CN106637726A - Synchronous cloth transfer device and synchronous cloth transfer line - Google Patents
Synchronous cloth transfer device and synchronous cloth transfer line Download PDFInfo
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- CN106637726A CN106637726A CN201611224726.9A CN201611224726A CN106637726A CN 106637726 A CN106637726 A CN 106637726A CN 201611224726 A CN201611224726 A CN 201611224726A CN 106637726 A CN106637726 A CN 106637726A
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- Prior art keywords
- cloth
- sewing
- feeding
- truss
- holding pad
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- D—TEXTILES; PAPER
- D05—SEWING; EMBROIDERING; TUFTING
- D05B—SEWING
- D05B39/00—Workpiece carriers
Abstract
The invention relates to the technical field of garment production and sewing, and in particular to a synchronous cloth transfer device and a synchronous cloth transfer line. The synchronous cloth transfer device comprises a feeding table plate, a truss and a plurality of feeding units, wherein the feeding table plate is used for placing cloth; the truss is in parallel to the feeding table plate; the feeding units are synchronously arranged on the truss in a sliding manner; the feeding table plate is opposite to a plurality of sewing stations formed in parallel; the truss is arranged on one side, which is far away from the sewing stations, of the feeding table plate; each feeding unit corresponds to a corresponding sewing station and can drive the cloth to move on the feeding table plate. According to synchronous slide of all the feeding units on the truss, all the cloth can be driven to synchronously move on the feeding table plate, the cloth sewed at each sewing station is synchronously and flatly transferred to the next adjacent sewing station for sewing according to the arrangement sequence of the plurality of sewing stations, namely synchronous transfer of the cloth among the sewing stations is realized, and the transfer efficiency is high.
Description
Technical field
The present invention relates to garment production sewing technology field, more particularly to a kind of cloth synchronous transmission device and a kind of cloth
Synchronous transport line.
Background technology
At present most clothing factory, is all each workman respectively one sewing machine of operation, and their cloth logistics system is all
Carry by people or realized by erecting by overhang.After a certain sewing workstation has sewed a number of cloth, work
People needs, and cloth crinkle is good, then is carried by employee or cloth is transported to next sewing workstation by erecting by overhang, it
Afterwards workman launches cloth to be sewed accordingly again, repeat the above steps after the completion of sewing.As a result, the transmission effect of cloth
Rate and sewing efficiency are very low, while the labour intensity of workman is also very big.
The content of the invention
The technical problem to be solved in the present invention is to provide one kind and high efficiency synchronous can convey cloth between different sewing workstations
The cloth synchronous transmission device and cloth synchronous transport line of material, to overcome the drawbacks described above of prior art.
In order to solve above-mentioned technical problem, the present invention is adopted the following technical scheme that:A kind of cloth synchronous transmission device, including
The truss that be arranged in parallel for the feeding platen and feeding platen of placing cloth and it is multiple can synchronous slide on truss
Feeding unit, feeding platen is oppositely arranged with multiple sewing workstations being arranged side by side, and truss is located at feeding platen away from sewer
The side of position, each feeding unit corresponds to a sewing workstation, and each feeding unit can drive cloth on feeding platen
It is mobile.
Preferably, each feeding unit includes being slidingly disposed at the slide on truss and is liftably located on slide
Holding pad, holding pad be located at feeding platen top and be used for drive cloth to move on feeding platen;Cloth synchronous transfer
Device also includes driving all slides the first drive mechanism of synchronous slide and all holding pad synchronization liftings of driving on truss
The second drive mechanism.
Preferably, connected by connecting rod between multiple feeding units, the first drive mechanism is with multiple feeding units wherein
The slide connection of one.
Preferably, the first drive mechanism includes the first motor on the slide, the tooth bar on truss and with the
The output shaft connection of one motor and the gear being meshed with tooth bar, tooth bar is parallel with truss.
Preferably, connected by connecting rod between multiple feeding units, connecting rod is rotationally arranged in successively all cunnings
Seat, each feeding unit includes the drive mechanism of connection connecting rod and holding pad, the second drive mechanism and connecting rod or multiple
The feeding unit drive mechanism connection of one of them, and drive connection bar and all drive mechanisms rotate, and realizes driving all pressures
Flitch synchronization lifting.
