CN108221198A - A kind of rotatable fabric block splicing combined mechanism - Google Patents
A kind of rotatable fabric block splicing combined mechanism Download PDFInfo
- Publication number
- CN108221198A CN108221198A CN201810311241.6A CN201810311241A CN108221198A CN 108221198 A CN108221198 A CN 108221198A CN 201810311241 A CN201810311241 A CN 201810311241A CN 108221198 A CN108221198 A CN 108221198A
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- CN
- China
- Prior art keywords
- plate
- fixed
- rack
- top surface
- transverse
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Classifications
-
- D—TEXTILES; PAPER
- D05—SEWING; EMBROIDERING; TUFTING
- D05B—SEWING
- D05B35/00—Work-feeding or -handling elements not otherwise provided for
- D05B35/02—Work-feeding or -handling elements not otherwise provided for for facilitating seaming; Hem-turning elements; Hemmers
Abstract
The invention discloses a kind of rotatable fabric block splicing combined mechanisms, including rack, the surface of the top plate of the rack is equipped with rotary mainboard, the top surface of rotary mainboard is fixed with lower support column, fixed bottom plate is fixed on the top surface of all lower support columns, rotation main shaft is hinged in the middle part of the top plate of rack, the lower part of rotation main shaft is in the lower section of the top plate of rack, the upper end of rotation main shaft is in the top face of the top plate of rack and is fixed on the bottom surface of rotary mainboard, the lower end of rotation main shaft is fixed with transmission gear, installing plate is fixed on the madial wall of the lower support plate of rack, the bottom surface of installing plate is fixed with rotary drive motor;Two pieces of fabric blocks can be fixed and then mutually be pressed against stitching portion by it, ensure that stitching position accurate alignment is pressed against, convenient follow-up sewing, without going to notice whether two pieces of fabric blocks are aligned again, simultaneously, it can need to carry out horizontal position rotation adjusting according to user, and meet user uses status requirement.
Description
Technical field:
The present invention relates to fabric technical field of processing equipment, more specifically to a kind of rotatable fabric block splicing is used
Combined mechanism.
Background technology:
Existing two pieces of fabric blocks are spliced, and usually manually shakeout two pieces of fabrics, and due to being common
It shakeouts, two pieces of fabric alignment accuracies are not high when splicing, and when stitching portion is sewed, whether also notice right
Together, effect is poor, inefficient, particularly new hand, can not generally sew well,.
Invention content:
The purpose of the present invention and provides a kind of rotatable fabric block splicing combination aiming at the deficiency of the prior art
Mechanism, two pieces of fabric blocks can be fixed and then mutually be pressed against stitching portion by it, ensure that stitching position accurate alignment is pressed against, after convenient
Continuous sewing, notices whether two pieces of fabric blocks are aligned without going again, greatly improves sewing efficiency and effect, meanwhile, it can basis
User needs to carry out horizontal position rotation adjusting, and meet user uses status requirement.
The technology solution of the present invention is as follows:
A kind of rotatable fabric block splicing combined mechanism, including rack, the surface of the top plate of the rack is equipped with
Rotary mainboard, the top surface of rotary mainboard are fixed with lower support column, and fixed bottom plate is fixed on the top surface of all lower support columns, rack
Top plate in the middle part of be hinged with rotation main shaft, rotate main shaft lower part be in rack top plate lower section, rotate the upper end of main shaft
The top face of top plate in rack is simultaneously fixed on the bottom surface of rotary mainboard, and the lower end for rotating main shaft is fixed with driving cog
It takes turns, installing plate is fixed on the madial wall of the lower support plate of rack, the bottom surface of installing plate is fixed with rotary drive motor, rotation
The output shaft of driving motor passes through installing plate and is fixed with drive gear, and drive gear is meshed with transmission gear;
The left side and right side top surface of fixed bottom plate are respectively and fixedly provided with vertical gripper shoe, on the madial wall of two vertical gripper shoes
Rotation section is hinged with, vertical swivel plate, the relative wall of two vertical swivel plates are fixed on the relative wall of two rotation sections
Lower part be fixed with transverse plate, form outer toothed portion on the lateral wall of vertical swivel plate, the middle part bottom surface of fixed bottom plate is fixed with
Double shaft driving motors, two output shafts of double shaft driving motors are connected with transition axis by shaft coupling, are fixed on transition axis
There is overturning drive gear, overturn in the straight slot that drive gear sleeve forms on corresponding fixed bottom plate, overturn drive gear
It is meshed with the outer toothed portion of vertical swivel plate;
The left and right ends of the top surface of two transverse plates are respectively and fixedly provided with support plate, and the both ends of transverse screw are hinged on two supports
On plate, mobile motor is fixed on the lateral wall of one of support plate, the output shaft of mobile motor is splined shaft, and splined shaft is inserted
It is sleeved in the splined hole that one end of transverse screw has, movable block is screwed onto in corresponding transverse screw, and the top surface of movable block is consolidated
Surely there is holding movable plate, fabric block to be spliced is placed on holding movable plate.
