It is a kind of based on runner tire can rotation peristaltic pump
Technical field
The invention belongs to wriggle pump technical field more particularly to it is a kind of based on runner tire can rotation peristaltic pump.
Background technology
At present in traditional peristaltic pump, the rotor of peristaltic pump can with rotating compressed flexible pipe relative to inner walls,
Make liquid from the inlet to the outlet;Rotor can be driven by motor, the flow of liquid be controlled by controlling speed, with gear-box
Constant-speed drive the flow of liquid can be increased or decreased in the case where speed is constant;It is but soft during long-time use
Property the contact of Guan Shangyu rotors side will be worn and influence the normal use of flexible pipe;So design one kind can cause it is soft
The constantly changed peristaltic pump of contact point of property pipe and rotor is necessary.
Present invention design it is a kind of based on runner tire can the peristaltic pump of rotation solve the problems, such as above.
Invention content
To solve drawbacks described above of the prior art, the present invention disclose it is a kind of based on runner tire can rotation peristaltic pump,
It is realized using following technical scheme.
It is a kind of based on runner tire can rotation peristaltic pump, it is characterised in that:It includes driving motor, mounting shell, conveying
Pipeline, motor support, Pipe installing shell, driving triangular plate, first gear, second gear, drive gear, third gear, the 4th
Gear, the 5th gear, the 6th gear, drive shaft, first rotating shaft, the second shaft, Pipe installing slot, third shaft, axis hole, pipeline
Symmetrical pipe hole there are two being opened on hole, the 4th shaft, driving wheel, the wherein end face of mounting shell;On the one side of mounting shell
Axis hole there are one opening;Driving motor is mounted on the side that axis hole is provided on mounting shell by motor support;One end of drive shaft with
The output axis connection of driving motor;The other end of drive shaft is located at across axis hole in mounting shell;There is one section to lack on drive gear
Tooth;Drive gear is installed on the driving shaft, and drive gear is located in mounting shell;Triangular plate is driven to be mounted on the another of drive shaft
End;Three third shafts are circumferentially uniformly mounted on three corners of driving triangular plate;Three driving wheels are separately mounted to three
In a third shaft;Third gear is divided into cone increment and cylinder increment;Third gear is mounted on by the second shaft in mounting shell;
Cylinder increment on third gear is engaged with drive gear;One end of first rotating shaft is mounted on the round hole of mounting shell inner side end
In;6th gear is divided into cone increment and cylinder increment;6th gear is mounted in first rotating shaft;Cone increment on 6th gear with
Cone increment engagement on third gear;Second gear is mounted in first rotating shaft;4th shaft is mounted on mounting shell inner side end
On;5th gear is mounted in the 4th shaft;5th gear is engaged with second gear;There is Pipe installing on Pipe installing shell
Slot;Pipe installing shell is mounted in mounting shell;Conveyance conduit is mounted in the Pipe installing slot on Pipe installing shell, and delivery pipe
The both ends in road are each passed through two pipe holes on mounting shell;Conveyance conduit and three driving wheels coordinate;First gear is mounted on
On the periphery of conveyance conduit one end, and first gear is located in mounting shell;First gear and the cylinder increment on the 6th gear
Engagement;4th gear is mounted on the periphery of the conveyance conduit other end, and the 4th gear is located in mounting shell;4th gear with
5th gear engages.
Above-mentioned driving wheel includes tire on the drive wheels, wheel hub, and wherein wheel hub is mounted in corresponding third shaft;It is installed on wheel hub
There are one the tires on the drive wheels with rotating function.
As being further improved for this technology, there is one section of hypodontia, the initiating terminal and terminal of hypodontia on above-mentioned drive gear
Into 30 degree of angles between end;It is the change by the contact point for transmitting conveyance conduit and driving wheel of drive gear used in it
Change more entanglement;The track for causing conveyance conduit frayed is more uniform.
As being further improved for this technology, the tire on the drive wheels on above-mentioned driving wheel when by the external force of axial direction,
Tire on the drive wheels can be rotated around the annular axis of tire on the drive wheels.
As being further improved for this technology, the radius of above-mentioned first gear is equal with the radius of the 6th gear;Second tooth
The radius of wheel is equal with the radius of the 4th gear, and the half that the radius of second gear is first gear radius;It is acted on
It is the velocity of rotation phase for transmitting conveyance conduit both ends by first gear, the 6th gear, second gear and the 4th gear
Deng;So that conveyance conduit is more smooth in rotation process.
