CN205522858U - Closed cooling type list, fine cloth laminating machine of two -sided glass - Google Patents

Abstract

The utility model relates to a closed cooling type list, fine cloth laminating machine of two -sided glass belongs to the tectorial membrane field. Arrange the guard shield in closed cooling type list, fine cloth laminating machine of two -sided glass's the chassis assembly, the guard shield in arrange film feeding mechanism, composite structure no. 1 and composite structure no. 2, composite structure no. 1 is used for the fine cloth single face tectorial membrane of glass, composite structure no. 1 is used for the two -sided tectorial membrane of the fine cloth of glass with composite structure no. 2, film feeding mechanism is used for supplying the membrane, arrange cooling device in the guard shield for silica gel compression roller in the cooling composite structure no. 1, composite structure no. 2. The utility model provides a closed cooling type list, fine cloth laminating machine of two -sided glass both can the single face tectorial membrane on same platform machine, again can two -sided tectorial membrane, satisfy the compound production requirement of different products, and improve work efficiency, reduction in production cost.

Description

A kind of closed cooling type single, double surface glass-fiber-fabric laminating machine

Technical field

This utility model relates to a kind of closed cooling type single, double surface glass-fiber-fabric laminating machine, belongs to overlay film field.

Background technology

Existing glass laminating machine, typically mainly by hot-rolling and the roll-in once or twice of silica gel pressure roller, realizes the compound of glass base material and film, through compound product, can be used for making dedusting filtering bag, waterproof, seepage control material etc..Sometimes for improving the serviceability of fiberglass product, need to carry out two-sided overlay film, and existing glass laminating machine is typically only capable to carry out one side film, if needing the another side overlay film at glass base material, product upset after generally requiring one side film is fed again in laminating machine, therefore overlay film efficiency is substantially reduced, and is unfavorable for saving production cost.It addition, the type of cooling of existing glass laminating machine silica gel pressure roller is generally open type, easily by such environmental effects, there is unstability in cooling effect, is unfavorable for ensureing product composite quality and environmental requirement.

Summary of the invention

This utility model provides a kind of closed cooling type single, double surface glass-fiber-fabric laminating machine for above-mentioned deficiency.

This utility model adopts the following technical scheme that

One described in the utility model closed cooling type single, double surface glass-fiber-fabric laminating machine；Including chassis assembly, guard shield, control panel, drive system, composite structure one, composite structure two, film feeding mechanism one, film feeding mechanism two, selvage guide mechanism, chiller；Film feeding mechanism one, composite structure one and film feeding mechanism two, composite structure two is arranged in arranging guard shield, described guard shield in described chassis assembly；Composite structure one is for glass-fiber-fabric one side film；Composite structure one and composite structure two are provided commonly for the two-sided overlay film of glass-fiber-fabric；Film feeding mechanism one is for being used for the glass-fiber-fabric in composite structure two for film for film, film feeding mechanism two to the glass-fiber-fabric in composite structure one；Chiller is arranged and is connected with composite structure one, composite structure two inside guard shield；Selvage guide mechanism is for being delivered to composite structure by glass-fiber-fabric or film, and drive system drives composite structure one or composite structure two start by gear set mechanism；Control panel is used for controlling laminating machine duty；Composite structure one is consistent with the rotating ratio of composite structure two.

Closed cooling type single, double surface glass-fiber-fabric laminating machine described in the utility model, described composite structure one includes hot-rolling one, silica gel pressure roller one, silica gel pressure roller two, cylinder one, swing arm；

Described hot-rolling one, silica gel pressure roller one, silica gel pressure roller two are arranged parallel to；Cylinder one and swing arm are respectively symmetrically and are arranged on left and right side plate；Silica gel pressure roller one, the axial two ends of silica gel pressure roller two are connected with one end of swing arm by ball bearing respectively, and the other end of swing arm is connected with cylinder one respectively by bearing pin, and arm shaft is arranged in swing arm center, and swing arm rotates along arm shaft；Cylinder one drives swing arm to rotate along arm shaft respectively, by swing arm rotate drive the other end to connect silica gel pressure roller one, silica gel pressure roller two and hot-rolling one near with separate；Described film and glass-fiber-fabric are by hot-rolling one and silica gel pressure roller one roll-in, then by hot-rolling one and two or two roll-ins of silica gel pressure roller, complete glass-fiber-fabric one side film roll-in.

