A kind of adjustable bed die guide rail
Technical field
The utility model relates to a kind of adjustable bed die guide rails.
Background technique
It is also further stringent to the performance requirement of all parts with the continuous improvement of the single mode production capacity of bottle blowing machine.Bed die is led
Rail is the critical component for controlling blowing machine bottom mold raising and lowering, and when blowing at a high speed bottle, stroke and the gradient are the smaller the better.Due to
Bottle blowing machine needs to blow the different bottle-type of a variety of bottom bumps degree, when a variety of bed die height spans occurs simultaneously in a bottle blowing machine
When different mold, bed die guide rail need to be made according to the maximum mold of bed die height span, so that the row of bed die guide rail
Journey and the gradient are especially big, when for blowing bottom bumps degree lesser bottle-type, reduce the efficiency for blowing bottle, influence whole
Blow a bottle speed.
Summary of the invention
The purpose of the utility model is to provide a kind of adjustable bed die guide rails, can adapt to the different bottle of bottom bumps degree
The blowing of type, it is high-efficient to blow bottle.
In order to achieve the above objectives, the technical solution adopted in the utility model is:
A kind of adjustable bed die guide rail is used for bottle blowing machine, including the first cam tracks, movable being set on supporting mechanism
Be set to first cam tracks on the second cam tracks;
The bed die guide rail has the first operating position and the second operating position:
When the bed die guide rail is located at the first operating position, bearing is movable to be supported set on the bottom of first cam tracks
Portion;When the bed die guide rail is located at the second operating position, the bearing is movable to be supported set on the bottom of second cam tracks;
The bed die guide rail further include for drive second cam tracks to move in first cam tracks with
So that the driving mechanism that the bed die guide rail switches between the first operating position and the second operating position.
Preferably, second cam tracks are set in first cam tracks around what one end rotated, the driving
Mechanism is connected to the other end of second cam tracks.
It is highly preferred that first cam tracks are equipped with the limit being located at below the second cam tracks other end
Part.
It is highly preferred that the bed die guide rail further include be connected to first cam tracks and second cam tracks it
Between bindiny mechanism;
The bindiny mechanism has the first link position and the second link position:
When the bindiny mechanism is in the first link position, the bed die guide rail is in the first operating position;The connection
When mechanism is in the second link position, the bed die guide rail is in the second operating position.
It is further preferred that the bindiny mechanism includes that one end around first axle is rotatably connected on first cam tracks
On second joint axis on the other end that the second axis is rotatably connected on second cam tracks of the first oscillating bearing, one end
It holds, the other end of the other end of first oscillating bearing and the second joint bearing is rotatablely connected with third axis;It is described
First axle is located at the top of second axis.
It is further preferred that the driving mechanism includes the cylinder of one end rotation being connected in first cam tracks
Body, the push rod being set in the cylinder body to stretch along length extending direction, the extension end of the push rod is fixedly connected on institute
It states on third axis.
It is further preferred that first oscillating bearing includes first bearing ontology interconnected and the first switching
Axis, the second joint bearing include second bearing ontology interconnected and the second Coupling Shaft, the first bearing ontology around
The first axle is rotatably connected in first cam tracks, and the second bearing ontology is rotatably connected on around second axis
In second cam tracks, first Coupling Shaft and second Coupling Shaft are rotatablely connected with the third axis.
It is further preferred that when the bindiny mechanism is in the first link position, first oscillating bearing and described
It is mutually at angle α between second joint bearing, wherein 0 ° of 180 ° of < α <;When the bindiny mechanism is in the second link position position,
First oscillating bearing and the second joint coaxial bearing extend, and are distributed along the vertical direction.
Preferably, first cam tracks and second cam tracks are arc surface, and having the same first
Axial line, when the bearing turns over identical angle, the first row of one end of the bearing in first cam tracks bottom
Journey is shorter than the second stroke in second cam tracks bottom.
