CN105465172B - Height pushes rigid linear ball slide rail - Google Patents
Height pushes rigid linear ball slide rail Download PDFInfo
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- CN105465172B CN105465172B CN201410451643.8A CN201410451643A CN105465172B CN 105465172 B CN105465172 B CN 105465172B CN 201410451643 A CN201410451643 A CN 201410451643A CN 105465172 B CN105465172 B CN 105465172B
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Abstract
Rigid linear ball slide rail is pushed the invention discloses a kind of height, it is mainly passed through sets six row balls to improve integral load ability between slide rail and sliding block, six row balls are respectively symmetrically located at the both sides of skid rail head, and the three rows of balls of side is located on different height and positions respectively again, simultaneously, the present invention more limitation neck width is necessarily less than the two ball centre-to-centre spacing in bottom rolling channel, and also it is greater than the numerical value that the two ball centre-to-centre spacing in the rolling channel of the top cut a ball diameter, ensure accordingly neck width will not it is too small and influence slide rail rigidity;According to the design offer high load capacity of overall ball columns and slide rail configuration, the architectural characteristic of high rigidity.
Description
Technical field
The present invention relates to linear actuator, rigid linear transmission device is especially pushed with height relevant.
Background technology
Linear ball sliding rail containing is a kind of important linear actuator, and the drive characteristic for possessing high efficiency and high precision makes
It is widely deployed on various conveying mechanicals, is considering what one of emphasis can bear for it from linear ball sliding rail containing
Quiet rated load and rigidity, the quiet rated load and rigidity for especially pushing direction are especially important, and general linear ball slide rail
The quiet rated load numerical value that can bear and ball columns and ball diameter square into positive correlation, therefore industry is more to increase
Plus the means of ball diameter or increase ball columns improve quiet rated load ability;But, general linear ball sliding rail containing due to
Do not strengthen especially pushing the quiet rated load and rigidity in direction in design, its quiet rated load and rigidity for pushing direction it is universal compared with
It is low.
It is the linear slide rail 10 of U.S.'s US6132093 patents as shown in Figure 1, for a kind of reinforcement, it pushes the quiet of direction for this
Rated load and rigid known technology, it mainly slippingly covers comprising a sliding block 11 is overlying on a slide rail 12, and the slide rail 12
Four row balls 13 are set between the sliding block 11, and the columns of ball 13 is mainly by the linear slide rail 10 by two general row increases
Four row, wherein top surface of two row positioned at slide rail 12, two arranges the both sides for being then located at slide rail 12 respectively in addition, arranged through increase ball 13
Count to improve the quiet rated load that linear slide rail 10 can bear;However, with the configuration of four row balls 13 of the linear slide rail 10
It is the load that can only bear to push completely positioned at two row balls 13 of the top surface of slide rail 12, and can not hold completely from the point of view of mode
By side load, and the two row balls positioned at both sides can only then bear side load completely, and the load pushed can not be born completely,
It can not be significantly improved on the whole and integrally push and lateral load-bearing capacity, though its can local lifting push the load in direction
Ability, but it is not good in lateral load-bearing capacity, therefore load-bearing capacity is still not enough to applicable most mechanisms, and more due to the cunning
The top surface of rail 12 and side are provided with the rolling channel housed for ball 13, therefore the slide rail 12 has to pass through one when processing
Secondary top grinding and once lateral grinding could be completed, and manufacturing procedure twice will greatly improve processing cost and while reduce life
Production efficiency, and the not good shortcoming that has an economic benefit;And the machining benchmark of manufacturing procedure twice is different, make top surface and side
Rolling channel relative position has error, and reduces the precision of ball slide rail.