Two sections thick segment is symmetrically installed as being further improved for this technology, on the inner headed face of above-mentioned conveyance conduit;
It is when being flowed under tire on the drive wheels of the liquid in conveyance conduit in driving wheel drives that it, which is acted on, and conveyance conduit can be corresponded to
The extruding of tire on the drive wheels;And the effect of two sections thick segment is so that the liquid in place being extruded on conveyance conduit will not be oppressed
The proper flow of liquid in conveyance conduit is influenced to the both sides of conveyance conduit.
Relative to traditional peristaltic pump technology, driven in conveyance conduit by the rotation of three driving wheels in the present invention
Liquid flows;Conveyance conduit is adjusted so that conveyance conduit rotates simultaneously;Peristaltic pump is prevented in length by the rotation of conveyance conduit
Because of three frictions generated between driving wheel and conveyance conduit conveyance conduit is worn brokenly during time uses
It splits, influences the normal use of conveyance conduit.
Description of the drawings
Fig. 1 is global facility appearance diagram.
Fig. 2 is global facility distribution schematic diagram.
Fig. 3 is global facility internal structure schematic diagram.
Fig. 4 is driving motor scheme of installation.
Fig. 5 is second gear scheme of installation.
Fig. 6 is the 6th gear structure schematic diagram.
Fig. 7 is the 6th gear scheme of installation.
Fig. 8 is drive gear scheme of installation.
Fig. 9 is driving wheel scheme of installation.
Figure 10 is Pipe installing shell structure schematic diagram.
Figure 11 is driving wheel and conveyance conduit cooperation schematic diagram.
Figure 12 is driving triangular plate scheme of installation.
Figure 13 is driving triangular plate structure diagram.
Figure 14 is driving wheel structure schematic diagram.
Figure 15 is wheel hub scheme of installation.
Figure 16 is tire on the drive wheels scheme of installation.
Figure 17 is mounting shell structure diagram.
Figure 18 is Pipe installing shell scheme of installation.
Figure 19 is thick segment scheme of installation.
Figure label title:1st, driving motor;2nd, mounting shell;3rd, conveyance conduit;4th, motor support;5th, Pipe installing shell;
6th, triangular plate is driven;7th, tire on the drive wheels;8th, first gear;9th, second gear;10th, drive gear;11st, third gear;12nd, the 4th
Gear;13rd, the 5th gear;14th, the 6th gear;15th, drive shaft;16th, first rotating shaft;17th, wheel hub;18th, the second shaft;19th, it manages
Road mounting groove;20th, third shaft;21st, axis hole;22nd, pipe hole;23rd, the 4th shaft;24th, driving wheel;25th, thick segment.
Specific embodiment
As shown in Figure 1, 2, it include driving motor 1, mounting shell 2, conveyance conduit 3, motor support 4, Pipe installing shell 5,
Drive triangular plate 6, first gear 8, second gear 9, drive gear 10, third gear 11, the 4th gear 12, the 5th gear 13,
6th gear 14, drive shaft 15, first rotating shaft 16, the second shaft 18, Pipe installing slot 19, third shaft 20, axis hole 21, pipeline
Hole 22, the 4th shaft 23, driving wheel 24 wherein as shown in figure 17, open that there are two symmetrical pipe holes on the end face of mounting shell 2
22;Axis hole 21 there are one being opened on the one side of mounting shell 2;As shown in Figure 1, driving motor 1 is mounted on installation by motor support 4
The side of axis hole 21 is provided on shell 2;As shown in figure 4, one end of drive shaft 15 and the output axis connection of driving motor 1;Drive shaft
15 other end is located at across axis hole 21 in mounting shell 2;As shown in figure 8, there is one section of hypodontia on drive gear 10;Such as Fig. 3 institutes
Show, drive gear 10 is mounted in drive shaft 15, and drive gear 10 is located in mounting shell 2;As shown in Fig. 8,13, triangle is driven
Disk 6 is mounted on the other end of drive shaft 15;Circumferential three corners for being uniformly mounted to driving triangular plate 6 of three third shafts 20
On;As shown in figure 9, three driving wheels 24 are separately mounted in three third shafts 20;As shown in figure 5, third gear 11 divides is
Bore increment and cylinder increment;Third gear 11 is mounted on by the second shaft 18 in mounting shell 2;As shown in figure 5, third gear 11
On cylinder increment engaged with drive gear 10;One end of first rotating shaft 16 is mounted in the round hole of 2 inner side end of mounting shell;
As shown in fig. 6, the 6th gear 14 divides for cone increment and cylinder increment;6th gear 14 is mounted in first rotating shaft 16;Such as Fig. 7 institutes
Show, the cone increment on the 6th gear 14 is engaged with the cone increment on third gear 11;Second gear 9 is mounted on first rotating shaft 16
On;4th shaft 23 is mounted on 2 inner side end of mounting shell;5th gear 13 is mounted in the 4th shaft 23;5th gear 13
It is engaged with second gear 9;As shown in Figure 10, there is Pipe installing slot 19 on Pipe installing shell 5;As shown in figure 18, Pipe installing
Shell 5 is mounted in mounting shell 2;Conveyance conduit 3 is mounted in the Pipe installing slot 19 on Pipe installing shell 5, and conveyance conduit 3
Both ends are each passed through two pipe holes 22 on mounting shell 2;As shown in Figure 11,12, conveyance conduit 3 is matched with three driving wheels 24
It closes;As shown in figure 18, first gear 8 is mounted on the periphery of 3 one end of conveyance conduit, and first gear 8 is located at mounting shell 2
It is interior;First gear 8 is engaged with the cylinder increment on the 6th gear 14;4th gear 12 is mounted on the outer of 3 other end of conveyance conduit
On disc, and the 4th gear 12 is located in mounting shell 2;4th gear 12 is engaged with the 5th gear 13.
