CN206029545U - Sliding contact structure and possess stone mill of this sliding contact structure - Google Patents
Sliding contact structure and possess stone mill of this sliding contact structure Download PDFInfo
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- CN206029545U CN206029545U CN201620890929.0U CN201620890929U CN206029545U CN 206029545 U CN206029545 U CN 206029545U CN 201620890929 U CN201620890929 U CN 201620890929U CN 206029545 U CN206029545 U CN 206029545U
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Abstract
The utility model discloses a sliding contact structure relates to upward slide mechanism of mechanical equipment, including load piece, sliding block and contact component, spaced apart from top to bottom between load piece and the sliding block, the contact component setting is equipped with the contact groove that supplies the contact component embedding on load piece and/or the sliding block between load piece and sliding block, be the arcwall face contact structure or the line contact structure of the relative angle of mobile conversion between contact groove and the contact component, the sliding block bears the weight of the gravity of load piece through the contact component transmission in this structure, has reduced area of contact, and consequently fixed stress point position can effectively be avoided can not keeping balance the slip because of the load piece is out of shape when resulting in the gravity erroneous tendency through this structure, the problem of increasing slide mechanism's wearing and tearing. The utility model discloses still disclose the stone mill of this sliding contact structure of utensil, slide mechanism in this stone mill can stable sliding, flexibility, balanced wearing and tearing, not influenced by deformation gravity erroneous tendency, can reduce the factor that influences the machining effect.
Description
Technical field
This utility model is related to the sliding contact structure of slide mechanism in plant equipment and has the mill of the sliding contact structure
Stone machine field.
Background technology
It is in the plant equipment that some have slide mechanism, the stone mill of particularly horizontal slide mechanism, such as many bistriques, many
Processing equipment on engraving machine of cutter head etc. other industry, other field, these be generally all mechanically by bistrique, cutter head etc. and
Which drives the equipment mechanism unification that bistrique, the machining tool such as cutter head are operated to be laid on crossbeam, therefore crossbeam is usually
Length is longer, and span is larger, and the two ends of crossbeam are erected on the pedestal of machinery, by drive mechanism band by slide mechanism respectively
Dynamic crossbeam slides on pedestal so that machining tool moves multi-faceted processing to workpiece, due to crossbeam length compared with
Long, span is larger, the heavier-weight carried along with which, it is possible to which the situation for having the deformation of crossbeam winding degree occurs, once deformation
The slide mechanism at crossbeam two ends just occurs imbalance, and gravity is amesiality, be partial between the part for causing mutual slip
Lateral wearing is larger, and abrasion is very fast, and service life is short, need to be changed, and frequently changes not only replacement operation trouble, and replacement cost
Height, especially for some large-scale machineries for, it is very inconvenient, also wear and tear it is more serious after further can affect processing effect
Really, the flexible operation of slide mechanism can be affected.
Utility model content
The purpose of this utility model is to provide a kind of sliding contact structure, and the structure causes gravity running into because of deformation
Balance can be kept during deflection to slide, to solve in prior art therefore and produced problem.
For achieving the above object, the technical solution of the utility model is:A kind of sliding contact structure, including load-carrying block, cunning
Motion block and contact component, are spaced apart between the load-carrying block and sliding shoe up and down, and the contact component is arranged on load-carrying block and cunning
Between motion block, the sliding shoe transmits the gravity for carrying load-carrying block by contact component, sets on the load-carrying block and/or sliding shoe
There is the contact groove being embedded in for contact component, be the structure of movable conversion relative angle between the contact groove and contact component.
The centre position of the contact component correspondence sliding shoe is arranged.
The contact component is column type ball;Contact groove on the load-carrying block and sliding shoe is that section is triangular in shape,
Contact structure is respectively constituted between the periphery of column type ball on triangle two sides;Or;The load-carrying block and slip
It is in circular arc that contact groove on block is section, constitutes arcwall face and contact knot between the face of circular arc and the periphery of column type ball
Structure;Or;It is in different circular arc and triangle that contact groove on the load-carrying block and sliding shoe is respectively section, and circular arc connects
The face of tactile groove constitutes arc surface contact structure with the periphery of column type ball, rolls with column type on the two sides of triangle contact groove
The periphery of pearl respectively constitutes contact structure.