The bottom surface of the movable block is fixed with self-lubricating layer, and self-lubricating layer is pressed against on the top surface of transverse plate.
The outer end top surface of the transverse plate is fixed with bending frame, and multiple upper compression gas are fixed on the top plate of upper bending frame
Cylinder, the push rod of upper compression cylinder pass through the top plate of upper bending frame and are fixed with pressure plate, and upper pressure plate is pressed against face to be spliced
Expect on block.
The inner end bottom surface of the transverse plate is fixed with lower bending frame, and the bottom surface of the bottom plate of lower bending frame is fixed with multiple pushings
Tight cylinder, the push rod of lower compression cylinder pass through the bottom plate of lower bending frame and are fixed with lower pressure plate, the inner end of fabric block to be spliced
Inner end wall surface bending downward along transverse plate is simultaneously clamped between lower pressure plate and the bottom surface of transverse plate.
Bottom surface at the inner end of the top surface of the transverse plate, inner end wall surface and transverse plate is respectively and fixedly provided with friction protective layer.
The bottom surface of the upper pressure plate and the top surface of lower pressure plate are respectively and fixedly provided with frictional layer.
The top surface of the top plate of the rack is fixed with self-lubricating set, and the top surface of self-lubricating set is pressed against the bottom surface of rotary mainboard
On, rotation main shaft sleeve is in self-lubricating set.
The transition axis is hinged on link block, and link block is fixed on the bottom surface of fixed bottom plate.
The beneficial effects of the present invention are:
Two pieces of fabric blocks can be fixed and then mutually be pressed against stitching portion by it, ensure that stitching position accurate alignment is pressed against, side
Continue sewing after an action of the bowels, notice whether two pieces of fabric blocks are aligned without going again, greatly improve sewing efficiency and effect, meanwhile, it can be with
It is needed to carry out horizontal position rotation adjusting according to user, meet user uses status requirement.
Description of the drawings:
Fig. 1 is the partial structural diagram of the present invention;
Fig. 2 is the partial enlarged view of the present invention.
Specific embodiment:
Embodiment:As shown in Fig. 1 to Fig. 2, a kind of rotatable fabric block splicing combined mechanism, including rack 10, institute
The surface for stating the top plate of rack 10 is equipped with rotary mainboard 21, and the top surface of rotary mainboard 21 is fixed with lower support column 22, fixed bottom
Plate 20 is fixed on the top surface of all lower support columns 22, and rotation main shaft 23 is hinged in the middle part of the top plate of rack 10, rotates main shaft
23 lower part is in the lower section of the top plate of rack 10, and the upper end of rotation main shaft 23 is in the top face of the top plate of rack 10 and consolidates
It is scheduled on the bottom surface of rotary mainboard 21, the lower end of rotation main shaft 23 is fixed with transmission gear 24, the lower support plate of rack 10
Be fixed with installing plate 25 on madial wall, the bottom surface of installing plate 25 is fixed with rotary drive motor 26, rotary drive motor 26 it is defeated
Shaft passes through installing plate 25 and is fixed with drive gear 27, and drive gear 27 is meshed with transmission gear 24;
The left side and right side top surface of fixed bottom plate 20 are respectively and fixedly provided with vertical gripper shoe 11, the inside of two vertical gripper shoes 11
Rotation section 16 is hinged on wall, vertical swivel plate 161, two vertical rotations are fixed on the relative wall of two rotation sections 16
The lower part of the relative wall of plate 161 is fixed with transverse plate 162, and outer toothed portion is formed on the lateral wall of vertical swivel plate 161, fixed
The middle part bottom surface of bottom plate 20 is fixed with double shaft driving motors 28, and two output shafts of double shaft driving motors 28 pass through shaft coupling
Transition axis 29 is connected with, overturning drive gear 291 is fixed on transition axis 29, overturning 291 sleeve of drive gear is corresponding solid
Determine in the straight slot formed on bottom plate 20, overturning drive gear 291 is meshed with the outer toothed portion of vertical swivel plate 161;
The left and right ends of the top surface of two transverse plates 162 are respectively and fixedly provided with support plate 163, and the both ends of transverse screw 164 are hinged
In two support plates 163, mobile motor 165 is fixed on the lateral wall of one of support plate 163, mobile motor 165
Output shaft is splined shaft, and in the splined hole that splined shaft sleeve has in one end of transverse screw 164, movable block 166 is screwed onto pair
In the transverse screw 164 answered, the top surface of movable block 166 is fixed with holding movable plate 167, places and needs on holding movable plate 167
Splice fabric block 100.
