of shunting.By each shunting feedway, conical flask is delivered to packing machine quantitatively again, by packing machine by the vanning of conical flask batch.

As the one explanation of the utility model to channel-dividing device, described swinging block comprises great circle arc end, small arc-shaped end, pars intermedia, described pars intermedia two sides are plane, one end of described pars intermedia two sides and the side of great circle arc end tangent, the other end of described pars intermedia two sides and the side of small arc-shaped end tangent, described great circle arc end opens has mounting hole, the hole heart line of described mounting hole overlaps with the arc core line of great circle arc end, and described swinging block is fixedly mounted on oscillating axle by mounting hole.

Illustrate the one of shunting conveying mechanism as the utility model, described shunting feedway comprises transporting chain plate, common drive chain; Described transporting chain plate is horizontally disposed with, and described transporting chain plate is closed circular, and described transporting chain plate is divided into two-layer up and down; Also in closed circular on described common drive chain, described common drive chain is divided into outside two, and the outside of described common drive chain is provided with some locating pieces, and the distance values of adjacent two locating pieces equals the maximum outside diameter value of conical flask; Locating piece on outside described common drive chain one is positioned at the top on transporting chain plate upper strata, and the distance value between this locating piece bottom surface and transporting chain plate upper strata end face is less than the height value of conical flask; Described transporting chain plate is equal with the running velocity of common conveyer chain, and the service direction being positioned at the locating piece of the top on transporting chain plate upper strata is identical with the service direction on transporting chain plate upper strata.By above-mentioned design, the conical flask exported from linear conveying device moves to the transporting chain plate of shunting feedway, and meanwhile, adjacent two locating pieces being in common drive chain corner are clamped on the sidewall of conical flask.Afterwards, run forward under the combined action of the locating piece of conical flask on transporting chain plate and common drive chain, so, the conical flask run forward in the feedway of shunting can not topple over phenomenon.

As the utility model further illustrating shunting conveying mechanism, inside the both ends of the described transporting chain plate in closed circular respectively with transporting chain plate sprocket engagement, one of described transporting chain plate sprocket wheel connects with motor driven systems; Inside the both ends of the described common drive chain in closed circular respectively with common drive sprocket engagement, one of described common drive sprocket wheel connects with motor driven systems.Wherein, described motor driven systems comprises motor, synchro, described synchro comprises input end, the first mouth, the second mouth, rotation centerline and the rotation centerline of the second mouth of described first mouth to be positioned on same perpendicular and mutually vertical, the output speed of described first mouth is equal with the output speed of the second mouth, described input end connects with motor, described first mouth connects with one of common drive sprocket wheel, and described second mouth connects with one of transporting chain plate sprocket wheel.By above-mentioned design, described transporting chain plate is equal with the running velocity of common conveyer chain to be realized by synchro.

As the utility model further illustrating synchro in the conveying mechanism of above-mentioned shunting, described synchro comprises housing, first S. A., second S. A., first cone gear, second cone gear, described first S. A. and the second S. A. are articulated in housing, described first cone gear is arranged on the first S. A., described second cone gear is arranged on the second S. A., described first S. A. and the second S. A. spatial vertical, described first cone gear and the engagement of the second cone gear, described first cone gear and the second cone gear measure-alike, housing is given prominence at the two ends of described first S. A., housing is given prominence in one end of described second S. A., one end of described first S. A. is input end, the other end of described first S. A. is the first mouth, one end that described second S. A. gives prominence to housing is the second mouth, described input end is connected by chain-drive mode with motor.

As the utility model, the one of shunting feedway in the conveying mechanism of shunting is improved, described shunting feedway comprises a pair positive stop strip, described positive stop strip is rectangular-shaped, strip groove is offered in described positive stop strip one side, described a pair positive stop strip is horizontally disposed with and is parallel to each other, described strip groove is established dorsad, and described common drive chain is positioned at strip groove, and the locating piece be located on outside common drive chain is positioned at outside strip groove.By above-mentioned improvement, when adjacent two locating pieces clamp a conical flask, the partial sidewall of conical flask leans against on a side of positive stop strip, so, can improve accuracy and the fastness of conical flask location.