The contact component is to be formed by multiple ball-type ball linear array;Contact groove on the load-carrying block and sliding shoe
It is triangular in shape for section, contact structure is constituted between the surface of multiple ball-type balls on triangle two sides;Or;The load
Contact groove on pouring weight and sliding shoe is to constitute arc between surface of the section in circular arc, the face of circular arc and multiple ball-type balls
Shape surface contact structure;Or;It is in different circular arc and triangle that contact groove on the load-carrying block and sliding shoe is respectively section
Arc surface contact structure is constituted between the surface of shape, the face of circular arc contact groove and multiple ball-type balls, triangle contact groove
Contact structure is constituted between the surface of multiple ball-type balls on two sides;Or;Load-carrying block contact with sliding shoe
Groove is the sphere type groove that multiple linear array are laid, and the plurality of ball-type ball one-to-one corresponding is embedded in sphere type groove and constitutes arc
Surface contact structure;Or;One of contact groove of the load-carrying block or sliding shoe is the spherical that multiple linear array are laid
Groove, the plurality of ball-type ball are corresponded in embedded sphere type groove and constitute arc surface contact structure, other in which contact groove
For section be in constitute between circular arc and multiple ball-type balls arc surface contact structure or it is triangular in shape with multiple ball-type balls it
Between constitute contact structure.
The contact component is square for section, and which is non-movable turn between one of them with load-carrying block or sliding shoe
The mode for changing relative angle connects;It is in circular arc, the face of circular arc and square contact that contact groove in other in which is section
Contact structure is constituted between two adjacent edge linea angulatas of part;Or;Contact groove in other in which is that section is triangular in shape,
Contact structure is constituted and two adjacent edge linea angulatas of square contact part between on the two sides of triangle.
The two adjacent edge angles that the square contact part is contacted with contact groove are rounding corner structure.
It is the side of non-movable conversion relative angle between one of them of the contact component and load-carrying block or sliding shoe
Formula connects, and specially contact component is integrally formed projection on load-carrying block or sliding shoe.
It is the side of non-movable conversion relative angle between one of them of the contact component and load-carrying block or sliding shoe
Formula connects, and offers the section side embedded for its matching corresponding to square contact part on specially described load-carrying block or sliding shoe
Shape groove.
The location structure that corresponding locating piece and location hole coordinate is provided between the square groove and contact component.
The contact component is the structure that the curved part in section is combined with projected square part, its projected square part and load-carrying
It is that the non-movable mode for changing relative angle connects between one of them of block or sliding shoe;Contact groove in other in which
It is in circular arc for section, between the face of circular arc and the arch section of contact component, constitutes arc surface contact structure;Or;Wherein
Contact groove on another is that section is triangular in shape, constitutes line and connect on the two sides of triangle and the arch section of contact component between
Tactile structure.
It is the side of non-movable conversion relative angle between one of them of the contact component and load-carrying block or sliding shoe
Formula connects, and specially contact component is integrally formed projection on load-carrying block or sliding shoe.
It is the side of non-movable conversion relative angle between one of them of the contact component and load-carrying block or sliding shoe
Formula connects, and offers section corresponding to the projected square part of contact component embedding for its matching on specially described load-carrying block or sliding shoe
The square groove for entering.
The location structure that corresponding locating piece and location hole coordinate is provided between the square groove and contact component.
It is fixed with the baffle plate for blocking sliding shoe both ends of the surface on the two ends of the load-carrying block respectively.
Another object of the present utility model is the stone mill for providing a kind of above-mentioned sliding contact structure of tool, on the stone mill
Slide mechanism can keep balance slide, smooth motion, reduce abrasion.
For achieving the above object, the technical solution of the utility model is:A kind of stone mill, including pedestal and horizontally slidable
The crossbeam being erected on pedestal, be respectively equipped with slide mechanism, the slide mechanism bag between the two ends of the crossbeam and pedestal
The slide rail and above-mentioned sliding contact structure being arranged on pedestal is included, the load-carrying block is arranged on crossbeam, the sliding shoe is slided
Move on slide rail.
