The content of the invention
The application's aims to overcome that technical problem existing in the prior art, and two plates for providing a kind of die casting machine are slided
Leg structure.
The purpose of the application is completed by following technical solution, a kind of two boards shoe slipper structure of die casting machine, including
For wrapping up the upper wedge of two plate bottoms, wherein, the upper wedge bottom side is equipped with the oblique iron construction of separate type, lower wedge knot
The bevel edge of structure along the downside of upper wedge two is corresponding with first time wedge and second time wedge, and oblique iron construction is along upper wedge or so
Side wall is equipped with the fastening bolt for adjusting its position, and the surface setting of first time wedge and second time wedge is respectively step-like.
The fastening bolt on the right side interts in the right side wall of upper wedge along first time wedge upper right side, the fastening in left side
Bolt interts in the left side wall of upper wedge along second time wedge upper left side, and multiple locks are respectively equipped with the fastening bolt of the left and right sides
Tight nut.
The centre position of the upper wedge is equipped with holding tank, and holding tank carries out encapsulation receiving along the bottom of two plates, holds
Receiving the position that the left and right sides of groove and two plate bottoms contact is equipped with diversion trench and dashpot.
The bottom side of first time wedge and second time wedge is respectively fixed with a slide plate, and slide plate is using wear-resisting smooth
Material makes.
The bottom surface of the slide plate is contacted with the raceway surface fitting of its underpart, and slide plate is the copper material with graphite particle
Make.
The base angle of slide plate lower surface left and right ends is bonded with the upper surface of track.
The upper side of first time wedge and second time wedge is recessed separately down the step of the upper wedge position of adjusting,
The step of first time wedge is with left lower than right, and the step of second time wedge is right low left high.
The right side of second time wedge is recessed downwards a sliding slot, and a guide-localization key is equipped with sliding slot, and it is fixed to be oriented to
Position key uper side surface is contacted with upper wedge bottom side, and guide-localization key downside surface is contradicted with the inclined-plane that detent surface is formed.
The both sides bottom of the oblique iron construction is respectively equipped with a scum board, and scum board is " Pie " shape structure, the side of scum board
One is also fitted with wall and scrapes slag piece, the bottom side of scum board is equipped with scraping angle, and the bottom of scraping angle is contradicted along the lower part for scraping slag piece.
The scum board in second time wedge lower left corner is equipped with knob bolt with scraping the transverse direction of slag piece.
The application compared with prior art, has following obvious advantage and effect:
1st, the position movement of upper wedge in the course of work is avoided, after realizing upper wedge positioning by step-like simple structure
Stability, ledge structure is easy to implement.
2nd, there is the high and low position of two plate of adjusting of separate type and be supported using the dual-layer face of ledge structure.
3rd, the bottom surface of upper wedge is slided, by the way of multi-surface contact, the sliding effect of wedge in raising.
4th, by the way of multistage stripping, the cleaning of scratch type is carried out to the discarded object on track, is reduced caused by rubbing
Error, and improve two boards shoe slipper operational efficiency and precision.
Embodiment
To make the purpose, technical scheme and advantage of the application clearer, below in conjunction with the application specific embodiment and
Technical scheme is clearly and completely described in corresponding attached drawing.Obviously, described embodiment is only the application one
Section Example, instead of all the embodiments.Based on the embodiment in the application, those of ordinary skill in the art are not doing
Go out all other embodiments obtained under the premise of creative work, shall fall in the protection scope of this application.
A kind of two boards shoe slipper structure of die casting machine described herein, including for wrapping up the upper wedge of two plates, 4 bottom
3, wherein, upper 3 bottom side of wedge is equipped with the oblique iron construction of separate type, and oblique iron construction is oblique along upper 3 liang of downsides of wedge
While being corresponding with first time wedge 5 and second time wedge 10, oblique iron construction is equipped with along upper 3 left and right sidewall of wedge and adjusts its position
Fastening bolt 1;The surface of first time wedge 5 and second time wedge 10 sets respectively step-like, the adjusting two with separate type
The high and low position of plate is simultaneously supported using ledge structure, the position limited between the two that step can consolidate.
Shown in the application Fig. 5, two plates 4 are arranged on die casting machine, wherein, two plates 4 are arranged on the top of track 13, two plates
4 by the first time wedge 5 and second time wedge 10 of its bottom, i.e., are formed using first time wedge 5 and second time wedge 10
Oblique iron construction and then slided on track 13.
Shown in Fig. 1 to 4, the two boards shoe slipper structure of die casting machine include being used for wrapping up two plates, 4 bottom it is fixedly sleeved
In the top of upper wedge 3, wherein, upper 3 bottom side of wedge is equipped with the oblique iron construction of separate type, i.e., oblique iron construction is set
For the module of left and right two.
