CN109719878A - A kind of automation dipped gloves curing time adjustment structure - Google Patents
A kind of automation dipped gloves curing time adjustment structure Download PDFInfo
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- CN109719878A CN109719878A CN201811491405.4A CN201811491405A CN109719878A CN 109719878 A CN109719878 A CN 109719878A CN 201811491405 A CN201811491405 A CN 201811491405A CN 109719878 A CN109719878 A CN 109719878A
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- tringle
- conveying line
- rack gear
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- 238000005470 impregnation Methods 0.000 claims abstract description 55
- 230000007246 mechanism Effects 0.000 claims abstract description 38
- 230000007306 turnover Effects 0.000 claims abstract description 28
- 238000012546 transfer Methods 0.000 claims description 22
- 238000007598 dipping method Methods 0.000 claims description 15
- 230000009471 action Effects 0.000 claims description 12
- 238000000034 method Methods 0.000 claims description 10
- 230000008569 process Effects 0.000 claims description 9
- 230000005540 biological transmission Effects 0.000 claims description 8
- 238000003780 insertion Methods 0.000 claims description 3
- 230000037431 insertion Effects 0.000 claims description 3
- 230000008450 motivation Effects 0.000 claims 1
- 230000008859 change Effects 0.000 abstract description 5
- 230000007704 transition Effects 0.000 abstract description 2
- 238000004519 manufacturing process Methods 0.000 description 13
- 238000010276 construction Methods 0.000 description 9
- 238000006073 displacement reaction Methods 0.000 description 3
- 238000010586 diagram Methods 0.000 description 2
- 238000001035 drying Methods 0.000 description 2
- 230000036541 health Effects 0.000 description 2
- 230000037396 body weight Effects 0.000 description 1
- 239000003086 colorant Substances 0.000 description 1
- 238000010612 desalination reaction Methods 0.000 description 1
- 238000011161 development Methods 0.000 description 1
- 238000005265 energy consumption Methods 0.000 description 1
- 210000000548 hind-foot Anatomy 0.000 description 1
- 238000007654 immersion Methods 0.000 description 1
- 238000002386 leaching Methods 0.000 description 1
- 239000000463 material Substances 0.000 description 1
- 238000000465 moulding Methods 0.000 description 1
- 230000002093 peripheral effect Effects 0.000 description 1
- 238000012545 processing Methods 0.000 description 1
- 230000001681 protective effect Effects 0.000 description 1
- 230000033764 rhythmic process Effects 0.000 description 1
- 150000003839 salts Chemical class 0.000 description 1
- 238000004073 vulcanization Methods 0.000 description 1
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- Moulding By Coating Moulds (AREA)
- Treatment Of Fiber Materials (AREA)
Abstract
The present invention relates to a kind of automation dipped gloves curing time adjustment structure, including a pair of of chain conveying line is as transportation system, for driving each tringle successively by the impregnation station on automation dipped gloves line;Turnover tringle, by rotary structure across setting this between chain conveying line;Clutch, for disengaging or connecting the transmitting of the torque between tringle and chain conveying line;Turnover driving mechanism, for driving tringle to overturn around rotary structure;It is characterized by: the impregnation station at least there are two, turnover driving mechanism includes the gear being mounted on each tringle, and the rack gear group that can cooperate with gear, and relative distance is adjustable between two rack gear groups between adjacent impregnation station.The invention has the advantages that: distance is adjustable between the rack gear group of two turnover driving mechanisms in different impregnation stations, so as to change the tringle flip-flop transition interval between adjacent impregnation station, it is realized without changing the movement speed of entire chain conveying line, it is easy to adjust.
Description
Technical field
The present invention relates to a kind of productions of gloves to set, in particular to a kind of automation dipped gloves curing time adjusts knot
Structure.
Background technique
Labour protection articles for use is that protection labourer avoids or mitigate casualty accident in labout process again and occupational hazards is matched
Standby Individual protection equitment, being equipped with labour protection articles for use is to protect one of labourer's safety and the important measures of health.Therefore, labor
Dynamic protective gear is also an important content in security production supervision and management.