Closed cooling type single, double surface glass-fiber-fabric laminating machine described in the utility model, described composite structure two includes hot-rolling two, silica gel pressure roller three, silica gel pressure roller four, cylinder one, swing arm；Described hot-rolling two, silica gel pressure roller three, silica gel pressure roller four are arranged parallel to；Described cylinder one is respectively symmetrically with swing arm and is arranged on left and right side plate；Silica gel pressure roller three, the axial two ends of silica gel pressure roller four are connected with one end of swing arm by ball bearing respectively, and the other end of swing arm is connected with cylinder one respectively by bearing pin, and arm shaft is arranged in swing arm center, and swing arm rotates along arm shaft；Cylinder one drives swing arm to rotate along arm shaft respectively；Cylinder one drives swing arm to rotate along arm shaft respectively, by swing arm rotate drive the other end to connect glue laminated roller three, silica gel pressure roller four and hot-rolling two near with separate；Described glass-fiber-fabric is again introduced into hot-rolling two and silica gel pressure roller three roll-in after completing one side film roll-in, then by hot-rolling two and four or two roll-ins of silica gel pressure roller, completes glass-fiber-fabric two-sided overlay film roll-in.

Closed cooling type single, double surface glass-fiber-fabric laminating machine described in the utility model, chiller includes: cooling fan, water tank, cools down steel rider one, cylinder two, cools down steel rider two, water inlet pipe and return pipe；The described silica gel pressure roller three in the silica gel pressure roller one in composite structure one, silica gel pressure roller two and composite structure two, silica gel pressure roller four, cooling steel rider one, cooling steel rider two are hollow structure；

The axial two ends of cooling steel rider one are connected with cylinder two respectively, cylinder two control cooling steel rider one and silica gel pressure roller one, silica gel pressure roller two contact with separate；The axial two ends of cooling steel rider two are connected with cylinder two respectively, cylinder two control cooling steel rider two and silica gel pressure roller three, silica gel pressure roller four contact with separate；

The water inlet port connection return pipe of water tank, its water outlet port connection water inlet pipe；Cooling medium is filled in water tank；Cooling medium enters water inlet pipe, and the silica gel pressure roller one in composite structure one, silica gel pressure roller two, the silica gel pressure roller three cooled down in steel rider one, composite structure two, silica gel pressure roller four, the two ends of cooling steel rider two are connected with water inlet pipe and return pipe respectively；Cooling medium flows in above-mentioned roller from water inlet pipe and cools down, and the return pipe then flowing to the connection of the roller other end enters back into water tank formation cooling circuit structure, cooling fan water supply case cooling.

Closed cooling type single, double surface glass-fiber-fabric laminating machine described in the utility model, between described water inlet pipe and silica gel pressure roller one, silica gel pressure roller two, cooling steel rider one, separate connection is through, using flexible pipe to be mutually communicated between water inlet pipe and silica gel pressure roller one, silica gel pressure roller two, cooling steel rider one, flexible pipe is with silica gel pressure roller one, silica gel pressure roller two, the moving and stretch or shrink of cooling steel rider one.

Closed cooling type single, double surface glass-fiber-fabric laminating machine described in the utility model, between water inlet pipe and silica gel pressure roller three, silica gel pressure roller four, cooling steel rider two, separate connection is through, water inlet pipe and silica gel pressure roller three, silica gel pressure roller four, cooling steel rider two use flexible pipe to be mutually communicated, and flexible pipe is with silica gel pressure roller three, silica gel pressure roller four, the moving and stretch or shrink of cooling steel rider two.

Closed cooling type single, double surface glass-fiber-fabric laminating machine described in the utility model, the water inlet segment between described composite structure one and composite structure two is provided with valve；When one side film, valve is closed, and cooling medium flows to silica gel pressure roller one, silica gel pressure roller two, cooling steel rider one；When two-sided overlay film, valve is in opening, and cooling medium flows to silica gel pressure roller one, silica gel pressure roller two, cooling steel rider one and silica gel pressure roller three, silica gel pressure roller four, cooling steel rider two simultaneously.

Closed cooling type single, double surface glass-fiber-fabric laminating machine described in the utility model, described drive system includes frequency conversion motor one, reductor one and freewheel clutch, clutch；Gear three is arranged in the end of the hot-rolling one in composite structure one；Gear six is arranged in the end of the hot-rolling two in composite structure two；

Frequency conversion motor one drives reductor one rotation, drives and assembles freewheel clutch on reductor one, freewheel clutch control and driving composite structure one rotate；

Power transmission between gear three on hot-rolling one and the gear six on hot-rolling two is to be controlled by clutch；When clutch is in opening, composite structure one completes glass-fiber-fabric one side film roll-in；When clutch is in closure state, composite structure one and composite structure two have worked glass-fiber-fabric two-sided overlay film roll-in simultaneously.