In addition, the linear slide rail 20 of U.S.'s US8414190 patents is then shown please refer to Fig. 2 again, the linear cunning
Rail 20 equally slippingly covers comprising a sliding block 21 and is overlying on a slide rail 22, and the linear slide rail 20 more by the columns of ball 23 by general
Two row increases be the configuration of rolling channel on eight row (both sides of the slide rail 22 set four row respectively), its right slide rail 22 except wherein
Four row are outside the top surface of slide rail 22, and four row turn into again positioned at the side of slide rail 22, and the opposite sides face of the slide rail in addition
To the relatively close inclination aspect in bottom surface, once top grinding and one is had to pass through when so similarly causing the slide rail 22 to produce
The secondary multistage manufacturing processes laterally ground, and equally have high processing costs, low production efficiency, economic benefit not good and precision drop
Low shortcoming;And this linear slide rail 20 is since it is designed that the pattern of eight row balls, size need to be significantly increased, it is impossible to meet general
Use demand.
The content of the invention
The technical problems to be solved by the invention are that providing a kind of height pushes rigid linear ball slide rail, its main purpose
It is to improve overall quiet rated load;And improve general ball slide rail for improve load-bearing capacity structural form configuration can increase plus
Work process, reduces the shortcoming of production efficiency, and avoids the rolling channel caused by the machining benchmark difference of manufacturing procedure twice relative
Site error and the problem of reduce the precision of ball slide rail;And the rigidity of linear ball sliding rail containing, particularly height can be improved push
Rigidity;In addition, size can not be increased, to meet general use demand.
To solve the above problems, the present invention, which provides a kind of height, pushes rigid linear ball slide rail, comprising:
One slide rail, along the strip block structure of an X-direction development length, and the vertical X-direction then defines a Y-direction and one
Z-direction, and the Y-direction is vertical with the Z-direction, and the slide rail, from the point of view of the two ends end face in the X-direction, the slide rail is integrally phase
The structure set for a symmetrical axial symmetry;And the slide rail is in sequentially dividing into a head, a neck and a bottom in the Z-direction
Portion, the head compared to the bottom in being upper direction in the Z-direction, and the bottom compared to the head under being in the Z-direction
Direction, the head is a head width in the Breadth Maximum in the Y-direction, and the neck is one in the minimum widith in the Y-direction
Neck width, and the bottom in the Breadth Maximum in the Y-direction be a bottom width, the neck width be less than the head width and
The bottom width;And three rolling channels are set respectively in symmetry axis both sides on the slide rail;
One sliding block, with a grooving, the sliding block is slippingly set on the slide rail with the grooving, and correspondence on the grooving
Respectively the position of the rolling channel sets six rolling grooves;
Multiple balls, are rollably placed in respectively between the rolling channel and the rolling groove, it is characterised in that:
The slide rail sets in rolling channel on one, one rolling channel in the symmetry axis both sides on the head and once rolled respectively
Ditch, and respectively on this rolling channel in the Z-direction position of the slide rail higher than respectively in this rolling channel in the Z-direction position of the slide rail;
And respectively in this rolling channel in the Z-direction position of the slide rail higher than each lower rolling channel in the Z-direction position of the slide rail;And
Respectively the ball produces a contact point respectively with each rolling channel, and the contact point has a normal, respectively rolling channel on this,
Angle respectively in this between normal of rolling channel and the upper direction of Z-direction (is defined as rolling channel and rolling channel in this on this
One contact angle) be 20~70 degree, and respectively between the normal of the lower rolling channel and the lower direction of Z-direction angle (be defined as respectively
One contact angle of the lower rolling channel) it is 20~70 degree.
The present invention arranges in pairs or groups simultaneously through six row balls are set between slide rail and sliding block to improve overall quiet rated load
The appropriately configured rigidity to maintain slide rail of neck width, particularly height push rigidity, and the rolling channel of the accommodating ball of the present invention
It is the head both sides for being symmetricly set in slide rail, and can be completed through lateral attrition process of processing, simplifies manufacturing procedure, improves
Production efficiency and economic benefit, and avoid the top surface caused by the machining benchmark difference of manufacturing procedure twice and the rolling of side
The problem of ditch has error and reduces the precision of ball slide rail relatively.Further, since the design and design optimization in space, make
Size is not required to increase and can meet general use demand.
