CN106312496B - A kind of guide rail locating mounting method - Google Patents
A kind of guide rail locating mounting method Download PDFInfo
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- CN106312496B CN106312496B CN201610459767.XA CN201610459767A CN106312496B CN 106312496 B CN106312496 B CN 106312496B CN 201610459767 A CN201610459767 A CN 201610459767A CN 106312496 B CN106312496 B CN 106312496B
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- guide rail
- benchmark
- direction guide
- locating
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23P—METAL-WORKING NOT OTHERWISE PROVIDED FOR; COMBINED OPERATIONS; UNIVERSAL MACHINE TOOLS
- B23P19/00—Machines for simply fitting together or separating metal parts or objects, or metal and non-metal parts, whether or not involving some deformation; Tools or devices therefor so far as not provided for in other classes
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- Mechanical Engineering (AREA)
- Sewing Machines And Sewing (AREA)
Abstract
The present invention relates to embroidery machinery fields, specifically disclose a kind of guide rail locating mounting method of embroidery machine.In traditional embroidery machine guide rail mounting process, the position of Y-direction guide rail is positioned by tape measure, and Y-direction guide rail is adjusted relative to the verticality and X direction guiding rails of shuttle box relative to the verticality of Y-direction guide rail by angle square.Since the entire length of embroidery machine is longer, above-mentioned mounting means cannot measure the verticality of distal end guide rail, and X is to control accuracy larger with the error of perpendicularity of Y-direction guide rail, and then influencing embroidery machine equipment.And in the present invention, Y-direction guide rail and the verticality and the depth of parallelism of X direction guiding rails are controlled by locating rod and spacing regulator, eliminate human error, installation effectiveness and installation accuracy are obviously improved.
Description
Technical field
The present invention relates to embroidery machinery fields, and in particular to a kind of guide rail locating mounting method of embroidery machine.
Background technology
Embroidery machine usually has orthogonal X direction guiding rails and Y-direction guide rail, wherein Y-direction guide rail and several shuttle boxes place
Line it is vertical.In current assembly technology, all shuttle boxes are fixedly installed in rack first, then with shuttle box
On the basis of Y-direction guide rail is installed, finally on the basis of Y-direction guide rail install X direction guiding rails.
It in the assembly technology of above-mentioned installation Y-direction guide rail, is positioned first by tape measure, during benchmark Y-direction guide rail is positioned at
Between between 2 shuttle boxes, then pass through angle square and adjust verticality between benchmark Y-direction guide rail and shuttle box.In the assembly technology
In, there are human error, the experience of installation accuracy and installer are closely bound up for tape measure positioning.Simultaneously as the size of angle square
It is limited in scope, when adjusting verticality, Y-direction guide rail can only be adjusted between one end of shuttle box and neighbouring lesser amt shuttle box
Verticality.The entire length of usual embroidery machine is longer, and the quantity of shuttle box is also more, and this mode cannot be measured far from shuttle box
For the Y-direction guide rail of body one end with respect to the verticality of shuttle box, the error of perpendicularity for leading to Y-direction guide rail is larger, and then influences embroidery machine
The control accuracy of equipment.
In the prior art, Y-direction guide rail is after installation is complete, and by angle square location and installation X direction guiding rails, this kind of mode is equally deposited
Can not adjust distal end X direction guiding rails with respect to Y-direction guide rail verticality the defects of, the error of perpendicularity for leading to X direction guiding rails is larger, into
And influence the control accuracy of embroidery machine equipment.
Invention content
The technical problem to be solved in the present invention is to provide a kind of improved guide rail locating mounting method, to solve the prior art
The defects of installation accuracy of middle guide is relatively low.