Further, the bottom surface of the movable block 166 is fixed with self-lubricating layer 168, and self-lubricating layer 168 is pressed against transverse direction
On the top surface of plate 162.
Further, the outer end top surface of the transverse plate 162 is fixed with bending frame 17, on the top plate of upper bending frame 17
Multiple upper compression cylinders 171 are fixed with, the push rod of upper compression cylinder 171 passes through the top plate of upper bending frame 17 and is fixed with compression
Plate 172, upper pressure plate 172 are pressed against on fabric block 100 to be spliced.
Further, the inner end bottom surface of the transverse plate 162 is fixed with lower bending frame 18, the bottom plate of lower bending frame 18
Bottom surface is fixed with multiple lower compression cylinders 181, and the push rod of lower compression cylinder 181 passes through the bottom plate of lower bending frame 18 and is fixed with down
Pressure plate 182, the inner end of fabric block 100 to be spliced downward along transverse plate 162 inner end wall surface bending and be clamped in lower compression
Between the bottom surface of plate 182 and transverse plate 162.
Further, the bottom surface at the inner end of the top surface of the transverse plate 162, inner end wall surface and transverse plate 162 is solid
Surely there is friction protective layer 1.
Further, the bottom surface of the upper pressure plate 172 and the top surface of lower pressure plate 182 are respectively and fixedly provided with frictional layer 2.
Further, the top surface of the top plate of the rack 10 is fixed with self-lubricating set 1, and the top surface of self-lubricating set 1 is pressed against
On the bottom surface of rotary mainboard 21, rotation 23 sleeve of main shaft is in self-lubricating set 1.
Further, the transition axis 29 is hinged on link block 2, and link block 2 is fixed on the bottom surface of fixed bottom plate 20
On.
When in use, the difference illuminated according to ambient light, can be run by rotary drive motor 26, realize rotation master
Plate 21 rotates, and ensures that the position of component thereon rotates the position needed to user, and then, fabric block 100 to be spliced is put
It puts on holding movable plate 167, then, is run by upper compression cylinder 171 and lower compression cylinder 181 so that upper pressure plate 172
It is pressed against at the outer end of fabric block 100 to be spliced, the inner end of fabric block 100 to be spliced is downward along the inner end wall of transverse plate 162
Face bending is simultaneously clamped between lower pressure plate 182 and the bottom surface of transverse plate 162, completes to fix, at this point, ensureing two faces to be spliced
To expect that 100 fixed position of block is accurate, then, run by double shaft driving motors 28 so that two transverse plates 162 rotate,
So that two transverse plates 162 realize 180 degree overturning, then, run by mobile motor 165 so that two transverse plates 162 are opposite
Movement is simultaneously mutually pressed against, and realizes that two fabric blocks 100 to be spliced align and are pressed against, then, lower compression cylinder 181 is run so that
Lower pressure plate 182 unclamps, then, you can the end cloth that two fabric blocks 100 to be spliced are in lower pressure plate 182 stitches
System, effect is good, efficient, and sewing effect is good.
Claims (8)
1. a kind of rotatable fabric block splicing combined mechanism, including rack (10), it is characterised in that:The rack (10)
The surface of top plate is equipped with rotary mainboard (21), and the top surface of rotary mainboard (21) is fixed with lower support column (22), fixed bottom plate
(20) it is fixed on the top surface of all lower support columns (22), rotation main shaft (23) is hinged in the middle part of the top plate of rack (10), turn
The lower part of dynamic main shaft (23) is in the lower section of the top plate of rack (10), and the upper end of rotation main shaft (23) is in the top plate of rack (10)
Top face and be fixed on the bottom surface of rotary mainboard (21), rotation main shaft (23) lower end be fixed with transmission gear (24),
Installing plate (25) is fixed on the madial wall of the lower support plate of rack (10), the bottom surface of installing plate (25) is fixed with rotation driving
Motor (26), the output shaft of rotary drive motor (26) pass through installing plate (25) and are fixed with drive gear (27), drive gear
(27) it is meshed with transmission gear (24);
The left side and right side top surface of fixed bottom plate (20) are respectively and fixedly provided with vertical gripper shoe (11), two vertical gripper shoes (11) it is interior
Rotation section (16) is hinged on side wall, is fixed with vertical swivel plate (161) on the relative wall of two rotation sections (16), two
The lower part of the relative wall of vertical swivel plate (161) is fixed with transverse plate (162), on the lateral wall of vertical swivel plate (161) into
Type has outer toothed portion, and the middle part bottom surface of fixed bottom plate (20) is fixed with double shaft driving motors (28), double shaft driving motors (28)
Two output shafts transition axis (29) is connected with by shaft coupling, be fixed on transition axis (29) overturning drive gear (291), turn over
Turn in the straight slot that drive gear (291) sleeve forms on corresponding fixed bottom plate (20), overturning drive gear (291) is with erecting
The outer toothed portion of direct rotary flap (161) is meshed;
The left and right ends of the top surface of two transverse plates (162) are respectively and fixedly provided with support plate (163), the both ends hinge of transverse screw (164)
It is connected on two support plates (163), mobile motor (165), mobile electricity is fixed on the lateral wall of one of support plate (163)
The output shaft of machine (165) is splined shaft, in the splined hole that splined shaft sleeve has in one end of transverse screw (164), movable block
(166) it is screwed onto in corresponding transverse screw (164), the top surface of movable block (166) is fixed with holding movable plate (167), places
Fabric block (100) to be spliced is placed on movable plate (167).