As shown in figure 14, above-mentioned driving wheel 24 includes tire on the drive wheels 7, wheel hub 17, wherein as shown in figure 15, wheel hub 17 is installed
In corresponding third shaft 20;As shown in figure 16, there are one the tires on the drive wheels 7 with rotating function for installation on wheel hub 17.
There is one section of hypodontia, into 30 degree of angles between the initiating terminal and destination terminal of hypodontia on above-mentioned drive gear 10;Its
Used is the variation more entanglement for transmitting conveyance conduit 3 and the contact point of driving wheel 24 by drive gear 10;So that
The frayed track of conveyance conduit 3 is more uniform.
For tire on the drive wheels 7 on above-mentioned driving wheel 24 when by the external force of axial direction, tire on the drive wheels 7 can be around driving wheel
The annular axis rotation of tire 7.
The radius of above-mentioned first gear 8 is equal with the radius of the 6th gear 14;The radius of second gear 9 and the 4th gear 12
Radius it is equal, and the radius of second gear 9 be 8 radius of first gear half;Its act on be by first gear 8,
The transmission of 6th gear 14,9 and the 4th gear 12 of second gear is so that the velocity of rotation at conveyance conduit both ends is equal;So that conveying
Pipeline is more smooth in rotation process.
As shown in figure 19, two sections thick segment 25 is symmetrically installed on the inner headed face of above-mentioned conveyance conduit 3;It is to work as that it, which is acted on,
When tire on the drive wheels 7 of the liquid in driving wheel 24 in conveyance conduit 3 flows under driving, conveyance conduit 3 can be driven by corresponding
The extruding of tire 7;And the effect of two sections thick segment 25 is so that the liquid in place being extruded on conveyance conduit 3 will not be oppressed
The proper flow of liquid in conveyance conduit is influenced to the both sides of conveyance conduit 3.
In summary:
The liquid in conveyance conduit 3 is driven to flow by the rotation of three driving wheels 24 in the present invention;Adjust delivery pipe simultaneously
Road 3 is so that conveyance conduit 3 rotates;Prevent peristaltic pump during long-time use because of three by the rotation of conveyance conduit 3
The friction that is generated between a driving wheel 24 and conveyance conduit 3 and so that conveyance conduit 3 is worn rupture, influences conveyance conduit 3
Normal use.