Brief description of the drawings
Fig. 1 pushes ball slide rail schematic diagram for a kind of known reinforcement.
For another known reinforcement, it pushes ball slide rail schematic diagram to Fig. 2.
Fig. 3 is the schematic appearance that height of the present invention pushes rigid linear ball slide rail.
Fig. 4 is the end plan view that height of the present invention pushes rigid linear ball slide rail.
Fig. 5 is the slide rail floor map that height of the present invention pushes rigid linear ball slide rail.
Fig. 6 pushes the schematic diagram of the slide rail of rigid linear ball slide rail for processing height of the present invention.
Fig. 7 pushes rigid linear ball slide rail for height of the present invention and is compared figure with the quiet rated load data of existing product.
Fig. 8 be height of the present invention push rigid linear ball slide rail and existing product push and lateral rigidity data are compared
Figure.
Fig. 9 is that height of the present invention pushes rigid linear ball slide rail and changes contact angle for pushing and lateral quiet rated load
Graph of a relation.
Description of reference numerals
The sliding block 11 of linear slide rail 10
The ball 13 of slide rail 12
The sliding block 21 of linear slide rail 20
The ball 23 of slide rail 22
The head 31 of slide rail 30
Rolling channel 312 in upper rolling channel 311
The lower neck 32 of rolling channel 313
The sliding block 40 of bottom 33
The rolling groove 411 of grooving 41
The X-direction of ball 50
Y-direction Z-direction
Head width W1 neck widths W2
Bottom width W3 symmetry axis L
First ball centre-to-centre spacing d1 the second ball centre-to-centre spacing d2
3rd ball centre-to-centre spacing d3 contact points T
Contact angle α normal Ns
Side abrasive article A
Embodiment
Height of the present invention pushes the preferred embodiment of rigid linear ball slide rail as shown in Fig. 3 to 9, comprising:
One slide rail 30, along the strip block structure of an X-direction development length, and the vertical X-direction then define a Y-direction and
One Z-direction, and the Y-direction is vertical with the Z-direction, and the slide rail 30, from the point of view of the two ends end face in the X-direction, the slide rail 30 is whole
Body is relative to the symmetrically arranged structures of symmetry axis L;
And the slide rail 30 is in sequentially dividing into a head 31, a neck 32 and a bottom 33 in the Z-direction, the phase of head 31
Compared with the bottom 33 in being upper direction in the Z-direction, and the bottom 33 compared to the head 31 in being lower direction in the Z-direction,
The head 31 is a head width W1 in the Breadth Maximum in the Y-direction, and the neck 32 is one in the minimum widith in the Y-direction
Neck width W2, and the bottom 33 is a bottom width W3 in the Breadth Maximum in the Y-direction, neck width W2 is less than the head
Portion width W1 and bottom width W3;In addition, setting three rolling channels, the slide rail respectively in symmetry axis L both sides on the slide rail 30
The rolling channel of 30 both sides is to be symmetrical arranged relative to symmetry axis L;The present embodiment be on the head 31 of the slide rail 30 in this
Symmetry axis L both sides set on one rolling channel 312 and rolling channel 313, and respectively being rolled on this once in rolling channel 311, one respectively
Ditch 311 in the Z-direction position of the slide rail 30 higher than respectively in this rolling channel 312 in the Z-direction position of the slide rail 30;And respectively rolled in this
Dynamic ditch 312 is in the Z-direction position of the slide rail 30 higher than the respectively lower rolling channel 313 in the Z-direction position of the slide rail 30;And the present invention
Respectively on this rolling channel 311 and respectively in this rolling channel 312 is located at the first half on the head 31, and respectively the lower rolling channel 313 is located at
The lower half on head 31;
One sliding block 40, with a grooving 41, the sliding block 40 is slippingly set on the slide rail 30 with the grooving 41, and should
Correspondence respectively rolling channel 311 on this, respectively rolling channel 312 and respectively the position of the lower rolling channel 313 sets six rollings in this on grooving 41
