CN209521182U - A kind of shake-proof type glove impregrating machine structure - Google Patents

Abstract

The utility model relates to a kind of shake-proof type glove impregrating machine structures, setting is on automation coated glove production line, automating coated glove production line includes product line frame, the movement routine of a pair of of the chain conveying line and impregnation station being mounted on product line frame, chain conveying line passes through impregnation station；It is characterized by: the impregnation mechanism includes tringle, the both ends of tringle are connect by the first and second rotary structure with chain conveyor；Clutch is arranged on the first rotary structure；Damper is arranged on the second rotary structure.The utility model advantage is: using the connection or disengagement between clutch control tringle and chain conveying line, so that tringle is locked in non-impregnation station, smoothly overturning in impregnation station, smoothly realizes overturning dipping；And damper in tringle switching process, can avoid the noncontinuity driving of turnover driving mechanism from causing to shake, it is ensured that dip effect.

Description

A kind of shake-proof type glove impregrating machine structure

Technical field

The utility model relates to a kind of gloves production equipment, in particular to a kind of shake-proof type glove impregrating machine 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 same in one important in security production supervision and management.

The setting-up and development of labour protection articles for use industry are after the foundation with Chinese society doctrine system and industrial or agricultural Development and what setting-up and development were got up.Reformation and development has pushed the development in an all-round way of the anti-articles industry of Chinese labor.Currently, China works Protective articles A wide selection of colours and designs, quantity are sufficient, substantially meet the needs of domestic economy development, form protection labourer safety with it is strong The labour protection articles for use industry of health.But the appliances for labor protection industry in China is still weak industries, compared with developed country, I There are also very big gap.Wherein, safety and industrial gloves is mainly shown as a kind of the most widely used appliances for labor protection, gap Labour protection articles for use production is most of to be produced to be labour-intensive, and mechanization, the degree of automation are lower, and production efficiency is low, product Quality control 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 pass through Chain conveying line successively passes through gloves 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.

Utility model content

Gloves impregnation that is low the technical problem to be solved by the present invention is to provide a kind of failure rate and can be avoided shaking Mechanism.

In order to solve the above technical problems, the technical solution of the utility model are as follows: shake-proof type glove impregrating machine structure, setting exist It automates on coated glove production line, automation coated glove production line includes product line frame, is mounted on product line frame A pair of of chain conveying line and impregnation station, the movement routine of the chain conveying line passes through impregnation station；It is characterized by: institute Stating impregnation mechanism includes horizontally disposed tringle, and several fingerprint for sleeved gloves, the tringle are equipped on the tringle One end connect with a chain conveyor by the first rotary structure, the other end of tringle by the second rotary structure with separately The connection of one chain conveyor；Clutch is arranged on the first rotary structure, defeated for disengaging or connecting tringle and corresponding chain Torque transmitting between line sending；Damper is arranged on the second rotary structure, rotatable around first and second for adjusting tringle Resistance when structure is overturn.

The impregnation mechanism further includes turnover driving mechanism, is mounted on the impregnation station of the first rotary structure side, For driving tringle to overturn around the first and second rotary structure.

The damper includes an anchor ear being sleeved on the second rotary structure, and pressure adjusting is equipped on the anchor ear Structure.

The impregnation mechanism further includes the clutch action device being arranged on impregnation station, described

Clutch action device and clutch form clutch.

In the clutch, clutch includes clutch shaft, the first module of clutch, clutch

Two modules, clutch third module, clutch action device include clutch switch guide and clutch-drive, limit clutch The both ends of axis are first end and second end, are fixed in the first end of clutch and fix with chain conveying line direct or indirect connection The first module of clutch, the second end of clutch shaft be movably installed be connected and fixed with tringle and can relative to clutch shaft rotate clutch Second module is set with the clutch third module that can be moved axially along clutch shaft between the first end and second end of clutch shaft, The shifting block that can cooperate with clutch switch guide in the clutch third module with one；

The first torque transfer arrangement, clutch third module are provided between the first module of the clutch third module and clutch The second torque transfer arrangement is provided between the second module of clutch；Clutch switch guide is arranged in impregnation station, the clutch Switch guide have one along chain conveying line moving direction extend through clutch slot, the through clutch slot can hold from The shifting block insertion of third module is closed, and mobile in impregnation station by the vertical direction of the through clutch slot of clutch-drive drives edge On first position and the second position between switch；Under first state, clutch switch guide is located at first position, clutch third mould Block is chimeric with the second module of clutch, and the first torque transfer arrangement, the second torque transfer arrangement keep torque transmission status, clutch the Two modules 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, and clutch third module is separated with the second module of clutch, and the first torque transfer arrangement is kept Torque transmission status, the second torque transfer arrangement can not transmit torque, and the second module of clutch can rotate on clutch shaft, and clutch The shifting block of second module can be moved along the extending direction of through clutch slot.