In order to solve the above-mentioned technical problem, the technical solution of this offer is as follows:A kind of guide rail locating mounting method, is at least wrapped
Y-direction guide rail installation steps are included, which includes:
(1)Reference for installation Y-direction guide rail
Benchmark Y-direction guide rail is positioned between intermediate two shuttle boxes and the benchmark Y-direction guide rail is relative to big with shuttle box
It causes vertically, 2 datum marks at least to be selected on the length direction of the benchmark Y-direction guide rail, it is wide which is located at benchmark Y-direction guide rail
Spend the middle in direction;
At least a pair of of shuttle box of selection, a pair of of shuttle box are located at both sides of benchmark Y-direction guide rail and theoretically symmetrical,
A datum mark is respectively selected on a pair of of shuttle box and two datum marks are symmetrical;
The verticality of benchmark Y-direction guide rail is adjusted by locating rod, the locating rod includes base shaft and set on base shaft both ends
Locating cone;During adjusting verticality, a base being first positioned over the locating cone of locating rod one end in benchmark Y-direction guide rail
On schedule, using the datum mark as centre swinging locating rod, make the locating cone of the locating rod other end respectively with two symmetrical shuttles
Datum mark on babinet overlaps;Then another datum mark locating cone of locating rod one end being positioned in benchmark Y-direction guide rail,
It repeats the above steps;
(2)Non-referenced Y-direction guide rail is installed
The distance between non-referenced Y-direction guide rail and benchmark Y-direction guide rail and the depth of parallelism are adjusted by spacing regulator;It is described
Spacing regulator include baseline rod, on baseline rod one group of origin reference location set and at least one set on baseline rod
Adjusting set, origin reference location set include the standard sleeve being fixed on baseline rod and can relative datum set axial movement fixation
Set, the adjusting set include being set on baseline rod can relative datum set adjust mobile stop collar and can relative limit set is axial moves
Dynamic fixing sleeve.
In above-mentioned guide rail locating mounting method, pass through the locating cone and the benchmark in benchmark Y-direction guide rail of locating rod one end
Point overlaps, and using the datum mark as centre swinging locating rod, make the locating cone of the other end respectively with two symmetrical shuttle boxs
The mode that datum mark on body overlaps carries out positioning and compasses etc. half is utilized with adjusting the verticality of benchmark Y-direction guide rail, which
Diameter draws the principle of circle and isosceles triangle, and compared with conventional tape measure and angle square positioning, adjusting the mode of verticality, operation is simpler
Single, human error is smaller, and the positioning accuracy and verticality precision of Y-direction guide rail are higher, have saved installation and adjustment time, simultaneously
Improve the control accuracy of embroidery machine equipment.
The distance between non-referenced Y-direction guide rail and Baseline baseline Y-direction guide rail and the depth of parallelism are adjusted by spacing regulator,
Stop collar is adjusted first relative to the spacing between standard sleeve, then at the both ends of non-referenced Y-direction guide rail and benchmark Y-direction guide rail point
Not being adjusted by origin reference location set and adjusting set can limit between non-referenced Y-direction guide rail and Baseline baseline Y-direction guide rail
Distance and the depth of parallelism.The mode of operation is easy to operate, and installation effectiveness has with installation accuracy significantly to be promoted.
Further, X direction guiding rail installation steps are further included, which includes:
(1)Reference for installation X direction guiding rails
On the basis of benchmark Y-direction guide rail, benchmark Y-direction guide rail side is fixed in one end of benchmark X direction guiding rails, in benchmark X
One end far from benchmark Y-direction guide rail on direction guiding rail selects a datum mark, and two relative datum X are selected in benchmark Y-direction guide rail
The symmetrical datum mark of direction guiding rail adjusts the verticality of benchmark X direction guiding rail relative datum Y-direction guide rails by the locating rod;Adjustment
During verticality, a datum mark being first positioned over the locating cone of locating rod one end on benchmark X direction guiding rails, with the base
On schedule for centre swinging locating rod, make the locating cone of the locating rod other end respectively with two datum mark weights in benchmark Y-direction guide rail
It closes;
(2)Non-referenced X direction guiding rails are installed
The distance between non-referenced X direction guiding rails and Baseline baseline X direction guiding rails and the depth of parallelism are adjusted by spacing regulator.
The installation method of the X direction guiding rails has and the above-mentioned same technique effect of Y-direction guide rail mounting means.
Preferably, the base shaft adjustable in length of the locating rod.The locating rod of the structure, suitable for larger size range
Verticality adjust.
Preferably, the baseline rod of the spacing regulator is equipped at least two groups of adjusting sets, limited in every group of adjusting set
The position of position set is adjusted on the basis of standard sleeve.All stop collars are adjusted on the basis of standard sleeve, are added up
Error is smaller, and installation accuracy is higher.
Description of the drawings
Fig. 1 is the scheme of installation that the present embodiment installs Y-direction guide rail;
Fig. 2 is the scheme of installation that the present embodiment installs X direction guiding rails;
Fig. 3 is the structure diagram of the present embodiment locating rod;
Fig. 4 is the structure diagram of the present embodiment spacing regulator;
Fig. 5 is the structure diagram of fixing sleeve in the present embodiment spacing regulator.