Currently, China's labour protection articles for use A wide selection of colours and designs, quantity is sufficient, substantially meets the needs of domestic economy development, shape
At the labour protection articles for use industry of protection labourer safety and health.But the appliances for labor protection industry in China is still weak tendency
Industry, compared with developed country, there are also very big gaps for we.Wherein, safety and industrial gloves is as a kind of the most widely used labor
Warranty product, gap are mainly shown as that labour protection articles for use production is most of for labour-intensive production, mechanization, automation
Degree is lower, and production efficiency is low, and control of product quality is very different.Competitiveness is poor compared with foreign same type enterprise.
It mainly include preheating, dipping, first drying, desalination, immersion, secondary in the technical process of production safety and industrial gloves
Drying, vulcanization process, wherein dipping process is divided into permeability-reducing admixture dipping, rubber impregnated and on-slip leaching salt treatment again.
And in the safety and industrial gloves production line for the serialization being currently known, passive type impregnation solution is mainly used, such as: one
To the tringle of several fixations on the conveyor line is set up on chain conveying line, several fingerprint are installed on tringle, pass through chain conveying line
Gloves by fingerprint and thereon successively pass through and short stay is in the correspondence workshop section of dipping process, i.e. permeability-reducing admixture in dipping process
Pond, rubber pond are actively risen by permeability-reducing admixture pond, rubber pond, so that gloves are contacted with the material in permeability-reducing admixture pond, rubber pond, it is complete
At actively declining again after dipping, so that gloves pass through;In this kind of mode, due to permeability-reducing admixture pond, the long-pending big, quality of rubber pond body
Weight, therefore, frequent lifting is so that energy consumption is larger, high failure rate, and there are some potential safety problemss.
In addition, this period before being moved to rubber pond is curing time after gloves impregnate in permeability-reducing admixture pond, and when solidifying
Between control directly influence the quality of gloves, which is conveyed by permeability-reducing admixture pond, rubber cell compartment distance and chain
The movement speed of line determines that, since permeability-reducing admixture pond, rubber cell compartment distance are fixed, the adjustment of curing time can only pass through control
The movement speed of chain conveying line processed is realized, under which, should be looked after curing time, be taken into account the entire production line again
Mobile rhythm, greatly reduce production efficiency.
Summary of the invention
The technical problem to be solved in the present invention is to provide one kind can ensure gloves impregnation quality and high production efficiency from
Dynamicization dipped gloves curing time adjustment structure.
(1) in order to solve the above technical problems, the technical solution of the present invention is as follows: automation dipped gloves curing time adjusting knot
Structure, including transportation system are arranged on an automation dipped gloves line with impregnation station, for driving each tringle successively to pass through
The impregnation station on automation dipped gloves line is crossed, the pipeline system is using a pair of of chain conveying line;It is several turnover
Tringle, for installing several fingerprint being set with to dipped gloves, the tringle is right at this across being arranged by rotary structure
Between chain conveying line;Clutch, for disengaging or connecting the transmitting of the torque between tringle and chain conveying line;Overturning driving
Mechanism, for driving tringle to overturn around rotary structure, the turnover driving mechanism is to be mounted in impregnation station and tringle
Pass through formula turnover driving mechanism;(1) impregnation station at least there are two, and be distributed in automatically along chain conveying line moving direction
Change on dipped gloves line;(2) turnover driving mechanism includes the gear for being mounted on each tringle and connecting with clutch, and
It is mounted in each impregnation station the rack gear group that can cooperate with gear, it is opposite between two rack gear groups between the adjacent impregnation station
Apart from adjustable;(3)
The clutch includes the clutch being arranged on each tringle rotary structure, and is arranged in each impregnation station
Clutch action device, relative distance is adjustable between two clutch action devices between the adjacent impregnation station.
The rack gear group includes at least one upper rack being arranged in impregnation station, the upper rack
Downward, the extending direction of upper rack and the moving direction of chain conveying line are consistent for the horizontally disposed and flank of tooth;At least one setting
Lower rack gear in impregnation station, the lower rack gear is horizontally disposed and the flank of tooth upward, the extending direction and chain of lower rack gear convey
The moving direction of line is consistent;The upper rack and lower the rack gear front and back on the moving direction along chain conveying line are arranged in a staggered manner, institute
State upper rack and lower rack gear to be located at gear in the height direction upper and lower in gear path when mobile with chain conveying line
Side, and gear engages when by upper rack with upper rack, gear engages when rack gear with lower rack gear under process.