The slide rail includes substrate and the roller bearing being spindle rotationally arranged on substrate, and the roller bearing is spaced cloth for multiple
If the lower surface of the sliding shoe is contacted with multiple roller surfaces, during slip, sliding shoe slides on roller bearing and drives roller bearing to rotate.
The limited block in one side of substrate for gear is fixed with the load-carrying block.
The position that the limited block is contacted with substrate is provided with the copper sheet being easy to substrate contact slide.
The limited block is the L-type structure for catching on substrate edge.
By adopting above-mentioned technical proposal, the beneficial effects of the utility model to be:A kind of above-mentioned sliding contact structure, it is main
With on the sliding mechanism, 1, by no direct bump contact connection between load-carrying block and sliding shoe, but pass through it
Between arrange contact component connection, substantially reduce contact area;2nd, sliding shoe bears load-carrying by contact component to transmit,
Contact component is arranged in contact groove and can play position-limiting action, fixed stress point position, prevents sideslip;3rd, due to contact groove with
Be movable conversion relative angle between contact component, when there is load-carrying block and deforming, by contact groove and contact component it
Between rotation, contact position can be changed, but will not all be changed in the stress point position for being eventually transferred to sliding shoe, therefore
Can be prevented effectively from because load-carrying block deforms and when causing gravity to be partial to by the structure, it is impossible to which enough balances are slided, and increase skate machine
The problem of the abrasion of structure;4th, in the technical scheme, sliding shoe is the final load-supporting part in sliding process and key wear portion
One of part, thus it is above-mentioned by contact component correspondence intermediate position arrange, preferably can balance sliding shoe by weight, reduce mill
Damage so that the service life that overall structure held stationary slides is longer;5th, after a long time use, component wear it is more be all
Contact component and/or sliding shoe, therefore corresponding component can be only changed when changing, and all replace without whole slide construction, drop
Low replacement cost, and due to its structure, change fast and easy;6th, various contact components of above-mentioned offer and the structure of contact groove
And various different combinative structurees, in effectively realizing above-mentioned effect, and these structures, different structures can also be realized not
With action effect, if any the processing and manufacturing for being easy to mechanical part, being easy to of having limits relative position, is easy to arbitrarily matching to make
With the machinery of different load-bearing, size etc. can select different structures to use as needed;7th, the sliding contact structure of said structure
Be conducive to smooth sliding, the easy slide of slide mechanism, it is applicable on various slide mechanisms, particularly have gravity deflection guide
Cause stresses on the slide mechanism of wear problem.
A kind of above-mentioned stone mill, as which has a kind of above-mentioned sliding contact structure, therefore above-mentioned beneficial effect is same
Sample can be embodied on stone mill, with reference to above-mentioned slide mechanism so that crossbeam slides steadily, flexibly, and slide mechanism does not receive crossbeam
Deformation gravity deflection affect, reduce affect machining effect factor, can keep balance slide, balance abrasion, so as to
So that the service life of slide mechanism is longer, reduces and safeguard replacing number of times, replacement cost is safeguarded in reduction, its structure also allows for safeguarding
The convenience of replacing, the embodiment especially for beneficial effect for this large-scale processing equipment of stone mill become apparent from.
Description of the drawings
Fig. 1, Fig. 3, Fig. 5-Figure 14 is a kind of showing for various different structures of sliding contact structure that this utility model is related to
It is intended to.
Fig. 2 is a kind of deformation state structural representation of sliding contact structure in Fig. 1.
Fig. 4 is a kind of deformation state structural representation of sliding contact structure in Fig. 3.
Figure 15 is a kind of structural representation of sliding contact structure setting baffle plate that this utility model is related to.
Figure 16 is a kind of structural representation of stone mill that this utility model is related to.
Figure 17 is the enlarged drawing in A portions in Figure 16.
Figure 18 is the structural representation of slide mechanism in a kind of stone mill that this utility model is related to.