Specific embodiment
In order to make the purpose , technical scheme and advantage of the present invention be clearer, with reference to the accompanying drawings and embodiments, it is right
The present invention is further elaborated.It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, and
It is not used in the restriction present invention.
As shown in Figure 1, before Y-direction guide rail 30 is installed, shuttle box 10 has been installed on the rack of embroidery machine with mandrel 20
On, during Y-direction guide rail 30 is installed, it will be installed using shuttle box 10 as with reference to benchmark.
Specifically, the process of Y-direction guide rail is installed as shown in Figure 1, the installation of benchmark Y-direction guide rail and non-referenced Y-direction should be included
Guide rail is installed.During reference for installation Y-direction guide rail, first, benchmark Y-direction guide rail is positioned among embroidery machine frame two
Between shuttle box 10 and the benchmark Y-direction guide rail is substantially vertical relative to shuttle box;Then, in the length side of the benchmark Y-direction guide rail
2 datum marks 31 are at least selected upwards, which is located at the middle of benchmark Y-direction guide rail width direction.Then, it selects extremely
Few a pair of shuttle box 10, a pair of of shuttle box 10 is located at both sides of benchmark Y-direction guide rail and theoretically symmetrical, at this to shuttle box
A datum mark is respectively selected on 10 and two datum marks are symmetrical.
The present embodiment further includes a kind of locating rod 40 as shown in Figure 3, which includes base shaft 41 and set on base shaft 41
The locating cone 42 at both ends.Preferably, in the case of the length of base shaft 41 is adjustable, the scope of application is wider.Pass through the positioning
During bar 40 adjusts the verticality of benchmark Y-direction guide rail, the locating cone of locating rod one end is positioned in benchmark Y-direction guide rail first
A datum mark 31, using the datum mark as centre swinging locating rod, make the locating cone of the locating rod other end respectively with it is mutually right
The datum mark on two shuttle boxes claimed overlaps.Then the locating cone of locating rod one end is positioned over another in benchmark Y-direction guide rail
One datum mark, repeats the above steps.The principle that the radiuses such as compasses draw circle and isosceles triangle is utilized in which, with conventional roll
The mode that ruler with angle square positioned, adjusted verticality is compared, and operation is simpler, and human error is smaller, the positioning accuracy of Y-direction guide rail
It is higher with verticality precision, installation and adjustment time are saved, while improve the control accuracy of embroidery machine equipment.
During non-referenced Y-direction guide rail is installed, need to use spacing regulator 50 as shown in Figure 4, the spacing
Adjusting apparatus 50 includes baseline rod 51, one group of origin reference location set on baseline rod 51 and at least one set on baseline rod
Adjusting set.Wherein origin reference location set includes being fixed at standard sleeve 52 on baseline rod 50 and can relative datum set axial movement
Fixing sleeve 53, adjusting set include being set on baseline rod 51 can relative datum set adjust mobile stop collar 54 and can relative limit set
The fixing sleeve 53 of axial movement.In this configuration, for limiting initial position, fixing sleeve 53 coordinates standard sleeve 52 with standard sleeve 52
Positioning.In the case of comprising at least two groups of adjusting sets, in every group of adjusting set the position of stop collar on the basis of standard sleeve into
Row is adjusted.All stop collars are adjusted on the basis of standard sleeve, and cumulative errors are smaller, and installation accuracy is higher.
Preferably, the stop collar 54 of the present embodiment is equipped with the threaded hole 55 of at least one radial direction, set in threaded hole 55
There is adjusting screw, which is used to be fixed after stop collar is adjusted in place.
Further, the fixing sleeve 53 of the present embodiment is as shown in figure 5, the retainer ring 531 including non-close, retainer ring 531
Both ends be equipped with the fixinig plate 532 that is oppositely arranged, fixinig plate 532 is equipped with coaxial mounting hole, and two fixinig plates 532 pass through spiral shell
Nail 533 is fixed across mounting hole.
During non-referenced Y-direction guide rail is installed specific to the present embodiment, adjust between stop collar and standard sleeve first
Then one end of standard sleeve and the side of benchmark Y-direction guide rail are close to by spacing, pass through the fixing sleeve of benchmark Y-direction guide rail opposite side
Benchmark Y-direction guide rail is fixed between fixing sleeve and standard sleeve.Then, the side of non-referenced Y-direction guide rail is close in stop collar
On, and pass through fixing sleeve and fix.Both ends between non-referenced Y-direction guide rail and benchmark Y-direction guide rail are similarly operated, you can
Control the distance between non-referenced Y-direction guide rail and Baseline baseline Y-direction guide rail and the depth of parallelism.The mode of operation is easy to operate, installation
Efficiency has with installation accuracy significantly to be promoted.