The turnover driving mechanism further include: servo-actuated driving machine matched with upper rack or lower rack gear
Structure, the servo-actuated driving mechanism are connect with upper rack or lower rack gear, and the servo-actuated driving mechanism can drive upper rack, lower tooth
Item is moved along itself extending direction.
Being provided in the rack of the impregnation station can be along the peace that chain conveying line moving direction moves
Bracket is filled, the rack gear group and servo-actuated driving mechanism are arranged in mounting bracket.
In the clutch, clutch includes clutch shaft, the first module of clutch, clutch second
Module, clutch third module, clutch action device include clutch switch guide and clutch-drive;
The both ends of clutch shaft are limited as first end and second end, the first end of clutch shaft be fixed with chain conveying line directly or
It is indirectly connected with fixed the first module of clutch, the second end of clutch shaft is movably installed with to be connected and fixed and can opposite clutch with tringle
Axis rotation the second module of clutch, be set between the first end and second end of clutch shaft can along clutch shaft move axially from
Close third module, the shifting block that can cooperate with clutch switch guide in the clutch third module with one;The clutch third mould
It is provided with the first torque transfer arrangement between the first module of block and clutch, is arranged between the second module of clutch third module and clutch
There is the second torque transfer arrangement;The setting of clutch switch guide is in impregnation station, and the clutch switch guide is with one along chain
The through clutch slot that pipeline moving direction extends, the through clutch slot can hold the shifting block insertion of clutch third module,
And by the mobile first position and second in impregnation station of the vertical direction of the through clutch slot of clutch-drive drives edge
Switch between setting;Under first state, clutch switch guide is located at first position, and clutch third module and the second module of clutch are embedding
It closes, the first torque transfer arrangement, the second torque transfer arrangement keep torque transmission status, and the second module of clutch can not rotate, and
The shifting block of the second module of clutch can be moved along the extending direction of through clutch slot;Under second state, clutch switch guide is located at
The second position, clutch third module are separated with the second module of clutch, the first torque transfer arrangement holding torque transmission status, and second
Torque transfer arrangement can not transmit torque, and the second module of clutch can rotate on clutch shaft, and the shifting block of the second module of clutch can
Extending direction along through clutch slot moves.
The present invention has the advantages that
In the present invention, adopted a split structure for realizing the clutch and turnover driving mechanism of tringle overturning dipping, and not
It is adjustable with distance between the rack gear group of two turnover driving mechanisms in impregnation station, so as to change between adjacent impregnation station
Tringle flip-flop transition interval, and then curing time is adjusted.Movement speed without changing entire chain conveying line is come
It realizes, it is easy to adjust, and improve production efficiency.
In the present invention, turnover driving mechanism is used through formula turnover driving mechanism, is unpowered structure, is utilized
The movement of chain conveying line and the overturning that tringle is realized by the relative displacement of formula turnover driving mechanism, without being conveyed in chain
Power device is set between line and each tringle, greatly reduces manufacturing cost and manufacture difficulty.
Servo-actuated driving mechanism is set on turnover driving mechanism and utilizes servo-actuated driving machine in chain conveying line moving process
Relative displacement between structure dynamic adjustment turnover driving mechanism and chain conveying line, and then control overturning appearance when tringle overturning
State promotes the quality of gloves impregnation.
Detailed description of the invention
Fig. 1 is that dipped gloves curing time adjustment structure schematic diagram is automated in the present invention.
Fig. 2 is automation dipped gloves curing time adjusting main view in the present invention.
Fig. 3 is partial enlarged view C in Fig. 2.
Fig. 4 is the partial sectional view of Fig. 3.
Fig. 5 is tringle and the fingerprint connection schematic diagram being mounted on tringle in the present invention.