The generally ship shape structure of upper wedge 3, the angle of inclination on the base of its both sides is identical, and equal length, Jin Erli
The base at equal with 3 both sides of wedge and identical inclination angle ensures that first time wedge 5 and second time wedge 10 are symmetrical, it is being manufactured
In may be designed as same structure part, but divided by the change of placement position in use, improve structure versatility, compared with
Low production cost.
First time wedge 5 and second time wedge 10, first time wedge are corresponding with along the bevel edge of the upper downside of wedge 3 or so two
5 bottom surfaces formed along upper 3 right edge of wedge are bonded support, and the bottom surface that second time wedge 10 is formed along left side is bonded branch
Support, two lateral supports form symmetrical structure,.
The fastening bolt 1 of its position is adjusted along upper 3 left and right sidewall of wedge in oblique iron construction, the upper left and right sides of wedge 3
Fastening bolt 1 can be adjusted the high and low position at left and right sides of it respectively along the lower inclined plane of upper wedge 3.
Wherein, the surface of first time wedge 5 and second time wedge 10 is set it is respectively step-like, using ledge structure,
Form stepped screens to limit, it limits the scope that upper wedge 3 is adjusted, and avoids wedge 3 from surmounting adjusting position, changes
In the prior art, because surmounting between wedge 3 and oblique iron construction and blocking in the larger generation of failure or adjustable range adjusted
Extremely, influence the security in use, and operationally, by the segment design of step, avoid die casting machine because being vibrated in operation and
Caused position changes.
In the embodiment of the present application, the fastening bolt 1 on the right side interts into upper wedge 3 along first time 5 upper right side of wedge
In right side wall, it is connected by the fastening bolt 1 on the upper right side of wedge 3 with the right side wall of first time wedge 5, passes through the fastening bolt 1 on right side
The high and low position on the right side of wedge 3 in adjusting.
The fastening bolt 1 in left side interts in the left side wall of upper wedge 3 along second time 10 upper left side of wedge, passes through upper wedge
The fastening bolt 1 in 3 left sides is connected with the left side wall of second time wedge 10, is set bolt hole along the left side wall of upper wedge 3, is passed through a left side
The fastening bolt 1 of side is plugged in bolt hole, and then adjusts the high and low position in the upper left side of wedge 3.
Multiple locking nuts 2 are respectively equipped with the fastening bolt 1 of the left and right sides, the contact position along fastening bolt 1 with upper wedge 3
Positioning of the bolt to upper wedge 3 is installed to lock, meanwhile, in left fastening bolt 1 and the position of second time 10 upper wall of wedge handing-over
Install two locking nuts 2 and carry out locking positioning.
Similarly, two locking nuts 2, two lockings are installed on the fastening bolt 1 interted in first time 5 right side upper wall of wedge
Nut 2 is positioned respectively along the two sides of first time 5 upper right wall of wedge, ensures that the interspersed left and right sides of fastening bolt 1 limits
It is fixed firm.
As shown in Figure 4, the shape of holding tank 33 changes according to the change of two plates, 4 bottom shape.
In the structure of the application, the column structure of two plates 4 is cylinder or square column, and the holding tank 33 of corresponding two plates 4 is cylinder
Shape or rectangular shape.
Wherein, when two plates, 4 bottom is square column, the holding tank 33 of cuboid is set along the centre position of upper wedge 3, is utilized
Holding tank 33 carries out encapsulation receiving, the stability connected between 3 top of enhancing two plates 4 and upper wedge along the bottom of two plates 4.
The position that the left and right sides of holding tank 33 is contacted with two plates, 4 bottom is equipped with diversion trench 31 and dashpot 32.
Diversion trench 31 is set along the madial wall angular position of holding tank 33, grease is filled in diversion trench 31, utilizes oil
The flowing of fat ensures clean in holding tank 33 in a pre-installation.
The right angle notch of madial wall angular position is arranged to arc-shaped notch can form the mechanism of buffering, that is, buffer
Groove 32, accommodates grease using dashpot 32, and when holding tank 33 positions, the arc-shaped structure of dashpot 32 can delay
Solution impact and vibration, are not susceptible to angle fracture.
In the another embodiment of the application, the bottom side of first time wedge 5 and second time wedge 10 is respectively fixed with one
Slide plate 6, is contacted by slide plate 6 with track 13, utilizes the sliding of slide plate 6, the work efficiency of two plate of raising, 4 bottom.
Wherein, slide plate 6 is made of wear-resisting lubricious material, as far as possible while ensureing to use, reduces slide plate 6
Friction coefficient.