Dynamic groove 411;And
Multiple balls 50, are rollably placed between the respectively rolling channel 411 and the rolling groove 311,312,313, and work as
When respectively the ball 50 is placed in the respectively rolling channel 311,312,313, two balls 50 in two rolling channels 311 on this are placed in
Center in the spacing in the Y-direction be one first ball centre-to-centre spacing d1;It is placed in two balls in two rolling channels 312 in this
50 center is one second ball centre-to-centre spacing d2 in the spacing in the Y-direction;And two be placed in the two lower rolling channels 313 should
The center of ball 50 is one the 3rd ball centre-to-centre spacing d3 in the spacing in the Y-direction;Neck width W2 be respectively smaller than this second
Ball centre-to-centre spacing d2 and the 3rd ball centre-to-centre spacing d3, the need for meeting structure design;And, because height pushes rigid linear rolling
The rigidity of pearl slide rail is relevant with its sectional area, and neck 32 is the minimum region of the sectional area of the slide rail 30, firm for influence structure
Property critically important region, to increase the rigidity of linear ball sliding rail containing, the present embodiment designs neck width W2 more than first rolling
Pearl centre-to-centre spacing d1, to obtain optimal rigid result;Certainly, as there is special space to limit on fruit structure, design makes the neck
The numerical value that width W2 is more than the diameter that the first ball centre-to-centre spacing d1 cuts the ball 50 also can obtain sub-optimal rigidity knot
Really;Wherein, the 3rd ball centre-to-centre spacing d3 is designed as more preferably with slightly larger, to avoid lower rolling channel 313 and neck 32 from producing manufacture
On interference, therefore design on, the 3rd ball centre-to-centre spacing d3 can be increased and make neck width W2 be less than the 3rd ball centre-to-centre spacing
D3 cuts the numerical value of the diameter of the ball for more preferably.
In addition, when respectively the ball 50 is placed in the respectively rolling channel 311,312,313, ball 50 of the invention is with rolling
Ditch 311,312,313 meets hypothesis and the definition of Hertzian contact theory (Hertz contact theory), then the ball 50 with
Each rolling channel 311,312,313 produces a contact point T respectively, the contact of the ball 50 or each rolling channel 311,312,313
There is a normal N by contact point T on face, respectively rolling channel 311 on this, respectively in this ball 50 of rolling channel 312 the normal N
The angle between the upper direction of Z-direction then defines a contact angle α respectively, and respectively rolling channel 311 on this, respectively rolling channel in this
The contact angle α of 312 balls 50 being in contact with it respectively is 20~70 degree, considers that contact angle α is less than 20 degree and can made from manufacture direction
The contact surface of ball 50 or each rolling channel 311,312,313 diminishes, and reduces the load-bearing capacity that contact surface can bear;Conversely
, if contact angle α is more than 70 degree ball 50 or each rolling channel 311,312,313 can be made to be reduced in the load-bearing capacity of Z-direction
And be unable to reach this hair height to be reached and push rigid purpose;More preferably, for avoid manufacture on it is unstable caused by
Problem, and improve the of the invention height to be reached and push rigid characteristic, contact angle α with 30~50 degree more preferably;And optimal design
Angle is 40 degree;In addition, should unanimously be considered from each ball 50 and 311,312 deflection after stress of each rolling channel, respectively should
Upper rolling channel 311 and respectively in this contact angle α of rolling channel 312 is preferable to be designed as equivalence;And, similarly, each lower rolling channel
Angle of the normal N of 313 ball 50 respectively between the lower direction of Z-direction is same to define a contact angle α, and respectively under this
The contact angle α for the ball 50 that rolling channel 313 is in contact with it is 20~70 degree, and 30~50 degree are that more preferably and 40 degree are optimal.