The scheme of installation of the installation X of the present embodiment shown in Fig. 2 direction guiding rails 60, it is similary including reference for installation X direction guiding rails and non-
The step of benchmark X direction guiding rails.During reference for installation X direction guiding rails, on the basis of benchmark Y-direction guide rail, by benchmark X direction guiding rails
One end be fixed on benchmark Y-direction guide rail side, one end far from benchmark Y-direction guide rail selects a benchmark on benchmark X direction guiding rails
Point 61 selects two symmetrical datum marks 32 of relative datum X direction guiding rails in benchmark Y-direction guide rail, is adjusted by the locating rod
The verticality of benchmark X direction guiding rail relative datum Y-direction guide rails;During adjusting verticality, first by the positioning of locating rod one end
Cone is positioned over a datum mark on benchmark X direction guiding rails, using the datum mark as centre swinging locating rod, makes the locating rod other end
Locating cone overlaps respectively with two datum marks in benchmark Y-direction guide rail.
During non-referenced X direction guiding rails are installed, non-referenced X direction guiding rails and benchmark base are adjusted by spacing regulator
The distance between quasi- X direction guiding rails and the depth of parallelism.The installation method of the X direction guiding rails has similary with above-mentioned Y-direction guide rail mounting means
Technique effect.
In short, the foregoing is merely illustrative of the preferred embodiments of the present invention, it is not intended to limit the invention, it is all in the present invention
Spirit and principle within all any modification, equivalent and improvement made etc., should be included in protection scope of the present invention it
It is interior.
Claims (6)
1. a kind of guide rail locating mounting method, which is characterized in that including at least Y-direction guide rail installation steps, which includes:
(1) reference for installation Y-direction guide rail
Benchmark Y-direction guide rail is positioned between intermediate two shuttle boxes and the benchmark Y-direction guide rail is substantially vertical relative to shuttle box,
2 datum marks are at least selected on the length direction of the benchmark Y-direction guide rail, which is located at benchmark Y-direction guide rail width direction
Middle;
At least a pair of of shuttle box of selection, a pair of of shuttle box is located at both sides of benchmark Y-direction guide rail and theoretically symmetrical, in a pair
A datum mark is respectively selected on shuttle box and two datum marks are symmetrical;
The verticality of benchmark Y-direction guide rail is adjusted by locating rod, the locating rod includes base shaft and the positioning set on base shaft both ends
Cone;During adjusting verticality, a benchmark being first positioned over the locating cone of locating rod one end in benchmark Y-direction guide rail
Point, using the datum mark as centre swinging locating rod, make the locating cone of the locating rod other end respectively with two symmetrical shuttle boxs
Datum mark on body overlaps;Then another datum mark locating cone of locating rod one end being positioned in benchmark Y-direction guide rail, weight
Multiple above-mentioned steps;
(2) non-referenced Y-direction guide rail is installed
The distance between non-referenced Y-direction guide rail and benchmark Y-direction guide rail and the depth of parallelism are adjusted by spacing regulator;Between described
Include baseline rod, one group of origin reference location set on baseline rod and at least one set of adjusting on baseline rod away from adjusting apparatus
Set, origin reference location set include the standard sleeve being fixed on baseline rod and can relative datum set axial movement fixing sleeve,
The adjusting set include being set on baseline rod can relative datum set adjust mobile stop collar and can relative limit set axial movement
Fixing sleeve;
In installation process, the spacing between stop collar and standard sleeve is adjusted first, then leads one end of standard sleeve and benchmark Y-direction
The side of rail is close to, by the fixing sleeve of benchmark Y-direction guide rail opposite side by benchmark Y-direction guide rail be fixed on fixing sleeve and standard sleeve it
Between;Then, the side of non-referenced Y-direction guide rail is close on stop collar, and passes through fixing sleeve and fix, in non-referenced Y-direction guide rail
Both ends between benchmark Y-direction guide rail are similarly operated, you can control non-referenced Y-direction guide rail and Baseline baseline Y-direction guide rail
The distance between and the depth of parallelism.