In figure:
Load-carrying block -1;Sliding shoe -2;Contact component -3;Contact groove -4;
Square groove -5;Location structure -6;Baffle plate -7;
A, b- lines
C, d, e, f- point
Stone mill -100;Pedestal -10;Crossbeam -20;Slide mechanism -30;
Slide rail -40;Substrate -41;Roller bearing -42;Limited block -50;Copper sheet -60.
Specific embodiment
In order to the technical solution of the utility model is explained further, this utility model is entered below by specific embodiment
Row is elaborated.
A kind of sliding contact structure disclosed in this utility model, as shown in Fig. 1-Figure 14, which includes load-carrying block 1, sliding shoe 2
With contact component 3, it is spaced apart between the load-carrying block 1 and sliding shoe 2 up and down, using the teaching of the invention it is possible to provide the deformation space of load-carrying block 1 is avoided
With 2 directly contact of sliding shoe, the contact component 3 is arranged between load-carrying block 1 and sliding shoe 2, and sliding shoe 2 passes through contact component
3 transmission carry the gravity of load-carrying block 1, and the load-carrying block 1 and/or sliding shoe 2 are provided with the contact groove 4 being embedded in for contact component 3,
Between the contact groove 4 and contact component 3 be movable conversion relative angle arc surface contact structure (as a in Fig. 1 and Fig. 2,
Shown in b lines for arc surface contact structure) or contact structure (as shown in c, d, e, f point in Fig. 3 and Fig. 4 for linear contact lay
Structure), be particularly well-suited to the use of slide mechanism, as shown in figs. 16-18 be a kind of structural representation of stone mill, the grinding stone
Slide construction on machine applies said structure, the main slide unit of 2 slide mechanism of sliding shoe, sliding shoe 2 in load-carrying block 1 most
A, b lines or c, d point during initial equilibrium state load-bearing as shown in Figure 1 and Figure 3, are lines opposing upper and lower or point, and in load-carrying block 1
B lines and e, f point position after deformation tilt as shown in Figure 2 and Figure 4 are constant, and a lines and c, d have changed position,
Therefore after load-carrying block 1 deforms for sliding shoe 2 load-bearing stress point position all without change, so as to the practicality for reaching above-mentioned is new
Type purpose and effect, in this utility model, it is preferred that the centre position of the correspondence sliding shoe 2 of the contact component 3 is arranged, can
Preferably balance sliding shoe 2 by weight.
Various structures are disclosed to contact component 3 and contact groove 4 in this utility model, the combination between various structures is constituted
Arc surface contact structure or contact structure, in following content conclude to be divided into several embodiments and combine accompanying drawing and retouch in detail
State.
Embodiment one:As shown in Fig. 1, Fig. 3 and Fig. 5, the contact component 3 be column type ball, the knot of the contact groove 4
Structure can be, as shown in figure 1, the load-carrying block 1 and the contact groove 4 on sliding shoe 2 are that section is triangular in shape, on triangle two sides with
Contact structure is respectively constituted between the periphery of column type ball;
Or, as shown in figure 3, it is in circular arc that the load-carrying block 1 and the contact groove 4 on sliding shoe 2 are section, circular arc
Arc surface contact structure is constituted between the periphery of face and column type ball;
Or, as shown in figure 5, it is in different circles that the load-carrying block 1 and the contact groove 4 on sliding shoe 2 are respectively section
Arc and triangle, the face of circular arc contact groove constitute arc surface contact structure with the periphery of column type ball, and triangle connects
Contact structure is respectively constituted with the periphery of column type ball on the two sides of tactile groove.