As the utility model, the one of shunting feedway in the conveying mechanism of shunting is improved, described locating piece comprises fixed part, some valley and peak portion, described fixed part is fixed on common drive chain, described valley and peak portion arranged in a crossed manner, the material of described locating piece is rubber.As preferably, the quantity of described valley is three, and the quantity in described peak portion is four.Described valley and the arranged in a crossed manner of peak portion improve the degree of deformability of adjacent two locating pieces when clamping conical flask.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, the utility model is described further:

Fig. 1 is the schematic diagram that conical flask in the prior art horizontal transmission bands is run;

Fig. 2 is the structural representation of a kind of conical flask shunting of the utility model transmission apparatus;

Fig. 3 is A place enlarged drawing in Fig. 2;

Fig. 4 is the birds-eye view of Fig. 2;

Fig. 5 is B place enlarged drawing in Fig. 4;

Fig. 6 is the structural representation of Fig. 4 cathetus feedway;

Fig. 7 is the perspective view of Fig. 6;

Fig. 8 is the structural representation of shunting feedway in Fig. 4;

Fig. 9 is the sketch of Fig. 8;

Figure 10 is C place enlarged drawing in Fig. 9;

Figure 11 is D place enlarged drawing in Figure 10;

Figure 12 is the structural representation of channel-dividing device in Fig. 5.

Nomenclature in figure:

10-linear conveying device; 11-straight line supply unit; 111-transport tape; 112-roller; 113-motor; 12-horizontal feed base plate;

20-shunting conveying mechanism; The narrow end of 21-; 200-shunting feedway; 201-transporting chain plate; 202-common drive chain; 203-locating piece; 2031-fixed part; 2032-valley; 2033-peak portion; 204-transporting chain plate sprocket wheel; 205-motor driven systems; 2051-motor; 2052-synchro; 2052-a-first S. A.; 2052-b-second S. A.; 206-common drive sprocket wheel; 207-positive stop strip;

30-channel-dividing device; 31-swinging block; 311-great circle arc end; 312-small arc-shaped end; 313-pars intermedia; 32-oscillating axle;

80-horizontal transmission bands of the prior art;

90-conical flask; In 90-a-prior art, horizontal transmission bands is positioned at the conical flask in front; In 90-b-prior art, horizontal transmission bands is positioned at the conical flask at rear.

Detailed description of the invention

Composition graphs 2, Fig. 4, Fig. 5, a kind of conical flask shunting transmission apparatus, comprises linear conveying device 10, shunting conveying mechanism 20, channel-dividing device 30.

Composition graphs 6, Fig. 7, described linear conveying device 10 comprises straight line supply unit 11, horizontal feed base plate 12, described straight line supply unit 11 comprises transport tape 111, for driving the pair of rolls 112 of transport tape, the motor 113 for driven roller 112 rotation, described pair of rolls 112 is vertically articulated on horizontal feed base plate 12, the quantity of described straight line supply unit 11 is two, described two straight line supply units 11 are disposed in parallel on horizontal feed base plate 12, and the gap width between described two straight line supply units 11 equals the maximum outside diameter value of conical flask 90.

As shown in Figure 4, described shunting conveying mechanism 20 comprises two shunting feedways 200, described two shunting feedways 200 are horizontally disposed with, overlook shunting conveying mechanism 20, described shunting conveying mechanism 20 one-tenth one V-arrangements, the narrow end 21 of described V-arrangement shunting conveying mechanism 20 is connected with linear conveying device 10, and wherein, one end of described two shunting feedways 200 is connected with linear conveying device 10 respectively.

In described shunting conveying mechanism 20, composition graphs 8, Fig. 9, Figure 10, described shunting feedway 200 comprises transporting chain plate 201, common drive chain 202; Described transporting chain plate 201 is horizontally disposed with, and described transporting chain plate 201 is in closed circular, and described transporting chain plate 201 is divided into two-layer up and down; Also in closed circular on described common drive chain 202, described common drive chain 202 is divided into outside two, and the outside of described common drive chain 202 is provided with some locating pieces 203, and the distance values of adjacent two locating pieces 203 equals the maximum outside diameter value of conical flask 90; Locating piece 203 on outside described common drive chain 202 1 is positioned at the top on transporting chain plate 201 upper strata, and the distance value between this locating piece 203 bottom surface and transporting chain plate 201 upper strata end face is less than the height value of conical flask; Described transporting chain plate 201 is equal with the running velocity of common conveyer chain, and the service direction being positioned at the locating piece 203 of the top on transporting chain plate 201 upper strata is identical with the service direction on transporting chain plate 201 upper strata.