The structural configuration and feature of rigid linear ball slide rail are pushed for height of the present invention above, and is worth explanation first
It is, because respectively rolling channel 311,312,313 of the present invention is the both sides that are symmetricly set in the slide rail 30, the top of the slide rail 30
Top surface does not configure rolling channel, therefore can be saturating in the both sides difference of the slide rail 30 as shown in Figure 6 when grinding produces the slide rail 30
Side abrasive article A is crossed while carrying out disposable attrition process can complete, is not required to carry out top or the grinding in other directions again,
And production process can be simplified, production efficiency is improved, and create higher economic benefit;And known technology is also avoided using twice
The machining benchmark of manufacturing procedure is different, makes top surface and the rolling channel of side relative with error, and reduces the accurate of ball slide rail
The problem of spending.
And of the invention in terms of quiet rated load ability, ball total quantity, the entirety of quiet rated load numerical value and each row
The ball columns of ball slide rail is into positive correlation, and the present invention is overall altogether with six row balls, compared to general two row, four row
Ball slide rail can have higher quiet rated load;And the sectional area size of structure can significantly affect the rigidity of structure, this hair
It is bright especially to limit neck width W2 again while 50 columns of ball is increased and limit as described above, neck width W2 is made according to this not
Reason increases the columns of ball 50 and reduced width and influences the rigidity of the slide rail 30, and the present invention increases the columns of ball 50 and simultaneously tieed up simultaneously
Neck width W2 is held, and the rigidity of slide rail 30 can be improved really, extends life of product;And pushed for especially up to increase rigid
Effect, and lifting push the quiet rated load in direction, and the first half of the present invention on head 31 sets four rolling channels 311,312, and (both sides are each
Two rolling channels, therefore have four rolling channels), and two rolling channels 313 (as shown in Figure 4) are only set in the lower half on head 31, i.e., on this
Rolling channel 311 and rolled in this 312 ditches be located at the head 31 the first half, and the lower rolling channel 313 be located at head 31 lower half
Portion;The quiet rated load that refer to the present invention is clearly superior to the comparison datagram of two kinds of existing products as shown in fig. 7, in Fig. 7
Longitudinal axis table is the quiet rated load numerical value for pushing direction of the invention pushing the quiet rated load in direction, leftmost side strip A, and
Middle strip B is the quiet rated load numerical value for pushing direction of the general linear slide rail of same size, and rightmost side strip C is general
The logical quiet rated load numerical value for pushing direction for strengthening pushing linear slide rail, can learn that the present invention's pushes the quiet of direction by Fig. 7
Rated load numerical value is far above general linear slide rail, and the quiet rated load of linear slide rail is also pushed apparently higher than common reinforcement
Numerical value (comparison under the limitation of identical size).
Further, since the columns of the slide rail rigidity of ball slide rail also with steel ball is set into positive correlation, therefore in the present invention
It is set in the state of six row balls, there can be higher rigidity compared to the ball slide rail of general two row, four row, refer to this
Invention push and lateral rigidity value is clearly superior to the comparison datagram of two kinds of existing products as shown in figure 8, longitudinal axis table in Fig. 8
Linear ball sliding rail containing is pushing direction or lateral rigidity, and strip A is the values of stiffness of the linear slide rail of the present invention, and strip B is one
As linear slide rail values of stiffness, strip C is the existing values of stiffness of linear slide rail for strengthening pushing, and of the invention pushes the firm of direction
Property value be far above the linear slide rail of general same size, and substantially also above it is existing strengthen pushing linear slide rail push direction
Values of stiffness, and if assessed by lateral rigidity value, lateral rigidity value of the invention is not only far above general same size
Linear slide rail, and far above it is existing strengthen push linear slide rail values of stiffness (identical size limitation under comparison).