Embodiment two:As shown in Fig. 6-Figure 10, the contact component 3 is to be formed by multiple ball-type ball linear array, institute
The structure for stating contact groove 4 can be, as shown in fig. 6, the load-carrying block 1 and the contact groove 4 on sliding shoe 2 are that section is triangular in shape,
Contact structure is constituted by Multi-contact respectively between the surface of multiple ball-type balls on triangle two sides;
Or, as shown in fig. 7, it is in circular arc that the load-carrying block 1 and the contact groove 4 on sliding shoe 2 are section, circular arc
Arc surface contact structure is constituted by a plurality of arc linear contact lay between the surface of face and multiple ball-type balls;
Or, as shown in figure 8, it is in different circles that the load-carrying block 1 and the contact groove 4 on sliding shoe 2 are respectively section
Arc is constituted by a plurality of arc linear contact lay between the surface of arc and triangle, the face of circular arc contact groove and multiple ball-type balls
Surface contact structure, constitutes line by the contact of multiple points on the two sides of triangle contact groove between the surface of multiple ball-type balls respectively
Contact structures;
Or, as shown in figure 9, the load-carrying block 1 and the contact groove 4 on sliding shoe 2 are what multiple linear array were laid
Sphere type groove, the plurality of ball-type ball are corresponded in embedded sphere type groove and constitute multiple arcs surface contact structure;
Again or;As shown in Figure 10, one of contact groove 4 of the load-carrying block 1 or sliding shoe 2 is multiple linear array
The sphere type groove of laying, the plurality of ball-type ball are corresponded in embedded sphere type groove and constitute multiple arcs surface contact structure,
It is in constitute arc surface contact structure or triangular in shape between circular arc and multiple ball-type balls that other in which contact groove is section
Contact structure is constituted between multiple ball-type balls.
Above-mentioned contact groove 4 is set to sphere type groove and also has the spacing effect for placing ball-type ball so as to will not run, and
Do not affect to rotate.
Embodiment three:As is illustrated by figs. 11 and 12, the contact component 3 is square for section, itself and load-carrying block 1 or slides
It is that the non-movable mode for changing relative angle connects between one of them of block 2, as shown in figure 11, connecing in other in which
Tactile groove 4 is to constitute linear contact lay knot between two adjacent edge linea angulatas of the section in circular arc, the face of circular arc and square contact part 3
Structure;
Or, as shown in figure 12, the contact groove 4 in other in which be section it is triangular in shape, on the two sides of triangle with
Contact structure is constituted between two adjacent edge linea angulatas of square contact part 4.
In the present embodiment, the two adjacent edge angles that the square contact component 3 is contacted with contact groove 4 can be tied for rounding
Structure, can be more smooth during relative conversion angle between contact component 3 square after rounding and contact groove 4.
It is that non-movable conversion is relative between one of them of above-mentioned square contact component 3 and load-carrying block 1 or sliding shoe 2
The mode of angle connects, and can be integrally formed projection on load-carrying block 1 or sliding shoe 2, as shown in Fig. 11 directly for contact component 3
Connect and be molded on sliding shoe 2;It is alternatively on the load-carrying block 1 or sliding shoe 2 in addition and offers section and square contact part 3
Accordingly for the square groove 5 that its matching is embedded, as shown in figure 12, the square groove 5 is opened on sliding shoe 2;Preferably, the side
The location structure 6 that corresponding locating piece and location hole coordinate is provided between shape groove 5 and contact component 3, makes square contact component 3
Will not run, as shown in figure 12.
Example IV:As shown in Figure 13 and Figure 14, the contact component 3 is combined with projected square part for the curved part in section
Structure, be non-movable conversion relative angle between one of them of its projected square part and load-carrying block 1 or sliding shoe 2
Mode connects;As shown in figure 13, the contact groove 4 in other in which is in circular arc, the face of circular arc and contact component 3 for section
Arch section between constitute arc surface contact structure;
Or, as shown in figure 14, the contact groove 4 in other in which be section it is triangular in shape, on the two sides of triangle with
Contact structure is constituted between the arch section of contact component.
In the present embodiment, it is non-movable turn between one of them of the contact component 3 and load-carrying block 1 or sliding shoe 2
The mode for changing relative angle connects, and can be integrally formed projection on load-carrying block 1 or sliding shoe 2, as shown in figure 14 for contact component 3
Be molded on sliding shoe 2;Be alternatively section to be offered on the load-carrying block 1 or sliding shoe 2 square with contact component 3 in addition
Partial response is for the embedded square groove 5 of its matching;Preferably, corresponding positioning is provided between the square groove 5 and contact component 3
The location structure 6 that block and location hole coordinate, makes the projected square part of contact component 3 not run, as shown in figure 13.