Based on above-mentioned shunting conveying mechanism 20, composition graphs 8, Fig. 9, Figure 10, engage with transporting chain plate sprocket wheel 204 respectively inside the both ends of the described transporting chain plate 201 in closed circular, one of described transporting chain plate sprocket wheel 204 connects with motor driven systems 205; Engage with common drive sprocket wheel 206 respectively inside the both ends of the described common drive chain 202 in closed circular, one of described common drive sprocket wheel 206 connects with motor driven systems 205.Wherein, composition graphs 2, Fig. 3, described motor driven systems 205 comprises motor 2051, synchro 2052, described synchro 2052 comprises housing, first S. A. 2052-a, second S. A. 2052-b, first cone gear, second cone gear, described first S. A. 2052-a and the second S. A. 2052-b is articulated in housing, described first cone gear is arranged on the first S. A. 2052-a, described second cone gear is arranged on the second S. A. 2052-b, described first S. A. 2052-a and the second S. A. 2052-b spatial vertical, described first cone gear and the engagement of the second cone gear, described first cone gear and the second cone gear measure-alike, housing is given prominence at the two ends of described first S. A. 2052-a, housing is given prominence in one end of described second S. A. 2052-b, one end of described first S. A. 2052-a is input end, the other end of described first S. A. 2052-a is the first mouth, one end that described second S. A. 2052-b gives prominence to housing is the second mouth, described input end is connected by chain-drive mode with motor 2051.The output speed of described first mouth is equal with the output speed of the second mouth, and described input end connects with motor 2051, and described first mouth connects with one of common drive sprocket wheel 206, and described second mouth connects with one of transporting chain plate sprocket wheel 204.

Based on above-mentioned shunting conveying mechanism 20, composition graphs 8, Fig. 9, Figure 10, described shunting feedway 200 comprises a pair positive stop strip 207, described positive stop strip 207 is in rectangular-shaped, strip groove is offered in described positive stop strip 207 1 side, and described a pair positive stop strip 207 is horizontally disposed with and is parallel to each other, and described strip groove is established dorsad, described common drive chain 202 is positioned at strip groove, and the locating piece 203 be located on outside common drive chain 202 is positioned at outside strip groove.

Based on above-mentioned shunting conveying mechanism 20, as shown in figure 11, described locating piece 203 comprises fixed part 2031, some valley 2032 and peak portion 2033, described fixed part 2031 is fixed on common drive chain 202, described valley 2032 and peak portion 2033 arranged in a crossed manner, the material of described locating piece 203 is rubber.The quantity of described valley 2032 is three, and the quantity in described peak portion 2033 is four.

Composition graphs 5, Figure 12, described channel-dividing device 30 be positioned at shunting conveying mechanism 20 and linear conveying device 10 joining place and inside the narrow end 21 being positioned at V-arrangement shunting conveying mechanism 20, the centre of described channel-dividing device 30 between two shunting feedways 200, described channel-dividing device 30 comprises swinging block 31, oscillating axle 32, motor, described swinging block 31 is fixedly mounted on one end of oscillating axle 32, the other end of described oscillating axle 32 connects with motor, described oscillating axle 32 is vertically arranged, when described swinging block 31 is put to feedway 200 place, one of shunting conveying mechanism 20 shunting, can stop that the conical flask transported from linear conveying device 10 enters this shunting feedway 200 wherein, as shown in figure 12, described swinging block 31 comprises great circle arc end 311, small arc-shaped end 312, pars intermedia 313, described pars intermedia 313 two sides are plane, one end of described pars intermedia 313 two sides and the side of great circle arc end 311 tangent, the other end of described pars intermedia 313 two sides and the side of small arc-shaped end 312 tangent, described great circle arc end 311 offers mounting hole, the hole heart line of described mounting hole overlaps with the arc core line of great circle arc end 311, described swinging block 31 is fixedly mounted on oscillating axle 32 by mounting hole.