Utility model has the advantages that

(1) in the utility model, the both ends of tringle are connect by the first and second rotary structure with chain conveying line, so that Tringle is overturn on chain conveying line；Meanwhile clutch and damper are set on the first and second rotary structure, utilize clutch Device controls the connection or disengagement between tringle and chain conveying line, so that tringle is locked in non-impregnation station, it is suitable in impregnation station Benefit overturning, smoothly realizes convertible dipping in impregnation station, promotes impregnation pond without whole, substantially increases the safety of impregnation Reliability；And damper in tringle switching process, can avoid the noncontinuity driving of turnover driving mechanism from causing to shake, really Protect dip effect.

(2) clutch has multiple clutch modules being servo-actuated with chain conveying line, and be mounted on impregnation station not with The servo-actuated clutch switch guide of chain conveying line, clutch-drive；One shifting block is set in clutch third module, and shifting block is passing through When impregnation station in the through clutch slot of embeddable clutch switch guide；Clutch-drive is being soaked in driving clutch switch guide When switching between first position and the second position on glue station, shifting block, clutch third module can be driven to move axially along clutch shaft Realize the disengagement or connection of clutch.Meanwhile chain conveying line connects in clutch with chain conveying line in moving process It the members that connect and is mounted between the members not connect with chain conveying line on impregnation station and will not interfere.

Detailed description of the invention

Fig. 1 is shake-proof type glove impregrating machine structure structural schematic diagram in the utility model.

Fig. 2 is clutch, turnover driving mechanism and chain conveying line, tringle connection schematic diagram in the utility model.

Fig. 3 is clutch cross-sectional view in the utility model.

Fig. 4 is in Fig. 1 along line A-A cross-sectional view.

Specific embodiment

The shake-proof type glove impregrating machine structure of the utility model, setting is on automation coated glove production line, automation Coated glove production line includes product line frame, a pair of of the chain conveying line and impregnation station being mounted on product line frame, chain The movement routine of strip transmission line passes through impregnation station.

As shown in Figure 1, impregnation mechanism includes tringle 2, clutch 3A, damper 5, turnover driving mechanism 4.

Horizontally disposed tringle 2, is equipped with several fingerprint for sleeved gloves on tringle 2, and one end of tringle 2 passes through the One rotary structure is connect with a chain conveyor 11, and the other end of tringle 2 is defeated by the second rotary structure and another chain Band 12 is sent to connect.

Clutch 3A is arranged on the first rotary structure, for disengaging or connecting tringle 2 and corresponding chain conveying line 11 Between torque transmitting；

Damper 5 is arranged on the second rotary structure, when for adjusting tringle 2 around the overturning of the first and second rotary structure Resistance.

Turnover driving mechanism 4 is mounted on the impregnation station of the first rotary structure side, for driving tringle 2 around One, two rotary structures are overturn.

Impregnation mechanism further includes the clutch action device 3B being arranged on impregnation station, clutch action device and clutch 3A Form clutch.

As the more specific embodiment of the utility model:

As shown in Figure 2,3, clutch 3A includes clutch shaft 34, the first module of clutch 31, the second module of clutch 32, clutch Three modules 33, clutch action device 3B include clutch switch guide 35 and clutch-drive 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；

The first torque transfer arrangement, clutch third module are provided between clutch third module 33 and the first module of clutch 31 The second torque transfer arrangement is provided between 33 and the second module of clutch 32；

In impregnation station, clutch switch guide 35 has one and moves along chain conveying line 1 setting of clutch switch guide 35 The through clutch slot that direction extends, through clutch slot can hold the shifting block insertion of clutch third module 33, and be driven by clutch The vertical direction movement of the through clutch slot of 35 drives edge of device switches between the first position and the second position in impregnation station；

Under first state, clutch switch guide 35 is located at first position, clutch third module 33 and the second module of clutch 32 Chimeric, the first torque transfer arrangement, the second torque transfer arrangement keep torque transmission status, and the second module of clutch 32 can not turn It is dynamic, and the shifting block of the second module of clutch 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, clutch third module 33 and the second module of clutch 32 Separation, the first torque transfer arrangement keep torque transmission status, and the second torque transfer arrangement can not transmit torque, the second mould of clutch Block 32 can rotate 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, the specific structure of clutch are as follows: clutch shaft 34 is along its own axis direction from first end to Two ends are divided into chain stays linkage section, main construction section and pinion stand construction section, and the diameter of main construction section connects greater than chain stays Connect 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 The center of item seat 311 has an axis hole for being keyed with clutch shaft chain stays linkage section；Sleeve base 312 is provided centrally with The first through hole that clutch shaft passes through can be held；On the axis direction of clutch shaft, chain stays 311, sleeve base 312 are from first end to Two ends are successively sleeved on clutch shaft 34, and chain stays 311 are mounted on the chain stays linkage section of clutch shaft 34 by shaft hole sleeve, and with Chain stays 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 sleeve base 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 gear Seat 321 is provided centrally with the second through-hole, and the second through-hole is step through-hole, pinion stand 321 by second through-hole be mounted on from The pinion stand construction section of sympodium 34, and bearing group 322 is set between pinion stand 321 and pinion stand construction section；Outside pinion stand 321 Gear 41 is set, and 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.