Preferably, drive mechanism includes drive link and pressing plate, pressing plate be oppositely arranged in the top of holding pad and holding pad and
It is connected, one end of drive link is vertical with connecting rod to be connected, and the other end is connected with pressing plate.
Preferably, it is connected by elastic construction between pressing plate and holding pad, elastic construction elasticity top pressure pressing plate and binder
Plate.
Preferably, holding pad is provided with the pressure sensor for detecting pressure of the pressing plate function on holding pad.
Preferably, the second drive mechanism is on slide, including the second motor, Timing Belt, roller and elevating lever, elevating lever
Vertical with truss, one end of elevating lever is connected with drive mechanism, and the other end is meshed with roller by the gear teeth, Timing Belt connection
The output shaft of the second motor and the rotating shaft of roller.
A kind of cloth synchronous transport line, including multiple sewing workstations being arranged side by side, at each sewing workstation work is equipped with
Make platen and the sewing machine on working plate, also including cloth synchronous transmission device as above, cloth is synchronously passed
Defeated device is located at the same side of all sewing workstations.
Compared with prior art, the present invention has significant progressive:
Synchronous slide by all of feeding unit on truss drives all cloth synchronizing movings on feeding platen,
Realize and synchronously flatly transmit the cloth that each sewing workstation sewing is completed according to the distributing order of multiple sewing workstations
Sewed to next adjacent sewing workstation, that is, realized synchronous transfer of the cloth between each sewing workstation, transmitted
Efficiency high, it is possible to increase sewing efficiency, reduces human cost.
Description of the drawings
Fig. 1 is the overall structure diagram of the cloth synchronous transport line of the embodiment of the present invention.
Fig. 2 is the overall structure diagram of the cloth synchronous transmission device of the embodiment of the present invention.
Fig. 3 is the enlarged diagram in A portions in Fig. 1.
Fig. 4 is the enlarged diagram in B portions in Fig. 2.
Fig. 5 is the enlarged diagram in C portions in Fig. 2.
In figure:
1st, sewing workstation 101, working plate 102, sewing machine
2nd, feeding platen 3, truss 4, feeding unit
5th, connecting rod 51, linkage section 52, wear section
53rd, positive stop lug boss 6, slide 7, holding pad
8th, the first motor 9, tooth bar 10, gear
11st, the second motor 12, Timing Belt 13, roller
14th, elevating lever 15, drive link 16, pressing plate
17th, the first loop bar 18, the second loop bar 19, spring
20th, pressure sensor 21, guide plate 22, support
23rd, opening 24, pin-and-hole 25, bearing pin
Specific embodiment
The specific embodiment of the present invention is described in further detail below in conjunction with the accompanying drawings.These embodiments are only used for
Illustrate the present invention, and not limitation of the present invention.
In describing the invention, it should be noted that term " " center ", " longitudinal direction ", " horizontal ", " on ", D score,
The orientation or position relationship of the instruction such as "front", "rear", "left", "right", " vertical ", " level ", " top ", " bottom " " interior ", " outward " is
Based on orientation shown in the drawings or position relationship, it is for only for ease of the description present invention and simplifies description, rather than indicates or dark
Showing the device or element of indication must have specific orientation, with specific azimuth configuration and operation therefore it is not intended that right
The restriction of the present invention.Additionally, term " first ", " second " are only used for describing purpose, and it is not intended that indicating or implying relative
Importance.
In describing the invention, it should be noted that unless otherwise clearly defined and limited, term " installation ", " phase
Company ", " connection " should be interpreted broadly, for example, it may be being fixedly connected, or being detachably connected, or be integrally connected;Can
Being to be mechanically connected, or electrically connect;Can be joined directly together, it is also possible to be indirectly connected to by intermediary, Ke Yishi
The connection of two element internals.For the ordinary skill in the art, above-mentioned term can as the case may be understood
Concrete meaning in the present invention.
Additionally, in describing the invention, unless otherwise stated, " multiple " are meant that two or more.
As shown in Figures 1 to 5, a kind of embodiment of cloth synchronous transmission device of the invention.As shown in figure 1, this enforcement
The cloth synchronous transmission device of example is arranged on the same side of multiple sewing workstations 1 being arranged side by side, and is all provided with each sewing workstation 1
There are working plate 101 and a sewing machine on working plate 101 102, sewing machine 102 is industrial sewing machine, type can be with
For flat seam machine either flat seaming machine or overedger etc..Sewing the cloth that completes at each sewing workstation 1 on working plate 101 can be with
Realize synchronous transfer to next sewing workstation 1 by the cloth synchronous transmission device of the present embodiment.