Specific embodiment
As shown in Figure 1, 2, automation dipped gloves curing time adjustment structure of the invention, comprising:
Transportation system is arranged on an automation dipped gloves line with impregnation station, for driving each tringle 2 successively to pass through
The impregnation station on dipped gloves line is automated, pipeline system is using a pair of of chain conveying line 1 in the present invention.
Several turnover tringles 2, for installing several fingerprint being set with to dipped gloves, tringle 2 passes through rotatable
Structure across setting this between chain conveying line 1.
Clutch 3, for disengaging or connecting the transmitting of the torque between tringle 2 and chain conveying line 1;
Turnover driving mechanism 4, for driving tringle 2 to overturn around rotary structure, turnover driving mechanism 4 is to be mounted on impregnation station
Pass through formula turnover driving mechanism on tringle 2.
Core of the invention in:
(1) there are two above-mentioned impregnation stations or more than two, and automation impregnation is distributed in along 1 moving direction of chain conveying line
On gloves line.In the present embodiment, there are two impregnation stations, is respectively labeled as A, B.
(2) turnover driving mechanism 4 includes the gear 41 for being mounted on each tringle and connecting with clutch, and is mounted on each
The rack gear group that can cooperate with gear 41 in impregnation station, relative distance is adjustable between two rack gear groups between adjacent impregnation station;
So as to change the trigger interval of the tringle overturning between adjacent impregnation station, and then dipping interval time can be adjusted
It is whole.
(3) clutch 3 includes the clutch being arranged on each tringle rotary structure, and is arranged in each impregnation station
On clutch action device, relative distance is adjustable between two clutch action devices between adjacent impregnation station.
As the more specific embodiment of the present invention: as shown in figure 3,
Rack gear group in above-mentioned turnover driving mechanism 4 includes
One is arranged in the upper rack 42 in impregnation station, upper rack 42 is horizontally disposed and the flank of tooth downward, the extension side of upper rack 42
To consistent with the moving direction of chain conveying line 1;
One is arranged in the lower rack gear 43 in impregnation station, lower rack gear 43 is horizontally disposed and the flank of tooth upward, the extension side of lower rack gear 43
To consistent with the moving direction of chain conveying line 1;
Upper rack and 42 lower rack gear 43 front and backs on the moving direction along chain conveying line are arranged in a staggered manner, upper rack 42 and lower rack gear
43 are located at upper and lower of the gear 41 when mobile with chain conveying line 1 in gear path, and gear 41 in the height direction
It is engaged when by upper rack 42 with upper rack 42, gear 41 engages when rack gear 43 with lower rack gear 43 under process.
Certainly, those skilled in the art are it is to be appreciated that in same impregnation station, the number of upper rack or lower rack gear in rack gear group
Amount is not necessarily fixed, can be according to the needs of flipping gesture, to select the upper rack and lower rack gear of different number, length.
Turnover driving mechanism further include: servo-actuated driving mechanism matched with upper rack 42 or lower rack gear 43 (is not shown in figure
Out), it is servo-actuated driving mechanism to connect with upper rack 42 or lower rack gear 43, servo-actuated driving mechanism can drive upper rack 42, lower rack gear 43
It is moved along itself extending direction.In the present embodiment, driving mechanism is servo-actuated using screw pair, ball screw etc..
When gear 41 is engaged with upper rack 42 or lower rack gear 43, the shifting of control upper rack 42 or lower rack gear 43 can be passed through
It is dynamic, change the relative displacement of gear 41 and gear set, realizes the control of tringle 2 reversal rate, posture.
In the present invention, be provided in the rack of impregnation station can along the mounting bracket that chain conveying line moving direction moves,
Rack gear group and servo-actuated driving mechanism are arranged in mounting bracket.Certainly, for more convenient adjusting, mounting bracket can also be with
It is divided into upper bracket 51, lower bracket 52, so that upper rack, lower rack gear is independently installed.
As the more specific embodiment of the present invention: in above-mentioned clutch, clutch includes clutch shaft 34, clutch first
Module 31, the second module of clutch 32, clutch third module 33, clutch action device include clutch switch guide 35 and clutch driving
Device 36.