2. guide rail locating mounting method described in accordance with the claim 1, which is characterized in that X direction guiding rail installation steps are further included, it should
Installation steps include:
(1) reference for installation X direction guiding rails
On the basis of benchmark Y-direction guide rail, benchmark Y-direction guide rail side is fixed in one end of benchmark X direction guiding rails, in benchmark guide X
One end far from benchmark Y-direction guide rail on rail selects a datum mark, and two relative datum guides X are selected in benchmark Y-direction guide rail
The symmetrical datum mark of rail adjusts the verticality of benchmark X direction guiding rail relative datum Y-direction guide rails by the locating rod;Adjustment is vertical
During degree, a datum mark being first positioned over the locating cone of locating rod one end on benchmark X direction guiding rails, with the datum mark
For centre swinging locating rod, the locating cone of the locating rod other end is made to be overlapped respectively with two datum marks in benchmark Y-direction guide rail;
(2) non-referenced X direction guiding rails are installed
The distance between non-referenced X direction guiding rails and Baseline baseline X direction guiding rails and the depth of parallelism are adjusted by spacing regulator, installed
The method of non-referenced X direction guiding rails is identical with the method for installing non-referenced Y-direction guide rail.
3. according to the guide rail locating mounting method described in claims 1 or 2, which is characterized in that the base shaft length of the locating rod
It is adjustable.
4. according to the guide rail locating mounting method described in claims 1 or 2, which is characterized in that the base of the spacing regulator
Quasi- bar is equipped at least two groups of adjusting sets, and the position of stop collar is adjusted on the basis of standard sleeve in every group of adjusting set.
5. according to the guide rail locating mounting method described in claim 4, which is characterized in that the stop collar is equipped at least one
The threaded hole of radial direction is equipped with adjusting screw in threaded hole.
6. according to the guide rail locating mounting method described in claims 1 or 2 or 5, which is characterized in that the fixing sleeve includes non-envelope
The retainer ring closed, the both ends of retainer ring are equipped with the fixinig plate being oppositely arranged, and fixinig plate is equipped with coaxial mounting hole, two fixations
Piece is fixed by screw across mounting hole.
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CN201610459767.XA CN106312496B (en) | 2016-06-23 | 2016-06-23 | A kind of guide rail locating mounting method |
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CN201610459767.XA CN106312496B (en) | 2016-06-23 | 2016-06-23 | A kind of guide rail locating mounting method |
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CN106312496A CN106312496A (en) | 2017-01-11 |
CN106312496B true CN106312496B (en) | 2018-07-03 |
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CN107478191B (en) * | 2017-09-12 | 2019-11-15 | 中铁四局集团市政工程有限公司 | A kind of monitoring method of bridge Wavelike steel webplate bending deformation |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
KR20050015600A (en) * | 2003-08-07 | 2005-02-21 | (주)엠지테크 | Tambour drive department of Embroidering machine |
CN101760911A (en) * | 2009-11-11 | 2010-06-30 | 天津宝盈电脑机械有限公司 | Mechanism for feeding cloth in X and Y directions for computerized embroidery machine |
CN203284599U (en) * | 2013-05-23 | 2013-11-13 | 诸暨市振轨机械制造厂 | Linear guide structure for computerized embroidery machine |
CN203947293U (en) * | 2014-07-10 | 2014-11-19 | 诸暨市乐业机电有限公司 | A kind of computerized emboridering machine uses Y to work feed guide-localization mechanism |
Family Cites Families (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP5547977B2 (en) * | 2010-01-25 | 2014-07-16 | 株式会社バルダン | Multi-needle sewing machine with sequin supply device |
-
2016
- 2016-06-23 CN CN201610459767.XA patent/CN106312496B/en active Active
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
KR20050015600A (en) * | 2003-08-07 | 2005-02-21 | (주)엠지테크 | Tambour drive department of Embroidering machine |
CN101760911A (en) * | 2009-11-11 | 2010-06-30 | 天津宝盈电脑机械有限公司 | Mechanism for feeding cloth in X and Y directions for computerized embroidery machine |
CN203284599U (en) * | 2013-05-23 | 2013-11-13 | 诸暨市振轨机械制造厂 | Linear guide structure for computerized embroidery machine |
CN203947293U (en) * | 2014-07-10 | 2014-11-19 | 诸暨市乐业机电有限公司 | A kind of computerized emboridering machine uses Y to work feed guide-localization mechanism |
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