As shown in figure 4, in the utility model, the rack gear group in 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, upper rack 42 prolongs It is consistent with the moving direction of chain conveying line 1 to stretch direction；

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, lower rack gear 43 prolongs It is consistent with the moving direction of chain conveying line 1 to stretch direction；

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, and upper rack 42 is under Rack gear 43 is located at upper and lower of the gear 41 when mobile with chain conveying line 1 in gear path, and tooth in the height direction Wheel 41 engages when by upper rack 42 with upper rack 42, and gear 41 engages when rack gear 43 with lower rack gear 43 under process

In the utility model, damper 5 includes an anchor ear being sleeved on the second rotary structure, is equipped with pressure on anchor ear Power adjustment structure, the pressure regulating mechanism can be spring or adjusting bolt etc..Certainly, damper can also use currently known Technology, such as electromagnetic damper, tension regulator etc., which is not described herein again.

Working principle:

Under original state, clutch third module 33 is pushed to the second mould of clutch under the elastic deformation effect of compressed spring 37 Block 32, the second torque transfer arrangement between clutch third module 33 and the second module of clutch 32 keep meshing state, clutch the The first torque transfer arrangement between three modules 33 and the first module of clutch 31 also keeps meshing state, and clutch keeps connection shape State, the relative position between tringle 2 and chain conveying line 11,12 is locked, and tringle 2 can only move forward with chain conveying line 1, but can not Opposing chain pipeline 11,12 is overturn；

After tringle enters impregnation station, the shifting block of the second module of clutch 32 enter clutch switch guide 35 it is through from It closes in slot, clutch switch guide 35 is moved to the second position, clutch third mould from first position under the driving of clutch-drive 35 Block 33 becomes disengaged position from chimeric with the second module of clutch 32, and clutch is in disengaged condition；

Turnover driving mechanism driving tringle is overturn around the first and second rotary structure；While rotation, damper embraces the Two rotary structures give the second rotary structure certain friction resistance force, and turnover driving mechanism is avoided to drive in noncontinuity When, or when having the fit structure in gap using rack-and-pinion etc., the intermittence of tringle is caused to shake.

Claims (3)

1. a kind of shake-proof type glove impregrating machine structure, on automation coated glove production line, automation dipped gloves are raw for setting Producing line includes product line frame, a pair of of the chain conveying line and impregnation station being mounted on product line frame, the chain conveying The movement routine of line passes through impregnation station；It is characterized by: the impregnation mechanism includes

Horizontally disposed tringle is equipped with several fingerprint for sleeved gloves on the tringle, and one end of the tringle passes through First rotary structure is connect with a chain conveyor, and the other end of tringle is conveyed by the second rotary structure and another chain Band connection；Clutch is arranged on the first rotary structure, for disengaging or connecting between tringle and corresponding chain conveying line Torque transmitting；Damper is arranged on the second rotary structure, when overturning for adjusting tringle around the first and second rotary structure Resistance；

The impregnation mechanism further includes the clutch action device being arranged on impregnation station, the clutch action device and clutch Form clutch；In the clutch, clutch includes clutch shaft, the first module of clutch, the second module of clutch, clutch Three modules, clutch action device include clutch switch guide and clutch-drive, limit the both ends of clutch shaft as first end and Two ends are fixed with clutch first module fixed with chain conveying line direct or indirect connection, clutch in the first end of clutch The second end of axis is movably installed with the second module of clutch for being connected and fixed and being rotated relative to clutch shaft with tringle, in clutch shaft It is set with the clutch third module that can be moved axially along clutch shaft between first end and second end, has in the clutch third module One shifting block that can cooperate with clutch switch guide；The first torsion is provided between the first module of the clutch third module and clutch Square transferring structure is provided with the second torque transfer arrangement between the second module of clutch third module and clutch；Clutch switch guide In impregnation station, the clutch switch guide has the through clutch extended along chain conveying line moving direction for setting Slot, the through clutch slot can hold the shifting block insertion of clutch third module, and by the through clutch of clutch-drive drives edge The vertical direction movement of slot switches between the first position and the second position on impregnation station；Under first state, clutch switching Guide rail is located at first position, and clutch third module is chimeric with the second module of clutch, the first torque transfer arrangement, the transmitting of the second torque Structure keeps torque transmission status, and the second module of clutch can not rotate, and the shifting block of the second module of clutch can be along through clutch The extending direction of slot is mobile；Under second state, clutch switch guide is located at the second position, clutch third module and the second mould of clutch Block separation, the first torque transfer arrangement keep torque transmission status, and the second torque transfer arrangement can not transmit torque, clutch second Module can rotate on clutch shaft, and the shifting block of the second module of clutch can be moved along the extending direction of through clutch slot.

2. shake-proof type glove impregrating machine structure according to claim 1, it is characterised in that: the impregnation mechanism further includes turning over Turn driving mechanism, be mounted on the impregnation station of the first rotary structure side, for driving tringle around the first and second rotatable knot Structure overturning.

3. shake-proof type glove impregrating machine structure according to claim 1, it is characterised in that: the damper includes a suit Anchor ear on the second rotary structure is equipped with pressure regulating mechanism on the anchor ear.