Due to the application of the above technical scheme, the utility model has the advantage that this is practical new compared with prior art
A kind of adjustable bed die guide rail of type, by the first cam tracks of setting and the second cam tracks, for bottom bumps degree difference
Bottle-type, can the different cam tracks of corresponding selection, avoid and use stroke and the biggish guide rail of the gradient in existing equipment
It matches the problem of blowing bottle low efficiency caused by the lesser bottle-type of bottom bumps degree, effectively raises the efficiency for blowing bottle.
Detailed description of the invention
Attached drawing 1 is the structural schematic diagram one that this practical bed die guide rail is in the first operating position;
Attached drawing 2 is the structural schematic diagram two that this practical bed die guide rail is in the first operating position;
Attached drawing 3 is the structural schematic diagram one that this practical bed die guide rail is in the second operating position;
Attached drawing 4 is the structural schematic diagram two that this practical bed die guide rail is in the second operating position.
Wherein: 1, supporting mechanism;2, the first cam tracks;3, the second cam tracks;4, bearing;5, locating part;6, first
Axis;7, the second axis;8, third axis;9, cylinder body;10, push rod;11, first bearing ontology;12, the first Coupling Shaft;13, second bearing
Ontology;14, the second Coupling Shaft;15, support base;16, attachment base;17, connecting shaft;18, cylinder mounting base.
Specific embodiment
The technical solution of the utility model is further elaborated with reference to the accompanying drawing.
Referring to shown in Fig. 1-4, a kind of above-mentioned adjustable bed die guide rail is used for bottle blowing machine, including being set on supporting mechanism 1
First cam tracks 2, mobilizable the second cam tracks 3 being set in the first cam tracks 2.
In the present embodiment, supporting mechanism 1 includes support base 15, the attachment base 16 being fixedly connected on support base 15, the
One cam tracks 2 are fixedly arranged on attachment base 16.
In the present embodiment, the first cam tracks 2 and the second cam tracks 3 are arc surface, and having the same first
6 heart line of axis;When bearing 4 turns over identical angle with respect to the first cam tracks 2 or the second cam tracks 3, one end of bearing 4 is the
The first stroke of one cam tracks, 2 bottom is shorter than the second stroke in 3 bottom of the second cam tracks, i.e. the first cam tracks 2
Stroke and the gradient are less than the stroke and the gradient of the second cam tracks 3.
Above-mentioned adjustable bed die guide rail has the first operating position and the second operating position: bed die guide rail is located at the first work
When position, the movable bottom curved surface supported set on the first cam tracks 2 of bearing 4;When bed die guide rail is located at the second operating position, axis
Hold the 4 movable bottom curved surfaces supported set on the second cam tracks 3.It is arranged by this, for the lesser bottle of bottom bumps degree
Type can choose the first cam tracks 2, and more bottle-type concave-convex for bottom can choose the second cam tracks 3.It can
With effective reduction vibration, noise is reduced.
Above-mentioned adjustable bed die guide rail further includes for driving the second cam tracks 3 to move in the first cam tracks 2
Driving mechanism is arranged by this, enables bed die guide rail easily between the first operating position and the second operating position
It switches over.
In the present embodiment, the second cam tracks 3 turn around its right end (referring to fig. 2, the right side in Fig. 2 is right end here)
Dynamic is set in the first cam tracks 2, and driving mechanism is then connected to the left end of the second cam tracks 3;A left side for first cam tracks 2
Lower part is equipped with the locating part 5 being located at below 3 left end of the second cam tracks, and when bed die guide rail is located at the second operating position, second is convex
Guide rail 3 is taken turns to support on the locating part 5.
Above-mentioned bed die guide rail further includes the bindiny mechanism being connected between the first cam tracks 2 and the second cam tracks 3;Even
Connection mechanism has the first link position and the second link position: when bindiny mechanism is in the first link position, bed die guide rail is in
First operating position;When bindiny mechanism is in the second link position, bed die guide rail is in the second operating position;Wherein, first connects
Connect position can have it is multiple, it is only necessary to guarantee the second cam mechanism bottom be not less than the first cam mechanism bottom.