The both ends of clutch shaft 34 are limited as first end and second end, is fixed in the first end of clutch shaft 34 and is conveyed with chain
Fixed the first module of clutch 31 of 1 direct or indirect connection of line, the second end of clutch shaft 34 is movably installed with to be connect admittedly with tringle 2
The second module of clutch 32 that is fixed and can rotating relative to clutch shaft 34, being set between the first end and second end of clutch shaft 34 can
It, can be with clutch switch guide with one in the clutch third module 33 along the clutch third module 33 of the axial movement of clutch shaft 34
The shifting block of 35 cooperations;
Be provided with the first torque transfer arrangement between clutch third module 33 and the first module of clutch 31, clutch third module 33 with
The second torque transfer arrangement is provided between the second module of clutch 32;
The setting of clutch switch guide 35 is in impregnation station, and clutch switch guide 35 is with one along 1 moving direction of chain conveying line
The through clutch slot extended, through clutch slot can hold the shifting block insertion of clutch third module 33, and by clutch-drive 35
The vertical direction movement of the through clutch slot of drives edge switches between the first position and the second position in impregnation station;
Under first state, clutch switch guide 35 is located at first position, and clutch third module 33 is chimeric with clutch the second module 32,
First torque transfer arrangement, the second torque transfer arrangement keep torque transmission status, and the second module of clutch 32 can not rotate, and from
The shifting block for closing the second module 32 can be moved along the extending direction of through clutch slot;
Under second state, clutch switch guide 35 is located at the second position, and clutch third module 33 is separated with the second module of clutch 32,
First torque transfer arrangement keeps torque transmission status, and the second torque transfer arrangement can not transmit torque, the second module of clutch 32
It can be rotated on clutch shaft 34, and the shifting block of the second module of clutch 32 can be moved along the extending direction of through clutch slot.
In the present embodiment, clutch action device includes that clutch switch guide 35 and clutch-drive 36 are also mounted at lower bracket
On 52.
In the present embodiment, as shown in figure 4, the specific structure of clutch are as follows: clutch shaft 34 along its own axis direction from
First end is divided into chain stays linkage section, main construction section and pinion stand construction section to second end, and the diameter of main construction section is big
In chain stays linkage section, pinion stand construction section diameter;
The first module of clutch 31 includes chain stays 311, sleeve base 312, and chain stays 311 are mounted on chain conveying line 1, chain stays
311 center has an axis hole for being keyed with clutch shaft chain stays linkage section;Sleeve base 312, which is provided centrally with, to be held
The first through hole that clutch shaft passes through;On the axis direction of clutch shaft, chain stays 311, sleeve base 312 are from first end to second end
It is successively sleeved on clutch shaft 34, chain stays 311 are mounted on the chain stays linkage section of clutch shaft 34 by shaft hole sleeve, and and chain
Seat linkage section key connection is threadedly coupled;Sleeve base 312 is sleeved on the main construction section of clutch shaft 34 by first through hole, and sliding
Block set 312 is connected and fixed with chain stays 311;
The second module of clutch 32 includes pinion stand 321, and pinion stand 321 is fixed with 2 direct or indirect connection of tringle, in pinion stand
321 are provided centrally with the second through-hole, and the second through-hole is step through-hole, pinion stand 321 is mounted on clutch by second through-hole
The pinion stand construction section of axis 34, and bearing group 322 is set between pinion stand 321 and pinion stand construction section;321 peripheral hardware of pinion stand
Gear 41 is set, the gear 41 and pinion stand 321 can use the molding mode of overall processing, or key connection.
Clutch third module 33 includes sliding sleeve 331 and shifting block 332, and sliding sleeve 331, which is provided centrally with, can hold what clutch shaft passed through
Third through-hole, third through-hole are step through-hole, which includes the major diameter spring eye and minor diameter axis body of coaxial arrangement
Matching hole, sliding sleeve 331 are mounted on the main construction section of clutch shaft 34 by third through-hole, and major diameter spring eye is close to clutch shaft first
End, minor diameter axis body matching hole is close to clutch shaft second end;And sliding sleeve 331 passes through minor diameter axis body matching hole and clutch shaft 34
Main construction section is slidably matched.