Furthermore, it is 20~70 degree that the present invention, which particularly configures each ball 50 and the contact angle α of rolling channel 312 angle, please
Coordinate refering to Fig. 9 show contact angle α of the present invention change with push and lateral quiet rated load datagram, the longitudinal axis in Fig. 9
The quiet rated load of table linear ball sliding rail containing, solid line (triangular data points) represents to push the quiet rated load in direction, and dotted line
(circular data point) represents lateral quiet rated load, although reduction contact angle α angle, which can be lifted, pushes the quiet specified of direction
Load, but be also relatively more greatly reduced lateral quiet rated load, Fig. 9 be shown in contact angle α angle be less than 20 degree with
Afterwards, the quiet rated load continuous decrease of side load, but push direction quiet rated load lifting effect slow down, similarly,
It is more than in contact angle α angle after 70 degree, pushes the quiet rated load continuous decrease in direction, but the quiet of side load specified is born
The effect of lotus lifting less, that is, contact angle α angle is less than 20 degree or during more than 70 degree, thinks increased quiet rated load simultaneously
Without substantially increase, the quiet rated load of other direction is caused to significantly reduce on the contrary, and general toter is slided for linear ball
The demand of rail, which generally has to have concurrently, pushes direction and lateral quiet rated load, thus in contact angle α angle design with 20~
70 degree are preferred;Furthermore, can see from the curve shown in Fig. 9, when contact angle α is 50 degree, push the quiet rated load in direction
It is approximately equal to lateral quiet rated load, and considering for the present invention is that lifting pushes rigidity, therefore to select contact angle α as less than 50
The quiet rated load that degree makes to push direction is more than lateral quiet rated load for more preferably, and again from lateral quiet rated load curve
From the point of view of, when contact angle α angle is 30 degree, lateral quiet rated load numerical value has reached its lateral quiet rated load most
More than half of big numerical value, that is, it is with suitable lateral quiet rated load, therefore, selection contact angle α angle is big
The effect for taking into account lateral quiet rated load can be reached in 30 degree, therefore is more than 30 degree in design with contact angle α angle
For more preferably, i.e., contact angle α angle is more preferably at 30~50 degree;And most preferred embodiment is to set contact angle α for 40 degree, in this shape
The quiet rated load in direction is pushed under state apparently higher than lateral quiet rated load, can significantly improve and push load-bearing capacity, and again
Ability with fine side load there is provided height pushes rigid characteristic, and satisfaction pushes the higher behaviour in service of workload demand.
Claims (9)
1. a kind of height pushes rigid linear ball slide rail, comprising:
One slide rail, along the strip block structure of an X-direction development length, and the vertical X-direction then defines a Y-direction and a Z side
To, and the Y-direction is vertical with the Z-direction, and the slide rail, from the point of view of the two ends end face in the X-direction, the slide rail is integrally relative
The structure set in a symmetrical axial symmetry;And the slide rail is in sequentially dividing into a head, a neck and a bottom in the Z-direction
Portion, the head compared to the bottom in being upper direction in the Z-direction, and the bottom compared to the head under being in the Z-direction
Direction, the head is a head width in the Breadth Maximum in the Y-direction, and the neck is one in the minimum widith in the Y-direction
Neck width, and the bottom in the Breadth Maximum in the Y-direction be a bottom width, the neck width be less than the head width and
The bottom width;And three rolling channels are set respectively in symmetry axis both sides on the slide rail;
One sliding block, with a grooving, the sliding block is slippingly set on the slide rail with the grooving, and correspondence respectively should on the grooving
The position of rolling channel sets six rolling grooves;
Multiple balls, are rollably placed in respectively between the rolling channel and the rolling groove;
It is characterized in that;
The slide rail sets in rolling channel on one, one rolling channel and once rolling channel respectively in the symmetry axis both sides on the head,
And respectively on this rolling channel in the Z-direction position of the slide rail higher than respectively in this rolling channel in the Z-direction position of the slide rail;And it is each
In this rolling channel in the Z-direction position of the slide rail higher than each lower rolling channel in the Z-direction position of the slide rail;And
Respectively the ball produces a contact point respectively with each rolling channel, and the contact point has a normal, respectively rolling channel on this, respectively should
Angle between the normal of middle rolling channel and the upper direction of Z-direction is 20~70 degree, and respectively normal and Z of the lower rolling channel
Angle between the lower direction in direction is 20~70 degree;
The center for two balls that each ball is placed in two rolling channels on this is one first rolling in the spacing in the Y-direction
Pearl centre-to-centre spacing;The neck width is more than the numerical value that the first ball centre-to-centre spacing cuts the diameter of the ball.