Closed cooling type single, double surface glass-fiber-fabric laminating machine described in the utility model, described clutch includes gear four, gear five, handle；The described gear three on composite structure one engages with gear four, and gear four engages with gear five, and gear five engages with the gear six on composite structure two again；Handle is connected with gear five, the engagement between handle drives gear five with gear four, gear six with separate.

Closed cooling type single, double surface glass-fiber-fabric laminating machine described in the utility model, selvage guide mechanism includes some short-range missile cloth rewinder rolls and long fabric guide roll；Some short-range missile cloth rewinder rolls are arranged in guard shield；Some short-range missile cloth rewinder rolls are parallel with composite structure；Some short-range missile cloth rewinder rolls are used for receiving glass-fiber-fabric and carry out overlay film in film importing composite structure；Long fabric guide roll is arranged in outside guard shield, is used for deriving finished product after glass-fiber-fabric overlay film.

Beneficial effect

The closed cooling type single, double surface glass-fiber-fabric laminating machine that this utility model provides, both can meet, with two-sided overlay film, the production requirement that different product is compound again with one side film, improve work efficiency, reduce production cost on same machine.

The type of cooling of silica gel pressure roller is closed circuit, and use single cooling steel rider to cool down the version of two silica gel pressure rollers simultaneously, can effectively reduce such environmental effects cooling effect, be conducive to extending the service life of silica gel pressure roller and ensureing the quality of production of joint product, the most beneficially environmental protection.Machine can produce the joint product of different-thickness.

Accompanying drawing explanation

Fig. 1 is of the present utility model to face structural representation；

Fig. 2 is sectional structure schematic diagram of the present utility model；

Fig. 3 is right TV structure schematic diagram of the present utility model；

Fig. 4 is left view structural representation of the present utility model；

Fig. 5 is that sectional structure schematic diagram is installed in hot-rolling end of the present utility model；

Fig. 6 is axle side of the present utility model schematic diagram one；

Fig. 7 is axle side of the present utility model schematic diagram two；

Fig. 8 is one side film fundamental diagram of the present utility model；

Fig. 9 is two-sided overlay film fundamental diagram of the present utility model.

Detailed description of the invention

Below in conjunction with the accompanying drawings utility model is further described:

As shown in the figure: 1, a kind of closed cooling type single, double surface glass-fiber-fabric laminating machine；Including chassis assembly 1, guard shield 2, control panel 3, drive system 4, composite structure 1, composite structure 26, film feeding mechanism 1, film feeding mechanism 28, selvage guide mechanism 9, chiller 10；Arrange guard shield 2 in described chassis assembly 1, in described guard shield 2, arrange film feeding mechanism 1, composite structure 1 and film feeding mechanism 28, composite structure 26；Composite structure 1 is for glass-fiber-fabric one side film；Composite structure 1 and composite structure 26 are provided commonly for the two-sided overlay film of glass-fiber-fabric；Film feeding mechanism 1 is for being used for the glass-fiber-fabric in composite structure 26 for film for film, film feeding mechanism 28 to the glass-fiber-fabric in composite structure 1；Chiller 10 is arranged and is connected with composite structure 1, composite structure 26 inside guard shield 2；Selvage guide mechanism 9 for being delivered to composite structure by glass-fiber-fabric or film, and drive system 4 drives composite structure 1 or composite structure 26 to work by gear set mechanism；Control panel 3 is used for controlling laminating machine duty；Composite structure 1 is consistent with the rotating ratio of composite structure 26.

Chassis assembly 1 includes underframe 1-1, right plate 1-2, left plate 1-3,1-4 stull；Left plate 1-3, right plate 1-4 are arranged on underframe, and stull 1-4 two ends are fixed on left plate 1-3, right plate 1-2, play the effect supporting body.

Guard shield 2 includes right guard shield 2-1, upper shield 2-2, front apron 2-3, left guard shield 2-4；Left guard shield 2-4, right guard shield 2-1 are separately mounted to the both sides of machine, primarily serve protective action, and upper shield is used for protecting and getting rid of flue gas, and control panel 3 is arranged on right guard shield 2-1, control the duty of entire machine.