In the present embodiment, above-mentioned bindiny mechanism include upper end (referring to fig. 2, in Fig. 2 upper be upper end here) around
First axle 6 is rotatably connected on the first oscillating bearing 4 of 2 left end of the first cam tracks, lower end and is rotatably connected on second around the second axis 7
The upper end of the second joint bearing 4 of 3 left end of cam tracks, the lower end of the first oscillating bearing 4 and second joint bearing 4 is and third
Axis 8 is rotatablely connected;First axle 6 is then located at the top of the second axis 7.
In the present embodiment, the first oscillating bearing 4 include first bearing ontology 11 interconnected and the first Coupling Shaft 12,
Second joint bearing 4 includes second bearing ontology 13 interconnected and the second Coupling Shaft 14;The upper end of first bearing ontology 11
It is rotatably connected in the first cam tracks 2 around first axle 6, the lower end of first bearing ontology 11 connects the upper of the first Coupling Shaft 12
End;The lower end of second bearing ontology 13 is rotatably connected in the second cam tracks 3 around the second axis 7, second bearing ontology 13 it is upper
The lower end of the second Coupling Shaft 14 of end connection;The lower end of first Coupling Shaft 12 and the upper end of the second Coupling Shaft 14 with 8 turns of third axis
Dynamic connection.
In the present embodiment, above-mentioned driving mechanism include right end rotation the cylinder body 9 being connected in the first cam tracks 2,
The extension end of the push rod 10 being set in cylinder body 9 to stretch along length extending direction, push rod 10 connects by the way that connecting shaft 17 is fixed
It connects on third axis 8;First cam tracks 2 are equipped with cylinder mounting base 18, and cylinder body 9 is connected to the cylinder around what its right end rotated
In mounting base 18, the extension end of push rod 10 is located at the left side of cylinder body 9, and cylinder mounting base 18 is then located at the right side of cylinder body 9.
It is mutually at angle α between the first oscillating bearing 4 and second joint bearing 4 when bindiny mechanism is in the first link position,
Wherein 0 ° of 180 ° of < α <, it is only necessary to guarantee that the bottom of the second cam mechanism is not less than the bottom of the first cam mechanism;Connection
When mechanism is in the second link position position, the first oscillating bearing 4 and second joint bearing 4 coaxially extend, and along vertical side
To distribution, it is arranged by this, generates physics dead point, under the collective effect of driving mechanism, guarantees that bearing 4 is led in the second cam
Shake will not be generated in when running on rail 3.
The course of work of lower the present embodiment is illustrated in detail below:
When the low bottle-type of blowing bed die height, 10 retract cylinder 9 of push rod, the first oscillating bearing 4 is counterclockwise around first axle 6
Rotation, second joint bearing 4 are rotated clockwise around the second axis 7, and cylinder body 9 and push rod 10 are rotated clockwise around cylinder mounting base 18,
It drives the second cam tracks 3 to rotate clockwise around its right end, makes the bottom of the second cam tracks 3 not less than the first cam tracks 2
Bottom, run bearing 4 in lesser first cam tracks, 2 bottom of stroke and the gradient;
When the high bottle-type of blowing bed die height, push rod 10 stretches out cylinder body 9, and the first oscillating bearing 4 is clockwise around first axle 6
Rotation, second joint bearing 4 are rotated counterclockwise around the second axis 7, and cylinder body 9 and push rod 10 are rotated counterclockwise around cylinder mounting base 18,
It drives the second cam tracks 3 to rotate counterclockwise around its right end, makes the bottom of the second cam tracks 3 lower than the first cam tracks 2
Bottom runs bearing 4 in biggish second cam tracks, 3 bottom of stroke and the gradient.
The above embodiments are only for explaining the technical ideas and features of the present invention, and its object is to allow be familiar with technique
Personage can understand the content of the utility model and implement accordingly, do not limit the protection scope of the present invention.
All equivalent change or modifications according to made by the spirit of the present invention essence, should all cover the protection scope of the utility model it
It is interior.