In practical operation, conical flask 90 enters linear conveying device 10 by entrance.Particularly, conical flask 90 enters the gap between two straight line supply units 11, motor 113 drives transport tape 111 to run by roller 112, transport tape 111 constant speed of two straight line supply units 11 is run in the same way, because the gap width between two straight line supply units 11 equals the maximum outside diameter value of conical flask 90, so the transport tape 111 that two straight line supply units 11 are positioned at clearance side contacts with conical flask 90 maximum outside diameter place, and hold conical flask 90 and be fed forward.So, each conical flask 90 can be made to run in linear conveying device 10 relatively independently, can not occur because front conical flask 90 runs into obstacle, or skid with transport tape, or conical flask 90 running velocity being positioned at rear is greater than the conical flask 90 in its front and causes the conical flask 90 being positioned at rear to be toppled over.

When conical flask 90 moves to the exit of linear conveying device 10, the swinging block 31 of channel-dividing device 30 swings under the driving of oscillating axle 32 between two shunting feedways 200.When swinging block 31 is put to one of two shunting feedways feedway 200 place, shunting, conical flask 90 cannot enter this shunting feedway 200, and flows in another shunting feedway 200.So, operating personal is by arranging the hunting frequency of swinging block 31 and controlling to flow to from linear conveying device 10 conical flask 90 quantity of each shunting feedway 200.

Afterwards, the conical flask 90 exported from linear conveying device 10 moves to the transporting chain plate 201 of shunting feedway 200, and meanwhile, adjacent two locating pieces 203 being in common drive chain 202 corner are clamped on the sidewall of conical flask 90.Afterwards, run forward under the combined action of the locating piece 203 of conical flask 90 on transporting chain plate 201 and common drive chain 202, so, the conical flask 90 run forward in shunting feedway 200 can not topple over phenomenon.

Afterwards, then by each shunting feedway 200, conical flask 90 is delivered to packing machine quantitatively, by packing machine by the vanning of conical flask 90 batch.

Above content is only better embodiment of the present utility model, for those of ordinary skill in the art, according to thought of the present utility model, all will change in specific embodiments and applications, this description should not be construed as restriction of the present utility model.

Claims (9)

1. a conical flask shunting transmission apparatus, comprises linear conveying device (10), shunting conveying mechanism (20), described linear conveying device (10) comprises straight line supply unit (11), horizontal feed base plate (12), described straight line supply unit (11) comprises transport tape (111), for driving the pair of rolls (112) of transport tape, for the motor (113) that driven roller (112) rotates, described pair of rolls (112) is vertically articulated on horizontal feed base plate (12), the quantity of described straight line supply unit (11) is two, described two straight line supply units (11) are disposed in parallel on horizontal feed base plate (12), gap width between described two straight line supply units (11) equals the maximum outside diameter value of conical flask (90), described shunting conveying mechanism (20) comprises two shunting feedways (200), described two shunting feedways (200) are horizontally disposed with, overlook shunting conveying mechanism (20), described shunting conveying mechanism (20) becomes a V-arrangement, the narrow end (21) of described V-arrangement shunting conveying mechanism (20) is connected with linear conveying device (10), wherein, one end of described two shunting feedways (200) is connected with linear conveying device (10) respectively, it is characterized in that: also comprise channel-dividing device (30), described channel-dividing device (30) is positioned at the joining place of shunting conveying mechanism (20) and linear conveying device (10) and is positioned at narrow end (21) inner side in V-arrangement shunting conveying mechanism (20), and described channel-dividing device (30) is positioned at the centre between two shunting feedways (200), described channel-dividing device (30) comprises swinging block (31), oscillating axle (32), motor, described swinging block (31) is fixedly mounted on one end of oscillating axle (32), the other end of described oscillating axle (32) connects with motor, described oscillating axle (32) is vertically arranged, when described swinging block (31) pendulum is to one of shunting conveying mechanism (20) shunting feedway (200) place, can stop that the conical flask transported from linear conveying device (10) enters this shunting feedway (200).

2. a kind of conical flask shunting as claimed in claim 1 transmission apparatus, it is characterized in that: described swinging block (31) comprises great circle arc end (311), small arc-shaped end (312), pars intermedia (313), described pars intermedia (313) two sides are plane, one end of described pars intermedia (313) two sides and the side of great circle arc end (311) tangent, the other end of described pars intermedia (313) two sides and the side of small arc-shaped end (312) tangent, described great circle arc end (311) offers mounting hole, the hole heart line of described mounting hole overlaps with the arc core line of great circle arc end (311), described swinging block (31) is fixedly mounted on oscillating axle (32) by mounting hole.