In above-mentioned several embodiments of the present utility model, from structure between sliding shoe 2 and load-carrying block 1 on left and right directions
By contact component 3 can relative defined position, but the structure of the contact component 3 having in glide direction and contact groove 4
Being can not be by the relative defined position in glide direction between the two, if the weight foot of load-carrying block 1 in actual slip is carried out
If enough weights, sliding shoe 2 is less to deviate too big with contact component 3 and load-carrying block 1 due to sliding again, but if occurring inclined
From, it is possible to occur that fault impact is normally slided, for avoiding the appearance of such case, can be further in this utility model, institute
State the baffle plate 7 being fixed with the two ends of load-carrying block 1 respectively for blocking 2 both ends of the surface of sliding shoe, can effectively solving the problems referred to above,
As shown in figure 15.
A kind of stone mill 100 disclosed in this utility model, as shown in figs. 16-18, including pedestal 10 and horizontally slidable
The crossbeam 20 being erected on pedestal 10, is respectively equipped with slide mechanism 30, the cunning between the two ends of the crossbeam 20 and pedestal 10
Motivation structure 30 includes the slide rail 40 being arranged on pedestal 10 and above-mentioned sliding contact structure, above provides various sliding contacts
The specific embodiment of structure, can be inserted in application, equally realize the effect above of the present utility model, not retouch in detail one by one below
State, the load-carrying block 1 is arranged on crossbeam 20, and the sliding shoe 2 slides on slide rail 40, between sliding shoe 2 and slide rail 40
Slide construction can be common use slide construction, the such as combinative structure of slide bar and slide block, the slide rail of oat tail groove structure and slide block
The combinative structure of combinative structure, grooved rail and slide block etc.;Embodiment of the present utility model is preferred, as shown in Figures 2 and 3,
The slide rail 40 includes substrate 41 and the roller bearing 42 being spindle rotationally arranged on substrate 41, and the roller bearing 42 is spaced for multiple
Lay, i.e. the length direction arrangement laying for being axially perpendicular to substrate 41 of roller bearing 42, the lower surface of the sliding shoe 2 and multiple rollings
42 surface of axle contacts, and during slip, sliding shoe 2 slides on roller bearing 42 and drives roller bearing 42 to rotate, using the roller bearing 42 for rotating, can
The resistance for sliding is reduced, abrasion is reduced so that is slided more flexible, sliding shoe 2 is placed on multiple roller bearings 42, balance can be kept to slide
It is dynamic, smooth sliding.
Further, the limited block 50 in 41 1 side of substrate for gear is fixed with the load-carrying block 1, such as Figure 18 institutes
Show, limited block 50 is kept off on a side of substrate 41, it becomes possible to prevent when sliding, it is relative between sliding shoe 2 and roller bearing 42
There is deviation larger on left and right directions in position, particularly right respectively on the load-carrying block 1 of the two ends slide mechanism 30 of crossbeam 20
Claim to arrange, more can effectively prevent the situation of deviation.
Further, as shown in figure 18, the position that the limited block 50 is contacted with substrate 41 is provided with to be easy to connect with substrate 41
Touch the copper sheet 60 for sliding.
Further, as shown in figure 18, for catching on the L-type structure at 41 edge of substrate, L-type structure catches on base to the limited block 50
The edge of plate 41, additionally it is possible to limit the fixed range between substrate 41 and load-carrying block 1, the fixed bit of interior part between restriction
Put, the gap between load-carrying block 1 and sliding shoe 2 can also avoid the occurrence of again in preset range, so and can change because of gap
Become the situation that larger contact component 3 is detached, likewise, the position that L-type structure catches on 41 edge of substrate can equally arrange copper sheet
60, the effect for being easy to slide is realized in the same manner.
Above-described embodiment and schema non-limiting product form of the present utility model and style, any art
Appropriate change or modification that those of ordinary skill is done to which, all should be regarded as without departing from patent category of the present utility model.
Claims (19)
1. a kind of sliding contact structure, it is characterised in that:Including load-carrying block, sliding shoe and contact component, the load-carrying block and cunning
It is spaced apart between motion block up and down, the contact component is arranged between load-carrying block and sliding shoe, the sliding shoe passes through contact site
Part transmission carries the gravity of load-carrying block, and the load-carrying block and/or sliding shoe are provided with the contact groove being embedded in for contact component, described
It is the structure of movable conversion relative angle between contact groove and contact component.