It is provided with compressed spring 37 between the first module of clutch 31 and clutch third module 33, the compressed spring 37 peace
It is cooperatively formed in an annular chamber mounted in clutch shaft 34, sleeve base 312, sliding sleeve 331, chain stays 311.
It will be understood by those skilled in the art that torque known to pin and pin hole etc. can be used in the first and second torque transfer arrangement
Above-mentioned clutch third module 33 and the second module of clutch 32 can be realized as long as controlling the length of pin and pin hole in transferring structure
When chimeric, the first torque transfer arrangement, the second torque transfer arrangement keep torque transmission status;Clutch third module 33 and clutch
When second module 32 separates, the first torque transfer arrangement keeps torque transmission status, and the second torque transfer arrangement can not transmit torsion
Square, which is not described herein again.Certainly, the structures such as frictional, jaw clutch can also be used in the second torque transfer arrangement.
In addition, in order to preferably carry out the control of 6 dipping of fingerprint movement, as shown in figure 5, fingerprint 6 is mounted on tringle 2
Structure are as follows: fingerprint 6 has finger section 61, the palm section 62 set gradually, one end of separate finger section 61 and mould in palm section 62
2 direct or indirect connection of bar is fixed, and is indirectly connected in the present embodiment by linkage section 63.
The entirety that restriction finger section 61 and palm section 62 are constituted is limited as a datum level D across rotary structure
Rotation axis and be reference plane E perpendicular to the plane of datum level, finger section 61, palm section 62 and reference plane E meet with ShiShimonoseki
System:
It is boundary with reference plane E, the hindfoot portion in palm section 62 and finger section 61 is located at the same side of reference plane, finger section 61
In front section be located at the other side of reference plane, and distance H of the front section of the finger section 61 most leading portion away from reference plane is little
In the finger section average thickness of 2 times of fingerprint.
Working principle:
Normal impregnation state:
Under original state, chain conveying line is moved on automation dipped gloves line by clutch band dynamic model bar;Clutch action
The clutch switch guide of module is located at first position, and clutch keeps to transmit the connection status of torque;
Tringle enters in impregnation station during Forward, and clutch switching of the shifting block of clutch Jing Guo clutch action module is led
Rail, clutch switch guide are moved to the second position, drive the shifting block being located in its slot mobile, so that clutch, which is in, disengages shape
State;At this point, the gear on tringle just starts to engage with rack gear group, upper rack or lower tooth in the wheel and rack group of forward movement
Under the cooperation of item, tringle overturning is driven to realize overturning dipping;
Dipping interval adjustment state:
The mounting bracket on impregnation station A or B is individually moved, or adjusts the mounting bracket in adjacent impregnation station simultaneously, changes
The distance between two rack gear groups between adjacent impregnation station, and then realize the interval time of overturning dipping movement twice.
Claims (5)
1. a kind of automation dipped gloves curing time adjustment structure, including
Transportation system is arranged on an automation dipped gloves line with impregnation station, for driving each tringle successively to pass through
The impregnation station on dipped gloves line is automated, the pipeline system is using a pair of of chain conveying line;
Several turnover tringles, for installing several fingerprint being set with to dipped gloves, the tringle passes through rotatable knot
Structure across setting this between chain conveying line;
Clutch, for disengaging or connecting the transmitting of the torque between tringle and chain conveying line;
Turnover driving mechanism, for driving tringle to overturn around rotary structure, the turnover driving mechanism is to be mounted on dipping work
Pass through formula turnover driving mechanism on position and tringle;
It is characterized by:
The impregnation station at least there are two, and along chain conveying line moving direction be distributed in automation dipped gloves line on;
The turnover driving mechanism includes the gear for being mounted on each tringle and connecting with clutch, and is mounted on each dipping work
The rack gear group that can cooperate with gear on position, relative distance is adjustable between two rack gear groups between the adjacent impregnation station;
The clutch includes the clutch being arranged on each tringle rotary structure, and is arranged in each impregnation station
Clutch action device, relative distance is adjustable between two clutch action devices between the adjacent impregnation station.