Specifically, the cloth synchronous transmission device of the present embodiment includes feeding platen 2, truss 3 and multiple feeding units 4.
Wherein, feeding platen 2 is oppositely arranged with multiple sewing workstations 1 being arranged side by side, and feeding platen 2 is used to place at sewing workstation 1
The cloth that sewing is completed.Truss 3 be arranged in parallel with feeding platen 2, and truss 3 is located at feeding platen 2 away from the one of sewing workstation 1
Side.Multiple feeding units 4 can be located on truss 3 synchronous slide, and each feeding unit 4 corresponds to a sewing workstation 1, often
Individual feeding unit 4 can pass through its slip on truss 3 and drive cloth to move on feeding platen 2.In all sewing workstations 1
After the completion of the cloth sewing at place, the cloth for completing can will be sewed on working plate 101 by the operating personnel of each sewing workstation 1
Material is manually moving to position corresponding with the sewing workstation 1 on feeding platen 2, then drives institute by all of feeding unit 4
Some clothes on feeding platen 2 synchronizing moving to next sewing workstation 1, and all of feeding unit 4 is once being conveyed
After the completion of synchronous reset, then manually the cloth on feeding platen 2 is moved to into its work by the operating personnel of corresponding sewing workstation 1
Make to be sewed on platen 101, said process is then repeated after the completion of sewing, until cloth is complete at each sewing workstation 1 successively
Finish into sewing operation accordingly and transmitting to the sewing of last sewing workstation 1.
The cloth synchronous transmission device of the present embodiment, the synchronous slide by all of feeding unit 4 on truss 3 drives
All clothes synchronizing moving on feeding platen 2, realizes and synchronously stitches each according to the distributing order of multiple sewing workstations 1
The cloth that station 1 of threading sewing is completed flatly is transmitted to next adjacent sewing workstation 1 and sewed, that is, realize cloth and exist
Synchronous transfer between each sewing workstation 1, efficiency of transmission is high, it is possible to increase sewing efficiency, reduces human cost.
In the present embodiment, the quantity of feeding unit 4 is not limited to, and can be determined according to the quantity of sewing workstation 1.To realize
The synchronous transfer of cloth at each sewing workstation 1 before last sewing workstation 1, it is preferable that feeding unit 4 in the present embodiment
Quantity it is fewer than the quantity of sewing workstation 1 one, and each seam before all of feeding unit 4 and last sewing workstation 1
Station 1 of threading is arranged correspondingly.
Further, as depicted in figs. 1 and 2, each feeding unit 4 in the present embodiment includes slide 6 and holding pad 7.
Slide 6 is slidingly disposed on truss 3, and holding pad 7 is liftably located on slide 6, and holding pad 7 is located at feeding platen 2
Top, holding pad 7 is used to contact with the cloth on feeding platen 2 and drive cloth to move on feeding platen 2.The present embodiment
Cloth synchronous transmission device also includes the first drive mechanism and the second drive mechanism.First drive mechanism is used to drive each feeding
The slide 6 of unit 4 synchronous slide on truss 3.Second drive mechanism is used to drive the holding pad 7 of each feeding unit 4 sliding
Synchronization lifting on seat 6.When on feeding platen 2 without cloth or when need not be transmitted to the cloth on feeding platen 2,
Two drive mechanisms drive synchronous rising of all holding pads 7 and have certain intervals between feeding platen 2.When needing to feeding table
When cloth on plate 2 is transmitted, the first drive mechanism drives all slides 6 synchronous slide on truss 3 extremely relative with cloth
The position answered so that each holding pad 7 is located at the top of corresponding cloth;Second drive mechanism is driven under the synchronization of all holding pads 7
Drop and push down cloth and certain pressure is kept to cloth;Then drive all slides 6 same on truss 3 by the first drive mechanism
Step is slided, and now each holding pad 7 drives cloth synchronizing moving on feeding platen 2 together therewith, until by cloth transmit to
At next sewing workstation 1;Again synchronous rising of all holding pads 7 is driven by the second drive mechanism and depart from cloth so that operation
Personnel can be moved to cloth on the working plate 101 of corresponding sewing workstation 1.Thus achieve cloth at each sewing workstation 1
The synchronous transfer of material.Certainly, holding pad 7 can also live cloth or drive cloth by way of pasting cloth vacuum suction
It is mobile.