2. height as claimed in claim 1 pushes rigid linear ball slide rail, it is characterised in that:Each upper rolling channel, respectively should
Angle between the normal of middle rolling channel and the upper direction of Z-direction is 30~50 degree, and respectively normal and Z of the lower rolling channel
Angle between the lower direction in direction is 30~50 degree.
3. height as claimed in claim 2 pushes rigid linear ball slide rail, it is characterised in that:Each upper rolling channel, respectively should
Angle between the normal of middle rolling channel and the upper direction of Z-direction is 40 degree, and respectively normal and Z-direction of the lower rolling channel
Lower direction between angle be 40 degree.
4. the height as described in claim 1 pushes rigid linear ball slide rail, it is characterised in that:Each neck width is more than
The first ball centre-to-centre spacing.
5. the height as described in claim 1 or 4 pushes rigid linear ball slide rail, it is characterised in that:Each ball is placed in
The center of two balls in two rolling channels in this is one second ball centre-to-centre spacing, the neck width in the spacing in the Y-direction
Less than the second ball centre-to-centre spacing.
6. the height as described in claim 1 or 4 pushes rigid linear ball slide rail, it is characterised in that:Each ball is housed
In the spacing in the Y-direction it is one the 3rd ball centre-to-centre spacing in the center of two balls in the two lower rolling channels, the neck is wide
Degree is less than the 3rd ball centre-to-centre spacing.
7. the height as described in claim 6 pushes rigid linear ball slide rail, it is characterised in that:The neck width is less than should
3rd ball centre-to-centre spacing cuts the numerical value of the diameter of the ball.
8. the height as described in claim 1 pushes rigid linear ball slide rail, it is characterised in that:Each upper rolling channel and should
Middle rolling channel is located at the first half on the head, and the lower rolling channel is located at the lower half on head.
9. the height as described in claim 1 pushes rigid linear ball slide rail, it is characterised in that:The upper rolling channel and respectively should
Angle between the normal of middle rolling channel and the upper direction of Z-direction is equivalent.
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CN201410451643.8A CN105465172B (en) | 2014-09-05 | 2014-09-05 | Height pushes rigid linear ball slide rail |
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CN201410451643.8A CN105465172B (en) | 2014-09-05 | 2014-09-05 | Height pushes rigid linear ball slide rail |
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CN105465172B true CN105465172B (en) | 2017-11-07 |
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Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2183848Y (en) * | 1993-12-29 | 1994-11-30 | 上银科技股份有限公司 | Ball sliding rail for linear movement |
CN2188449Y (en) * | 1994-04-23 | 1995-02-01 | 上银科技股份有限公司 | Linear ball guide rail |
CN1199451A (en) * | 1996-06-18 | 1998-11-18 | Thk株式会社 | Linear motion guide apparatus equipped with plurality of rows of ball chains |
CN201953814U (en) * | 2010-12-29 | 2011-08-31 | 江苏瑞安特机械集团有限公司 | Four-direction uniform-load rolling linear guide rail pair with large bearing capacity |
Family Cites Families (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP6268754B2 (en) * | 2012-05-28 | 2018-01-31 | 日本精工株式会社 | Linear motion guide device |
-
2014
- 2014-09-05 CN CN201410451643.8A patent/CN105465172B/en active Active
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2183848Y (en) * | 1993-12-29 | 1994-11-30 | 上银科技股份有限公司 | Ball sliding rail for linear movement |
CN2188449Y (en) * | 1994-04-23 | 1995-02-01 | 上银科技股份有限公司 | Linear ball guide rail |
CN1199451A (en) * | 1996-06-18 | 1998-11-18 | Thk株式会社 | Linear motion guide apparatus equipped with plurality of rows of ball chains |
CN201953814U (en) * | 2010-12-29 | 2011-08-31 | 江苏瑞安特机械集团有限公司 | Four-direction uniform-load rolling linear guide rail pair with large bearing capacity |
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CN105465172A (en) | 2016-04-06 |
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