2. a kind of sliding contact structure as claimed in claim 1, it is characterised in that:In the contact component correspondence sliding shoe
Meta is installed.
3. a kind of sliding contact structure as claimed in claim 1 or 2, it is characterised in that:
The contact component is column type ball;
Contact groove on the load-carrying block and sliding shoe is that section is triangular in shape, the circumference on triangle two sides with column type ball
Contact structure is respectively constituted between face;
Or;It is in circular arc, the face of circular arc and column type ball that contact groove on the load-carrying block and sliding shoe is section
Arc surface contact structure is constituted between periphery;
Or;It is in different circular arc and triangle that contact groove on the load-carrying block and sliding shoe is respectively section, circular arc
The face of contact groove constitutes arc surface contact structure with the periphery of column type ball, with column type on the two sides of triangle contact groove
The periphery of ball respectively constitutes contact structure.
4. a kind of sliding contact structure as claimed in claim 1 or 2, it is characterised in that:
The contact component is to be formed by multiple ball-type ball linear array;
Contact groove on the load-carrying block and sliding shoe is that section is triangular in shape, the table on triangle two sides with multiple ball-type balls
Contact structure is constituted between face;
Or;It is in circular arc, the face of circular arc and multiple ball-type balls that contact groove on the load-carrying block and sliding shoe is section
Surface between constitute arc surface contact structure;
Or;It is in different circular arc and triangle that contact groove on the load-carrying block and sliding shoe is respectively section, circular arc
Between the surface of the face of contact groove and multiple ball-type balls constitute arc surface contact structure, on the two sides of triangle contact groove with it is many
Contact structure is constituted between the surface of individual ball-type ball;
Or;Contact groove on the load-carrying block and sliding shoe is the sphere type groove that multiple linear array are laid, the plurality of ball
Type ball is corresponded in embedded sphere type groove and constitutes arc surface contact structure;
Or;One of contact groove of the load-carrying block or sliding shoe is the sphere type groove that multiple linear array are laid, described
Multiple ball-type balls are corresponded in embedded sphere type groove and constitute arc surface contact structure, and other in which contact groove for section is in
Arc surface contact structure is constituted between circular arc and multiple ball-type balls or triangular in shape constitutes line between multiple ball-type balls
Contact structures.
5. a kind of sliding contact structure as claimed in claim 1 or 2, it is characterised in that:
The contact component is square for section, and which is non-movable conversion phase between one of them with load-carrying block or sliding shoe
The mode of angle is connected;
It is in circular arc, the face of circular arc and two adjacent edge linea angulatas of square contact part that contact groove in other in which is section
Between constitute contact structure;
Or;Contact groove in other in which be section it is triangular in shape, on the two sides of triangle with square contact part two
Contact structure is constituted between adjacent corner line.
6. a kind of sliding contact structure as claimed in claim 5, it is characterised in that:The square contact part is connect with contact groove
Two tactile adjacent edge angles are rounding corner structure.
7. a kind of sliding contact structure as claimed in claim 5, it is characterised in that:The contact component and load-carrying block or slip
It is that the non-movable mode for changing relative angle connects between one of them of block, specially contact component is integrally formed projection and exists
On load-carrying block or sliding shoe.
8. a kind of sliding contact structure as claimed in claim 5, it is characterised in that:The contact component and load-carrying block or slip
It is that the non-movable mode for changing relative angle connects between one of them of block, opens on specially described load-carrying block or sliding shoe
It is provided with the section square groove embedded for its matching corresponding to square contact part.
9. a kind of sliding contact structure as claimed in claim 8, it is characterised in that:Set between the square groove and contact component
There is the location structure that corresponding locating piece and location hole coordinate.
10. a kind of sliding contact structure as claimed in claim 1 or 2, it is characterised in that:It is in arc that the contact component is section
Between one of them of the structure that shape part is combined with projected square part, its projected square part and load-carrying block or sliding shoe being can not
The mode of activity conversion relative angle connects;
It is in circular arc that contact groove in other in which is section, is constituted between the face of circular arc and the arch section of contact component
Arc surface contact structure;
Or;Contact groove in other in which is that section is triangular in shape, the curved portions on the two sides of triangle with contact component
/ composition contact structure.