Further, in the present embodiment, each feeding unit 4 is connected by connecting rod 5, and the first drive mechanism is sent with multiple
Material unit 4 slide 6 of one of them connects.The coupled slide 6 of direct drive is driven in truss 3 by the first drive mechanism
Upper slip simultaneously drives corresponding feeding unit 4 to slide, and because each feeding unit 4 is connected by connecting rod 5, therefore is driven by first
The slip of the feeding unit 4 that motivation structure drives, can drive the synchronous slide therewith of other feeding units 4.Thus, only by one
Individual first drive mechanism realizes the synchronous slide for driving all of feeding unit 4 on truss, simplifies structure, reduces
Cost, and operational control is easy.
Further, the connecting rod 5 in the present embodiment is rotationally arranged in successively the slide 6 of each feeding unit 4, each
Feeding unit 4 includes the drive mechanism of connection connecting rod 5 and holding pad 7, and the second drive mechanism is with multiple feeding units 4 wherein
The drive mechanism connection of one.Rotated and driven by the coupled drive mechanism of the second drive mechanism direct drive and accordingly sent
The holding pad 7 of material unit 4 is lifted, while driving connecting rod 5 to rotate, by the rotation of connecting rod 5 biography of other feeding units 4 is driven
Dynamic structure synchronization is rotated, you can drive the holding pad 7 of other feeding units 4 synchronization lifting therewith.Certainly, the second drive mechanism
Can be connected with connecting rod 5, connecting rod 5 be directly driven by the second drive mechanism and is rotated, all sending is driven by the rotation of connecting rod 5
The drive mechanism synchronous axial system of material unit 4, you can drive the holding pad 7 of all feeding units 4 synchronization lifting therewith.Thus, only
The synchronization lifting for driving all holding pads 7 is realized by second drive mechanism, structure is further simplify.
It is more convenient to make structure more simplify, manipulating, it is preferable that the first drive mechanism and second in the present embodiment is driven
Motivation structure is connected with same feeding unit 4, and is arranged on the slide 6 of the feeding unit 4.
In order to avoid there is axially opposing slip between connecting rod 5 and slide 6, it is preferable that connecting rod 5 and each slide 6
Between be respectively provided with limit the axial displacement of connecting rod 5 axial limit structure.As shown in figure 3, the connecting rod 5 in the present embodiment includes
Linkage section 51 between two neighboring slide 6 and section 52 is worn through slide 6, slide 6 is provided with through hole, wears section
52 are arranged in the through hole, wear section 52 and stretch out the two ends of through hole and are fixedly connected with linkage section 51 respectively, and wear section 52 and stretch
Go out on the both ends outer surface of through hole and extend positive stop lug boss 53, the positive stop lug boss 53 is axial limit structure.Limit convex
Platform 53 cause wear section 52 stretch out through hole both ends the diameter with diameter greater than through hole, so as to limit connecting rod 5 with
Axially opposing slip between slide 6, ensure that the first drive mechanism drives coupled slide 6 sliding on truss 3
Connecting rod 5 can be passed through when dynamic and drive the slide 6 of other feeding units 4 synchronous slide therewith on truss 3.
Further, as shown in Figure 3 and Figure 4, the drive mechanism of each feeding unit 4 includes drive link 15 in the present embodiment
With pressing plate 16, pressing plate 16 is oppositely arranged in the top of holding pad 7 with holding pad 7, and pressing plate 16 is connected with holding pad 7.Transmission
One end of bar 15 is vertical with connecting rod 5 to be connected, and the other end of drive link 15 is connected with pressing plate 16, by drive link 15 upwards or to
Under rotation, can lift with dynamic pressure plate 16 and holding pad 7.In the feeding unit 4 being connected with the second drive mechanism, its transmission
Bar 15 continues to extend load segment in the one end being connected with connecting rod 5 to the direction away from pressing plate 16, and the load segment and second drives
Motivation structure connects.The drive link 15 and connecting rod 5 is driven to rotate by the second drive mechanism, and while turning by connecting rod 5
It is dynamic to drive other drive links 15 synchronous axial system therewith, it is capable of achieving to drive holding pad 7 synchronously to rise by the synchronous axial system of drive link 15
Drop.Thus achieve and drive drive mechanism to rotate all of synchronization lifting of holding pad 7 of drive by the second drive mechanism.