Composite structure 1 includes hot-rolling one 5-1, silica gel pressure roller one 5-2, silica gel pressure roller two 5-3；Thickness adjusting apparatus one 5-4；Thickness adjusting apparatus two 5-5；Cylinder block 5-401, cylinder one 5-402, cylinder breeches joint 5-403, bearing pin 5-404, swing arm 5-405, swing arm axle bed, bearing three 5-407, arm shaft, back-up ring 5-409, end cap 5-410, bearing four 5-411；

Hot-rolling one 5-1, silica gel pressure roller one 5-2, silica gel pressure roller two 5-3 are arranged parallel to；Cylinder one 5-402 and swing arm 5-405 is respectively symmetrically and is arranged on left plate 1-3, right plate 1-4；

Hot-rolling one 5-1, silica gel pressure roller one 5-2, silica gel pressure roller two 5-3 are arranged parallel to；Cylinder block 5-401 is fixed on right plate 1-2, and cylinder one 5-402 is arranged on cylinder block 5-401；Established a connection with cylinder breeches joint 5-403 by bearing pin 5-404 equipped with cylinder breeches joint 5-403, swing arm 5-405 on cylinder one 5-402 plunger；

Swing arm axle bed is fixed on right plate 1-2, and it is respectively provided with arm shaft and bearing three, back-up ring, and the swing arm 5-405 other end is built with end cap, bearing four, silica gel pressure roller one 5-2.

Arm shaft is arranged in swing arm 5-405 center, and swing arm 5-405 rotates along arm shaft；Cylinder one 5-402 drive respectively swing arm 5-405 along arm shaft rotate, by drive swing arm 5-405 rotation so that drive the other end connect silica gel pressure roller one 5-2, silica gel pressure roller two 5-3 and hot-rolling one 5-1 near and separate；Described film and glass-fiber-fabric are by hot-rolling one 5-1 and silica gel pressure roller one 5-2 roll-in, then by hot-rolling one 5-1 and bis-roll-ins of silica gel pressure roller two 5-3, complete glass-fiber-fabric one side film roll-in.

Composite structure 26 is identical with the operation principles of above-mentioned composite structure 1.

Composite structure 26 includes hot-rolling two 6-1, silica gel pressure roller three 6-2, silica gel pressure roller four 6-3, cylinder one 5-402, swing arm 5-405；Described hot-rolling two 6-1, silica gel pressure roller three 6-2, silica gel pressure roller four 6-3 are arranged parallel to；Cylinder one 5-402 and swing arm 5-405 is respectively symmetrically and is arranged on left plate 1-3, right plate 1-4；

Silica gel pressure roller three 6-2, the axial two ends of silica gel pressure roller four 6-3 are connected with one end of swing arm 5-405 by ball bearing respectively, the other end of swing arm 5-405 is connected by bearing pin cylinder one 5-402 respectively, arm shaft is arranged in swing arm 5-405 center, and swing arm 5-405 rotates along arm shaft；Cylinder one 5-402 drives swing arm 5-405 to rotate along arm shaft respectively；Cylinder one 5-402 drive respectively swing arm 5-405 along arm shaft rotate, by drive swing arm 5-405 rotation so that drive the other end connect glue laminated roller three 6-2, silica gel pressure roller four 6-3 and hot-rolling two 6-1 near and separate；Described glass-fiber-fabric is again introduced into hot-rolling two 6-1 and silica gel pressure roller three 6-2 roll-in after completing one side film roll-in, then by hot-rolling two 6-1 and bis-roll-ins of silica gel pressure roller four 6-3, completes glass-fiber-fabric two-sided overlay film roll-in.

Power transmission between gear three 4-17 and gear six 4-29 of hot-rolling two 6-1 of hot-rolling one 5-1 is to be controlled by clutch 4-28；When clutch 4-28 is in opening, composite structure 1 completes glass-fiber-fabric one side film roll-in；When clutch 4-28 is in closure state, composite structure 1 and composite structure 26 have worked glass-fiber-fabric two-sided overlay film roll-in simultaneously.