2. a kind of rotatable fabric block splicing combined mechanism according to claim 1, it is characterised in that:The movable block
(166) bottom surface is fixed with self-lubricating layer (168), and self-lubricating layer (168) is pressed against on the top surface of transverse plate (162).
3. a kind of rotatable fabric block splicing combined mechanism according to claim 1, it is characterised in that:The transverse plate
(162) outer end top surface is fixed with bending frame (17), and multiple upper compression cylinders are fixed on the top plate of upper bending frame (17)
(171), the push rod of upper compression cylinder (171) passes through the top plate of upper bending frame (17) and is fixed with pressure plate (172), upper compression
Plate (172) is pressed against on fabric block (100) to be spliced.
4. a kind of rotatable fabric block splicing combined mechanism according to claim 3, it is characterised in that:The transverse plate
(162) inner end bottom surface is fixed with lower bending frame (18), and the bottom surface of the bottom plate of lower bending frame (18) is fixed with multiple lower compression gas
Cylinder (181), the push rod of lower compression cylinder (181) pass through the bottom plate of lower bending frame (18) and are fixed with lower pressure plate (182), wait to spell
The inner end of junction material block (100) downward along transverse plate (162) inner end wall surface bending and be clamped in lower pressure plate (182) with it is horizontal
Between the bottom surface of plate (162).
5. a kind of rotatable fabric block splicing combined mechanism according to claim 1, it is characterised in that:The transverse plate
(162) bottom surface at the inner end of top surface, inner end wall surface and transverse plate (162) is respectively and fixedly provided with friction protective layer (1).
6. a kind of rotatable fabric block splicing combined mechanism according to claim 5, it is characterised in that:The upper compression
The bottom surface of plate (172) and the top surface of lower pressure plate (182) are respectively and fixedly provided with frictional layer (2).
7. a kind of rotatable fabric block splicing combined mechanism according to claim 1, it is characterised in that:The rack
(10) top surface of top plate is fixed with self-lubricating set (1), and the top surface of self-lubricating set (1) is pressed against the bottom surface of rotary mainboard (21)
On, rotation main shaft (23) sleeve is in self-lubricating set (1).
8. a kind of rotatable fabric block splicing combined mechanism according to claim 1, it is characterised in that:The transition axis
(29) it is hinged on link block (2), link block (2) is fixed on the bottom surface of fixed bottom plate (20).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201810311241.6A CN108221198A (en) | 2018-04-09 | 2018-04-09 | A kind of rotatable fabric block splicing combined mechanism |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201810311241.6A CN108221198A (en) | 2018-04-09 | 2018-04-09 | A kind of rotatable fabric block splicing combined mechanism |
Publications (1)
Publication Number | Publication Date |
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CN108221198A true CN108221198A (en) | 2018-06-29 |
Family
ID=62657586
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201810311241.6A Withdrawn CN108221198A (en) | 2018-04-09 | 2018-04-09 | A kind of rotatable fabric block splicing combined mechanism |
Country Status (1)
Country | Link |
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CN (1) | CN108221198A (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113317601A (en) * | 2021-05-28 | 2021-08-31 | 浙江敏杰新材料科技有限公司 | Method for manufacturing nylon zipper |
-
2018
- 2018-04-09 CN CN201810311241.6A patent/CN108221198A/en not_active Withdrawn
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113317601A (en) * | 2021-05-28 | 2021-08-31 | 浙江敏杰新材料科技有限公司 | Method for manufacturing nylon zipper |
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PB01 | Publication | ||
SE01 | Entry into force of request for substantive examination | ||
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WW01 | Invention patent application withdrawn after publication |
Application publication date: 20180629 |
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WW01 | Invention patent application withdrawn after publication |