To realize buffering when holding pad 7 drops on feeding platen 2, it is preferable that the pressing plate 16 of the present embodiment and binder
It is connected by elastic construction between plate 7, elastic construction elasticity top pressure pressing plate 16 and holding pad 7 so that holding pad 7 drops to
During the position contacted with cloth on feeding platen 2, it is anti-to there is certain rising in holding pad 7 by elasticity of compression structure
Space is played, so as to play preferable cushioning effect, it is to avoid cloth is caused to damage.
Preferably, the elastic construction in the present embodiment is located at the first loop bar 17 of the upper surface of holding pad 7 and located at pressing plate
The second loop bar 18 on 16, the first loop bar 17 and the second loop bar 18 axially opposed can slidably be socketed, and thus both realize pressure
Connection between plate 16 and holding pad 7, causes the presence of certain OQ t space between holding pad 7 and pressing plate 16 again.First
The quantity of the loop bar 18 of loop bar 17 and second is not limited to, and the first loop bar 17 and the second loop bar 18 are respectively provided with four in the present embodiment.
Preferably, spring 19 is arranged with the first loop bar 17 and the second loop bar 18, buffering effect can be made more preferable.Enter one
Step, is provided with pressure sensor 20 on holding pad 7, and pressure sensor 20 is at the first loop bar 17 and under spring 19
End, for the pressure that detection spring 19 is born, that is, detects that pressing plate 16 acts on the pressure on holding pad 7, such that it is able to pressure
Flitch 7 acts on the pressure of cloth and carries out precise control, prevents holding pad 7 excessive to pressure that cloth applies and damages cloth.
Preferably, the present embodiment is additionally provided with guide plate 21 between holding pad 7 and pressing plate 16, and slide 6 is provided with support 22,
One end of support 22 is fixed on slide 6, and the other end of support 22 is stretched between holding pad 7 and pressing plate 16, and guide plate 21 is fixed
It is on support 22 and parallel with holding pad 7 and pressing plate 16.First loop bar 17 can be slid through guide plate 21, and spring 19 is located at
Between holding pad 7 and guide plate 21.Can be to the lifting of axially opposed second loop bar 18 of the first loop bar 17 by guide plate 21
Motion play the guiding role, it is ensured that the steady rebound buffering of holding pad 7.Opening 23 is offered on guide plate 21 so that drive link 15
When rotating upwardly and downwardly can Jing opening 23 pass through guide plate 21.
Further, as shown in figure 5, the first drive mechanism in the present embodiment includes the first motor 8, tooth bar 9 and gear 10,
First motor 8 is arranged on slide 6, and tooth bar 9 is arranged on truss 3, and tooth bar 9 is parallel with truss 3, the motor of gear 10 and first
8 output shaft connects, and gear 10 is meshed with tooth bar 9.Rotated by the drive gear 10 of the first motor 8, by gear 10 and tooth
The transmission of bar 9 coordinates drive slide 6 to slide on truss 3.Thus achieve the first drive mechanism and drive coupled cunning
Seat 6 slides on truss 3, and drives the slide 6 of other feeding units 4 synchronous slide therewith on truss 3.Certainly, first drive
Motivation structure can also be in the form of other can realize driving slide 6 to slide on truss 3, the form of such as screw rod transmission,
Or roller transmission belt coordinates the form of transmission.