Driving motor 1 is mounted on the side of mounting shell 2 by motor support 4 in the present invention;One end of drive shaft 15 and drive
The output axis connection of dynamic motor 1;There is one section of hypodontia on drive gear 10;Drive gear 10 is mounted in drive shaft 15;Driving
Triangular plate 6 is mounted on the other end of drive shaft 15;Circumferential be uniformly mounted to driving triangular plate 6 three of three third shafts 20
On corner;Three driving wheels 24 are separately mounted in three third shafts 20;Third gear 11 is mounted on by the second shaft 18
In mounting shell 2;Cylinder increment on third gear 11 is engaged with drive gear 10;One end of first rotating shaft 16 is mounted on mounting shell
In the round hole of 2 inner side ends;6th gear 14 is mounted in first rotating shaft 16;Cone increment and third tooth on 6th gear 14
Cone increment engagement on wheel 11;Second gear 9 is mounted in first rotating shaft 16;4th shaft 23 is mounted on 2 inner end of mounting shell
On face;5th gear 13 is mounted in the 4th shaft 23;5th gear 13 is engaged with second gear 9;Pipe installing shell 5 is mounted on
In mounting shell 2;Conveyance conduit 3 is mounted in the Pipe installing slot 19 on Pipe installing shell 5;Conveyance conduit 3 and three driving wheels
24 cooperations;First gear 8 is mounted on the periphery of 3 one end of conveyance conduit;Cylinder Gear on 8 and the 6th gear 14 of first gear
End engagement;4th gear 12 is mounted on the periphery of 3 other end of conveyance conduit;4th gear 12 is engaged with the 5th gear 13;
When driving motor 1 works, driving motor 1 drives drive shaft 15 to rotate;On the one hand the rotation of drive shaft 15 can drive drive gear
10 rotations;The rotation of drive gear 10 drives third gear 11 to rotate;The rotation of third gear 11 drives the 6th gear 14 to rotate;6th
On the one hand the rotation of gear 14 can drive first gear 8 to rotate;On the other hand the rotation of 6th gear 14 can drive 16 turns of first rotating shaft
It is dynamic;The rotation of first rotating shaft 16 drives second gear 9 to rotate;The rotation of second gear 9 drives the 5th gear 13 to rotate;5th gear 13
Rotation drives the 4th gear 12 to rotate;The rotation of drive shaft 15 can drive driving triangular plate 6 to rotate on the other hand;Drive triangular plate
6 rotations drive three third shafts 20 to be circumferentially rotated around drive shaft 15;Three rotations of third shaft 20 drive three driving wheels
24 rotations;Conveyance conduit 3 will be driven around conveyance conduit 3 when 8 and the 4th gear 12 of first gear rotates in the present invention
Axis rotates;The rotation of conveyance conduit 3 will be to tire on the drive wheels 7 one on the driving wheel 24 being in contact with it along 24 axis of driving wheel
The frictional force of axis;Since the tire on the drive wheels 7 on driving wheel 24 is when by the external force of axial direction, tire on the drive wheels 7 can be around
The annular axis rotation of tire on the drive wheels 7;So it is contacted in three 24 rotation processes of driving wheel with the conveyance conduit 3 in rotation
When, conveyance conduit 3 can cause the ring of the tire on the drive wheels 7 on the driving wheel 24 of the tire on the drive wheels being in contact with it on driving wheel 24 7
Shape axis rotates.
Specific embodiment:When the peristaltic pump that people are designed using the present invention, when driving motor 1 works, driving motor 1
Drive shaft 15 is driven to rotate;On the one hand the rotation of drive shaft 15 can drive drive gear 10 to rotate;The rotation of drive gear 10 drives the
Three gears 11 rotate;The rotation of third gear 11 drives the 6th gear 14 to rotate;On the one hand the rotation of 6th gear 14 can drive first
Gear 8 rotates;On the other hand the rotation of 6th gear 14 can drive first rotating shaft 16 to rotate;The rotation of first rotating shaft 16 drives the second tooth
9 rotation of wheel;The rotation of second gear 9 drives the 5th gear 13 to rotate;The rotation of 5th gear 13 drives the 4th gear 12 to rotate;Driving
The rotation of axis 15 can drive driving triangular plate 6 to rotate on the other hand;Drive triangular plate 6 rotation drive three third shafts 20 around
Drive shaft 15 circumferentially rotates;Three rotations of third shaft 20 drive three driving wheels 24 to rotate;In three driving wheels 24 around drive
In the axis rotation process of moving axis 15, when the tire on the drive wheels 7 in one of driving wheel 24 is contacted with conveyance conduit 3, pass through
The friction-driven tire 7 generated between conveyance conduit 3 and the tire on the drive wheels 7 will be rotated around the axis of driving wheel 24;Turning
The tire on the drive wheels 7 will cause the liquid flow in conveyance conduit 3 to one driving force of liquid in conveyance conduit 3 during dynamic
It is dynamic;I.e. by three driving wheels 24 around the axis rotation of drive shaft 15 can be in conveyance conduit 3 liquid constantly flow;
Peristaltic pump is prevented during long-time use around the rotation of the central axis of conveyance conduit 3 by conveyance conduit 3 simultaneously
Cause that conveyance conduit 3 is worn rupture, influences to convey because of the friction generated between three driving wheels 24 and conveyance conduit 3
The normal use of pipeline 3.