nullChiller includes: cooling fan 10-1，Water tank 10-2，Water tank/blower tray 10-3，Return pipe one 10-22，Water pump 10-5，Motor 10-6，Type B V-belt two 10-7，Actively vee-pulley 10-8，Reductor two 10-9，Reducer pedestal two 10-10，Frequency conversion motor two 10-11，Active synchronization belt wheel two 10-12，Timing Belt two 10-13，Driven synchronous pulley two 10-14，Water inlet pipe one 10-15，Valve 10-16，Water inlet flexible pipe one 10-17，Cooling water rotating joint one 10-18，Water flexible pipe two 10-19，Water inlet flexible pipe three 10-20，Cooling water rotating joint two，Return pipe two 10-22，Cooling steel roller mechanism 10-23，Cooling steel rider two 10-2301，Guide rail two 10-2302，Rolling bearing units two 10-2303，Cylinder two 10-2304，Cooling steel rider one 10-2401；

Equipped with active synchronization belt wheel two 10-12 on the output shaft of frequency conversion motor two 10-11, by Timing Belt two 10-13, power is transferred to be arranged on driven synchronous pulley two 10-14 of reductor two 10-9 input, after speed change, by the active vee-pulley 10-8 being arranged on reductor two 10-9 outfan, it is transferred to cool down fan 10-1 by power by Type B V-belt two 10-7, cooling fan 10-1 and water tank 10-2 is arranged on the water tank/blower tray 10-3 being fixed on underframe 1-1, reductor two 10-9 is arranged on reducer pedestal two 10-10, reducer pedestal two 10-10 is fixed on left plate 1-3.

Silica gel pressure roller three 6-2 in silica gel pressure roller one 5-2, silica gel pressure roller two 5-3 and composite structure 26 in composite structure 1, silica gel pressure roller four 6-3, cooling steel rider one 10-2401, cooling steel rider two 10-2301 are hollow structure；

Cooling steel rider one 10-2401 axial two ends is connected with cylinder two 10-2304 respectively, cylinder two 10-2304 control cool down steel rider one 10-2401 and silica gel pressure roller one 5-2, silica gel pressure roller two 5-3 contact with separate；Cooling steel rider two 10-2301 axial two ends is connected with cylinder two 10-2304 respectively, cylinder two 10-2304 control cool down steel rider two 10-2301 and silica gel pressure roller three 6-2, silica gel pressure roller four 6-3 contact with separate；

Water tank 10-2 outlet is connected with water inlet pipe one 10-15, the end of water inlet pipe one 10-15 is connected with water inlet flexible pipe one 10-17, water inlet flexible pipe two 10-19, water inlet flexible pipe three 10-20, water inlet flexible pipe one 10-17 and water inlet flexible pipe two 10-19 is fixed on silica gel pressure roller three 6-2 and silica gel pressure roller four 6-3 by cooling water rotating joint one 10-18, and water inlet flexible pipe three 10-20 is fixed on cooling steel rider two 10-2301 by cooling water rotating joint two.Cooling medium enters in silica gel pressure roller one 5-2, silica gel pressure roller two 5-3 and cooling steel rider one 10-2401 from water inlet pipe one 10-15；And flow out from the other end.

The type of cooling in composite structure 26 is identical with the cooling structure in composite structure 1 and mode；Silica gel pressure roller three 6-2, silica gel pressure roller four 6-3, the two ends of cooling steel rider two 10-2301 are connected with return pipe with water inlet pipe respectively；Cooling medium flows in above-mentioned roller from water inlet pipe and cools down, and the return pipe then flowing to the connection of the roller other end enters back into water tank 10-2 formation cooling circuit structure, cooling fan 10-1 water supply case 10-2 cooling.

Flexible pipe is that material that is stretchable or that shrink is made, and can coordinate collaborating of roller press mechanism, can guarantee that again the circulation of cooling medium.

Water inlet segment between composite structure 1 and composite structure 26 is provided with valve 10-16；When carrying out the work of two-sided overlay film, the cold water flowed out by water tank 10-2 outlet is in water inlet pipe one 10-15 has respectively entered silica gel pressure roller one 5-2, silica gel pressure roller two 5-3 and cooling steel rider one 10-2401, and inner surface and outer surface to silica gel pressure roller carry out cooling down respectively；Cold water passes through valve 10-16 simultaneously, has respectively entered in silica gel pressure roller three 6-2, silica gel pressure roller four 6-3 and cooling steel rider one 10-2301, and inner surface and outer surface to silica gel pressure roller equally carries out cooling down.

When carrying out one side film work, valve 10-16 is closed, water tank 10-2 outlet the cold water flowed out has respectively entered in silica gel pressure roller one 5-2, silica gel pressure roller two 5-3 and cooling steel rider one 10-2401 merely through water inlet pipe one 10-15.Water after cooling is collected to return pipe one 10-22 from the other end of machine, then is driven water pump 10-5 to carry out drawing water work by motor 10-6, through return pipe two 10-22, flows in water tank 10-2, carries out next circulation.