Further, as shown in figure 5, the second drive mechanism in the present embodiment includes the second motor 11, Timing Belt 12, roller
13 and elevating lever 14.Wherein, elevating lever 14 is vertically arranged with truss 3, one end of elevating lever 14 and the drive mechanism of feeding unit 4
In drive link 15 load segment connection, the other end of elevating lever 14 is meshed with roller 13 by the gear teeth, and Timing Belt 12 connects
The output shaft of the second motor 11 and the rotating shaft of roller 13.Rotated by the driving rolls 13 of Timing Belt 12 by the second motor 11, by rolling
The rotation of wheel 13 drives elevating lever 14 to lift therewith, and drives the drive link 15 of connected feeding unit 4 to rotate, from
And drive the holding pad 7 of corresponding feeding unit 4 to lift, while driving connecting rod 5 to rotate.Thus achieve and driven by second
Mechanism drives the holding pad 7 of connected feeding unit 4 to lift, and drives the holding pad 7 of other feeding units 4 synchronous therewith
Lifting.Certainly, the second drive mechanism can also be in the form of other can realize driving holding pad 7 to lift on slide 6, such as
The form of expansion link, expansion link can be cylinder either hydraulic cylinder either electric pushrod either linear stepping motor or electromagnetism
Iron.
Open slot is provided with the load segment of drive link 15 in the present embodiment, the both sides of the open slot offer respectively pin-and-hole
24, a bearing pin 25 is provided with open slot, the two ends of bearing pin 25 are respectively slidably inserted in two pin-and-holes 24, elevating lever 14 with
Bearing pin 25 connects.It is achieved in driving drive link 15 to rotate as fulcrum with connecting rod 15 by the lifting of elevating lever 14, together
When drive connecting rod 15 rotate in the through hole of slide 6.
Further, in order to adapt to different size of cloth, the loop bar 17 of holding pad 7 and first in the present embodiment is removably
Connection, to be convenient for changing holding pad 7, so as to adapt to the transmission of different size cloth.
Further, in order to prevent from damaging cloth, in the present embodiment, holding pad 7 is provided with towards the one side of feeding platen 2
Cushion pad.Cushion pad is made using the larger elastomeric material of coefficient of friction, with preferable frictional behaviour, by cushion pad and cloth
Material contact, can play good cushioning effect, prevent the crushing cloth of holding pad 7, simultaneously effective drive cloth in feeding table
Move on plate 2.
Further, the cloth synchronous transmission device of the present embodiment also includes control system, first in the first drive mechanism
The pressure sensor 20 on the second motor 11 and holding pad 7 in motor 8, the second drive mechanism is connected with control system,
It is controlling the first motor 8 and the second motor 11 by control system or out of service, and pressure is detected according to pressure sensor 20
Force information controls the running status of the second motor 11, to adjust pressure of the holding pad 7 to cloth on feeding platen 2, it is achieved thereby that
Automatically control.
Further, automatically control to be better achieved, the present embodiment on feeding platen 2 with each phase of sewing workstation 1
Detection piece is equipped with corresponding position, whether have cloth at the position for detecting, so as to judge whether that needs start transmission
Whether cloth or cloth transmit in place.Detection piece on feeding platen 2 is connected with control system, and the information for detecting is sent out
Control system is given, control system automatically controls the first motor 8 according to the information that detection piece is detected and the second motor 11 starts
Or it is out of service, it is achieved thereby that the intelligent transmission of Automatic Control and cloth.
Based on above-mentioned cloth synchronous transmission device, the present embodiment additionally provides a kind of cloth synchronous transport line.The present embodiment
Cloth synchronous transport line include multiple sewing workstations 1 being arranged side by side, be equipped with working plate 101 at each sewing workstation 1
Sewing machine 102 with working plate 101, in the same side of all sewing workstations 1 the above-mentioned cloth of the present embodiment is provided with
Material synchronous transmission device.
In sum, the cloth synchronous transmission device of the present embodiment and cloth synchronous transport line, by all of feeding list
Synchronous slide of the unit 4 on truss 3 drives all cloth synchronizing movings on feeding platen 2, realizes according to multiple sewers
The distributing order of position 1 synchronously flatly transmits the cloth that each sewing of sewing workstation 1 is completed to next adjacent sewing
Station 1 is sewed, that is, realize synchronous transfer of the cloth between each sewing workstation 1, and efficiency of transmission is high, it is possible to increase seam
Efficiency processed, reduces human cost.
The above is only the preferred embodiment of the present invention, it is noted that for the ordinary skill people of the art
For member, on the premise of without departing from the technology of the present invention principle, some improvement and replacement can also be made, these improve and replace
Also should be regarded as protection scope of the present invention.