The bottom surface of the slide plate 6 is contacted with 13 surface of the track fitting of its underpart, fitting contact between the two, between the two
Friction can more uniform, stability higher.
Slide plate 6 makes for the copper material with graphite particle, is equipped with screw hole in slide plate 6, spiral shell is installed upwards by screw hole
Bolt, the bottom for being plugged on first time wedge 5 or second time wedge 10 upwards by bolt are fixed.
Graphite particle is filled in screw hole after bolt installation, can also be along on the surface that slide plate 6 is contacted with track 13
The hole of filling graphite is set, and then sliding between slide plate 6 and track 13 is improved using graphite.The hole for filling graphite can be in slide plate 6
Bottom surface, can also be on the surface of track 13.
The base angle 61 of the 6 lower surface left and right ends of slide plate is bonded with the upper surface of track 13.
Base angle 61 and track 13 are bonded on the downside of 6 both ends of slide plate, for ensureing between 13 upper surface of 6 bottom surface of slide plate and track
Sufficiently contact, improves slip efficiency between the two.
The upper side of first time wedge 5 and second time wedge 10, which is recessed to have separately down, adjusts upper 3 position of wedge
Step, forms terraced structure in the uper side surface of first time wedge 5 or second time wedge 10, will make upper wedge 3 by step
It can avoid surmounting in larger vibration between oblique iron construction, form stable restriction.
The step of first time wedge 5 is with left lower than right, and the step of second time wedge 10 is right low left high.First time wedge 5
It is symmetrical structure with second time wedge 10, the adjusting of left and right directions is both carried out along the centre position of upper wedge 3,
And then control the high and low position of the upper left and right sides of wedge 3.
The right side of second time wedge 10 is recessed downwards a sliding slot 101, and platform is formed using concave structure downwards
Rank, the bottom surface of sliding slot 101 are the first plane, and the left side inclined-plane of second time wedge 10 is the second plane, the first plane and second flat
Ledge structure is formed between face, the position of guide-localization key 7 is limited using the step between the first plane and the second plane
It is fixed.
A sliding slot 101 is equally also formed with first time wedge 5, passes through the bottom surface of sliding slot 101 and first time wedge
Upper right side surface, and then form the step spacing to first time 5 downside guide-localization key 7 of wedge.
A guide-localization key 7 is equipped with sliding slot 101,7 uper side surface of guide-localization key is contacted with upper 3 bottom side of wedge, is oriented to
The inclined-plane 1011 that 7 downside surface of positioning key is formed with 101 surface of sliding slot contradicts.
Using guide-localization key 7 it is upward contact with downward conflict, make guide-localization key 7 in the horizontal can be with step
Between forming position limit, while the support of top/bottom latitude is also formed on longitudinal direction.
Avoid the upper right side surface of first time wedge 5 or the single stress in lower-left side surface of second time wedge 10, i.e. shape
Into the equal stress in upper surface of step, make the bottom surface uniform force of wedge 3, it is easier to which its high-low-position is adjusted by left and right directions
Put.
The both sides bottom of the oblique iron construction is respectively equipped with a scum board 11, and scum board 11 is " Pie " shape structure, along
Once the lower-left end of the bottom righthand side of wedge 5 and second time wedge 10 sets a scum board 11 respectively, by scum board 11 to rail
Waste residue on 13 surface of road is purged.
One is also fitted with the side wall of scum board 11 and scrapes slag piece 113, can be to track 13 using the slag piece 113 of scraping of sheet
Surface carries out the removing of attaching type, improves elimination effect.
The bottom side of scum board 11 is equipped with scraping angle 111, and the bottom of scraping angle 111 is contradicted along the lower part for scraping slag piece 113.
The lower part for scraping slag piece 113 is contradicted using scraping angle 111, that is, reinforces the stabilization for scraping 113 lower side of slag piece, avoids scraping slag piece
113 deform when removing slag charge, ensure that stability, the service life of scraping the removing slag charge of slag piece 113 are more longlasting.
The scum board 11 in second time wedge, 10 lower left corner is equipped with knob bolt 12 with scraping the transverse direction of slag piece 113.Utilize
Can manual rotation bolt, that is, knob bolt 12, facilitate personnel to scum board 11, scrape slag piece 113 and be adjusted and replace.
The foregoing is merely embodiments herein, moreover, the title that parts are taken in the application can not also
Together, the title being not intended to limit in the application.To those skilled in the art, the application can have various modifications and variations.
All any modification, equivalent replacement, improvement and so within the design of the application and principle, should be included in the power of the application
Within sharp claimed range.