3. a kind of conical flask shunting as claimed in claim 1 transmission apparatus, is characterized in that: described shunting feedway (200) comprises transporting chain plate (201), common drive chain (202); Described transporting chain plate (201) is horizontally disposed with, and described transporting chain plate (201) is in closed circular, and described transporting chain plate (201) is divided into two-layer up and down; Also in closed circular on described common drive chain (202), described common drive chain (202) is divided into outside two, the outside of described common drive chain (202) is provided with some locating pieces (203), and the distance values of adjacent two locating pieces (203) equals the maximum outside diameter value of conical flask (90); Locating piece (203) on outside described common drive chain (202) is positioned at the top on transporting chain plate (201) upper strata, and the distance value between this locating piece (203) bottom surface and transporting chain plate (201) upper strata end face is less than the height value of conical flask; Described transporting chain plate (201) is equal with the running velocity of common conveyer chain, and the service direction being positioned at the locating piece (203) of the top on transporting chain plate (201) upper strata is identical with the service direction on transporting chain plate (201) upper strata.

4. a kind of conical flask shunting as claimed in claim 3 transmission apparatus, it is characterized in that: engage with transporting chain plate sprocket wheel (204) respectively inside the both ends of the described transporting chain plate (201) in closed circular, one of described transporting chain plate sprocket wheel (204) connects with motor driven systems (205); Engage with common drive sprocket wheel (206) respectively inside the both ends of the described common drive chain (202) in closed circular, one of described common drive sprocket wheel (206) connects with motor driven systems (205).

5. a kind of conical flask shunting as claimed in claim 4 transmission apparatus, it is characterized in that: described motor driven systems (205) comprises motor (2051), synchro (2052), described synchro (2052) comprises input end, first mouth, second mouth, rotation centerline and the rotation centerline of the second mouth of described first mouth to be positioned on same perpendicular and mutually vertical, the output speed of described first mouth is equal with the output speed of the second mouth, described input end connects with motor (2051), described first mouth connects with one of common drive sprocket wheel (206), described second mouth connects with one of transporting chain plate sprocket wheel (204).

6. a kind of conical flask shunting as claimed in claim 5 transmission apparatus, it is characterized in that: described synchro (2052) comprises housing, first S. A. (2052-a), second S. A. (2052-b), first cone gear, second cone gear, described first S. A. (2052-a) and the second S. A. (2052-b) are articulated in housing, described first cone gear is arranged on the first S. A. (2052-a), described second cone gear is arranged on the second S. A. (2052-b), described first S. A. (2052-a) and the second S. A. (2052-b) spatial vertical, described first cone gear and the engagement of the second cone gear, described first cone gear and the second cone gear measure-alike, housing is given prominence at the two ends of described first S. A. (2052-a), housing is given prominence in one end of described second S. A. (2052-b), one end of described first S. A. (2052-a) is input end, the other end of described first S. A. (2052-a) is the first mouth, one end of the outstanding housing of described second S. A. (2052-b) is the second mouth, described input end is connected by chain-drive mode with motor (2051).

7. a kind of conical flask shunting as claimed in claim 3 transmission apparatus, it is characterized in that: described shunting feedway (200) comprises a pair positive stop strip (207), described positive stop strip (207) is in rectangular-shaped, strip groove is offered in described positive stop strip (207) side, described a pair positive stop strip (207) is horizontally disposed with and is parallel to each other, described strip groove is established dorsad, described common drive chain (202) is positioned at strip groove, the locating piece (203) be located on common drive chain (202) outside is positioned at outside strip groove.

8. a kind of conical flask shunting as claimed in claim 3 transmission apparatus, it is characterized in that: described locating piece (203) comprises fixed part (2031), some valley (2032) and peak portion (2033), described fixed part (2031) is fixed on common drive chain (202), described valley (2032) and peak portion (2033) arranged in a crossed manner, the material of described locating piece (203) is rubber.

9. a kind of conical flask shunting as claimed in claim 8 transmission apparatus, it is characterized in that: the quantity of described valley (2032) is three, the quantity in described peak portion (2033) is four.