Claims (10)
1. a kind of cloth synchronous transmission device, it is characterised in that include the feeding platen (2) for placing cloth and described send
Truss (3) and multiple feeding units (4) that can be located on the truss (3) that material platen (2) be arranged in parallel, institute synchronous slide
State feeding platen (2) to be oppositely arranged with multiple sewing workstations (1) being arranged side by side, the truss (3) is located at the feeding platen
(2) away from the side of the sewing workstation (1), each described feeding unit (4) corresponds to a sewing workstation (1), often
The individual feeding unit (4) can drive the cloth to move on the feeding platen.
2. cloth synchronous transmission device according to claim 1, it is characterised in that each described feeding unit (4) is wrapped
Include the slide (6) being slidingly disposed on the truss (3) and the holding pad (7) being liftably located on the slide (6), institute
Holding pad (7) is stated positioned at the top of the feeding platen (2) and for driving the cloth to move on the feeding platen (2)
It is dynamic;The cloth synchronous transmission device also include driving all slides (6) on the truss (3) synchronous slide first
Second drive mechanism of drive mechanism and all holding pad (7) synchronization liftings of driving.
3. cloth synchronous transmission device according to claim 2, it is characterised in that between the plurality of feeding unit (4)
Connected by connecting rod (5), first drive mechanism and the plurality of feeding unit (4) slide (6) of one of them
Connection.
4. cloth synchronous transmission device according to claim 3, it is characterised in that first drive mechanism includes being located at
The first motor (8) on the slide (6), the tooth bar (9) on the truss (3) and with first motor (8)
The gear 10 that output shaft connects and is meshed with the tooth bar (9)), the tooth bar (9) is parallel with the truss (3).
5. cloth synchronous transmission device according to claim 2, it is characterised in that between the plurality of feeding unit (4)
Connected by connecting rod (5), the connecting rod (5) is rotationally arranged in successively all slides (6), each described feeding
Unit (4) includes the drive mechanism of the connection connecting rod (5) and the holding pad (7), second drive mechanism and institute
Connecting rod (5) or the plurality of feeding unit (4) drive mechanism connection of one of them is stated, and drives the connecting rod
(5) rotate with all drive mechanisms, realize driving all holding pad (7) synchronization liftings.
6. cloth synchronous transmission device according to claim 5, it is characterised in that the drive mechanism includes drive link
(15) and pressing plate (16), the pressing plate (16) is oppositely arranged and is connected in the top of the holding pad (7) with the holding pad (7)
Connect, one end of the drive link (15) is vertical with the connecting rod (5) to be connected, and the other end is connected with the pressing plate (16).
7. cloth synchronous transmission device according to claim 6, it is characterised in that the pressing plate (16) and the holding pad
(7) it is connected by elastic construction between, pressing plate (16) and the holding pad (7) described in the elastic construction elasticity top pressure.
8. cloth synchronous transmission device according to claim 7, it is characterised in that the holding pad (7) be provided with for
Detect that the pressing plate (16) acts on the pressure sensor (20) of the pressure on the holding pad (7).
9. cloth synchronous transmission device according to claim 5, it is characterised in that second drive mechanism is located at described
On slide (6), including the second motor (11), Timing Belt (12), roller (13) and elevating lever (14), the elevating lever (14) and institute
State truss (3) vertical, one end of the elevating lever (14) is connected with the drive mechanism, and the other end is logical with the roller (13)
Cross the gear teeth to be meshed, the Timing Belt (12) connects the output shaft of second motor (11) and the rotating shaft of the roller (13).
10. a kind of cloth synchronous transport line, including multiple sewing workstations (1) being arranged side by side, each described sewing workstation (1) place
It is equipped with working plate (101) and the sewing machine (102) on the working plate (101), it is characterised in that also include
Cloth synchronous transmission device as in one of claimed in any of claims 1 to 9, the cloth synchronous transmission device is located at all institutes
State the same side of sewing workstation (1).
Priority Applications (1)
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CN201611224726.9A CN106637726A (en) | 2016-12-27 | 2016-12-27 | Synchronous cloth transfer device and synchronous cloth transfer line |
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CN201611224726.9A CN106637726A (en) | 2016-12-27 | 2016-12-27 | Synchronous cloth transfer device and synchronous cloth transfer line |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108998902A (en) * | 2017-06-07 | 2018-12-14 | 浙江中捷缝纫科技有限公司 | A kind of self-feeding device for discharging for sewing machine |
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Application publication date: 20170510 |