A kind of 11. sliding contact structures as claimed in claim 10, it is characterised in that:The contact component and load-carrying block or cunning
It is that the non-movable mode for changing relative angle connects between one of them of motion block, specially contact component is integrally formed projection
On load-carrying block or sliding shoe.
A kind of 12. sliding contact structures as claimed in claim 10, it is characterised in that:The contact component and load-carrying block or cunning
It is that the non-movable mode for changing relative angle connects between one of them of motion block, on specially described load-carrying block or sliding shoe
Offer the section square groove embedded for its matching corresponding to the projected square part of contact component.
A kind of 13. sliding contact structures as claimed in claim 12, it is characterised in that:Between the square groove and contact component
It is provided with the location structure that corresponding locating piece and location hole coordinate.
A kind of 14. sliding contact structures as claimed in claim 1 or 2, it is characterised in that:On the two ends of the load-carrying block respectively
It is fixed with the baffle plate for blocking sliding shoe both ends of the surface.
A kind of 15. stone mills of the sliding contact structure of tool claim 1-14 any one, including pedestal and horizontally slidable
The crossbeam being erected on pedestal, be respectively equipped with slide mechanism between the two ends of the crossbeam and pedestal, it is characterised in that:It is described
Slide mechanism includes the slide rail being arranged on pedestal and above-mentioned sliding contact structure, and the load-carrying block is arranged on crossbeam, institute
State sliding shoe to slide on slide rail.
A kind of 16. stone mills as claimed in claim 15, it is characterised in that:The slide rail includes substrate and rotatable setting
Roller bearing on substrate, the roller bearing are spaced laying for multiple, and the lower surface of the sliding shoe is connect with multiple roller surfaces
Touch, during slip, sliding shoe slides on roller bearing and drives roller bearing to rotate.
17. a kind of stone mill as claimed in claim 16, it is characterised in that:It is fixed with the load-carrying block for gear in base
The limited block of one side of plate.
A kind of 18. stone mills as claimed in claim 17, it is characterised in that:Set on the position that the limited block is contacted with substrate
There is the copper sheet being easy to substrate contact slide.
A kind of 19. stone mills as described in claim 17 or 18, it is characterised in that:The limited block is to catch on substrate edge
L-type structure.
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN106112762A (en) * | 2016-08-17 | 2016-11-16 | 泉州市海恩德机电科技发展有限公司 | A kind of sliding contact structure and have the stone mill of this sliding contact structure |
CN108555723A (en) * | 2018-06-22 | 2018-09-21 | 佛山石湾鹰牌陶瓷有限公司 | Can quickly edging edging device and tile edge production system |
CN108581705A (en) * | 2018-06-22 | 2018-09-28 | 佛山石湾鹰牌陶瓷有限公司 | The adjustable edging device of the amount of feeding and tile edge production system |
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2016
- 2016-08-17 CN CN201620890929.0U patent/CN206029545U/en active Active
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
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CN106112762A (en) * | 2016-08-17 | 2016-11-16 | 泉州市海恩德机电科技发展有限公司 | A kind of sliding contact structure and have the stone mill of this sliding contact structure |
CN106112762B (en) * | 2016-08-17 | 2019-03-05 | 泉州市海恩德机电科技发展有限公司 | A kind of sliding contact structure and the stone mill for having the sliding contact structure |
CN108555723A (en) * | 2018-06-22 | 2018-09-21 | 佛山石湾鹰牌陶瓷有限公司 | Can quickly edging edging device and tile edge production system |
CN108581705A (en) * | 2018-06-22 | 2018-09-28 | 佛山石湾鹰牌陶瓷有限公司 | The adjustable edging device of the amount of feeding and tile edge production system |
CN108555723B (en) * | 2018-06-22 | 2024-03-26 | 佛山石湾鹰牌陶瓷有限公司 | Edging device capable of edging rapidly and ceramic tile edging production system |
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