2. automation dipped gloves curing time adjustment structure according to claim 1, it is characterised in that: the rack gear group
Including
At least one is arranged in the upper rack in impregnation station, the upper rack is horizontally disposed and the flank of tooth downward, the extension of upper rack
Direction is consistent with the moving direction of chain conveying line;
At least one is arranged in the lower rack gear in impregnation station, the lower rack gear is horizontally disposed and the flank of tooth upward, the extension of lower rack gear
Direction is consistent with the moving direction of chain conveying line;
The upper rack and lower the rack gear front and back on the moving direction along chain conveying line are arranged in a staggered manner, the upper rack and lower tooth
Item is located at upper and lower of gear when mobile with chain conveying line in gear path in the height direction, and gear is passing through
It is engaged when crossing upper rack with upper rack, gear engages when rack gear with lower rack gear under process.
3. automation dipped gloves curing time adjustment structure according to claim 2, it is characterised in that: the overturning is driven
Motivation structure further include:
Servo-actuated driving mechanism matched with upper rack or lower rack gear, the servo-actuated driving mechanism are connect with upper rack or lower rack gear,
The servo-actuated driving mechanism can drive upper rack, lower rack gear to move along itself extending direction.
4. automation dipped gloves curing time adjustment structure according to claim 3, it is characterised in that: the dipping work
Being provided in the rack of position can be along the mounting bracket that chain conveying line moving direction moves, the rack gear group and servo-actuated driving mechanism
It is arranged in mounting bracket.
5. automation dipped gloves curing time adjustment structure according to claim 1, it is characterised in that: the clutch
In structure,
Clutch includes clutch shaft, the first module of clutch, the second module of clutch, clutch third module, and clutch action device includes
Clutch switch guide and clutch-drive;
The both ends of clutch shaft are limited as first end and second end, the first end of clutch shaft be fixed with chain conveying line directly or
It is indirectly connected with fixed the first module of clutch, the second end of clutch shaft is movably installed with to be connected and fixed and can opposite clutch with tringle
Axis rotation the second module of clutch, be set between the first end and second end of clutch shaft can along clutch shaft move axially from
Close third module, the shifting block that can cooperate with clutch switch guide in the clutch third module with one;
Be provided with the first torque transfer arrangement between the first module of the clutch third module and clutch, clutch third module with from
It closes and is provided with the second torque transfer arrangement between the second module;
In impregnation station, the clutch switch guide has one and prolongs along chain conveying line moving direction the setting of clutch switch guide
The through clutch slot stretched, the through clutch slot can hold the shifting block insertion of clutch third module, and be driven by clutch-drive
The dynamic vertical direction along through clutch slot is moved to be switched between the first position and the second position in impregnation station;
Under first state, clutch switch guide is located at first position, and clutch third module is chimeric with the second module of clutch, and first turns round
Square transferring structure, the second torque transfer arrangement keep torque transmission status, and the second module of clutch can not rotate, and the second mould of clutch
The shifting block of block can be moved along the extending direction of through clutch slot;
Under second state, clutch switch guide is located at the second position, and clutch third module is separated with the second module of clutch, and first turns round
Square transferring structure keeps torque transmission status, and the second torque transfer arrangement can not transmit torque, and the second module of clutch can be in clutch
It is rotated on axis, and the shifting block of the second module of clutch can be moved along the extending direction of through clutch slot.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201811491405.4A CN109719878B (en) | 2018-12-07 | 2018-12-07 | Automatic change gum dipping gloves curing time adjustment structure |
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Application Number | Priority Date | Filing Date | Title |
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CN201811491405.4A CN109719878B (en) | 2018-12-07 | 2018-12-07 | Automatic change gum dipping gloves curing time adjustment structure |
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CN109719878B CN109719878B (en) | 2024-03-01 |
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CN201811491405.4A Active CN109719878B (en) | 2018-12-07 | 2018-12-07 | Automatic change gum dipping gloves curing time adjustment structure |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110154298A (en) * | 2019-06-27 | 2019-08-23 | 归中实业(上海)有限公司 | A kind of gloves automated production impregnation control mechanism |
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CN110154298B (en) * | 2019-06-27 | 2024-03-01 | 归中智能装备(南通)有限公司 | Glove automated production gum dipping control mechanism |
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