Drive system 4 includes frequency conversion motor one 4-1, active synchronization belt wheel one 4-2, Timing Belt one 4-3, reducer pedestal one 4-4, driven synchronous pulley one, reductor one 4-6, freewheel clutch 4-7, gear one, key, duplicate gear 4-10, axle one fixed by gear, gear shaft fixed plate, bearing one, end ring, gear two 4-15, axle two fixed by gear, gear three 4-17, key 4-18, bolt 4-19 fixed by gear, round nut 4-20, stop washer 4-21, end cap one 4-22, cooling shaft bearing 4-23, bearing two 4-24, end cap two 4-25, gear four 4-26, axle three fixed by gear, clutch 4-28, gear five 4-2801, handle 4-2802, gear six 4-29；

Frequency conversion motor one 4-1 drives reductor one 4-6 to rotate, and drives and assembles freewheel clutch 4-7 on reductor one 4-6, freewheel clutch 4-7 controls and drive composite structure 1 start；

Active synchronization belt wheel one 4-2 is installed on frequency conversion motor one 4-1 output shaft；Reducer pedestal one 4-4 is arranged on right plate 1-2, reductor one 4-6 is arranged on reducer pedestal one 4-4, driven synchronous pulley one 4-5 is arranged on the power shaft of reductor one 4-6, uses Timing Belt one 4-3, the power of frequency conversion motor one 4-1 is transferred to reductor one 4-6；

Reductor one 4-6 outfan is provided with gear one 4-8, key, control whether power is transferred to next stage duplicate gear 4-10 by freewheel clutch 4-7, gear shaft fixed plate is fixed on right plate 1-2, it is respectively provided with gear on it to fix axle one, bearing one, end ring, duplicate gear 4-10 and gear and fix axle two 4-16, gear two, gear three 4-17 is connected by key 4-18 with hot-rolling one 5-1, fixes bolt 4-19 by gear and is fixed on the axle head of hot-rolling one 5-1 by gear three 4-17；Cooling shaft bearing 4-23 is arranged on right plate 1-2, and internal equipped with bearing two 4-24, its lateral surface is respectively provided with end cap one 4-22, stop washer 4-21, round nut 4-20, and medial surface is equipped with end cap two 4-25；It is achieved thereby that rotate from frequency conversion motor one 4-1 driven gear three 4-17, and then it is in running order that hot-rolling one 5-1 is rotated.

Gear is fixed axle three 4-27 and is arranged on right plate 1-2, axle is provided with gear four 4-26, gear four 4-26 and is controlled by clutch 4-28 with the power transmission of gear five 4-2801.When the axis of handle 4-2802 and gear shaft are mutually perpendicular to state, power transmission is interrupted, i.e. one side film duty；When the axis of handle 4-2802 keeps coaxial with gear shaft, four gears are engagement, the most two-sided overlay film duty.

Clutch 4-28 includes gear four 4-26, gear five 4-2801, handle 4-2802；Gear three 4-17 on composite structure 1 engages with gear four 4-26, and gear four 4-26 engages with gear five 4-2801, and gear five 4-2801 engages with gear six 4-29 on composite structure 26 again；Handle 4-2802 is connected with gear five 4-2801, and handle 4-2802 drives engagement between gear five 4-2801 and gear four 4-26, gear six 4-29 and separates.

Film feeding mechanism two includes: gas expansion shaft one 7-1, flange form safety chuck, clutch base 7-3, clutch gear, magnetic powder brake 7-5, chuck gear 7-6, bending rubber one 7-7, horizontal toothed gearing electric motor 7-8, actively vee-pulley one, reducer motor base 7-10, Type B V-belt one 7-11, driven vee-pulley one 7-12, bending rubber bearing block 7-13, bearing support 7-14；

The two ends of gas expansion shaft one 7-1 are arranged in flange form safety chuck 7-2, and chuck gear 7-6 is connected with flange form safety chuck；Clutch base 7-3 is arranged on 1-3 on left plate, magnetic powder brake 7-5 is arranged on clutch base 7-3, magnetic powder brake 7-5 drives clutch gear that power is transferred to chuck gear 7-6, thus drives gas expansion shaft one 7-1 in running order, it is achieved the steady operation of PTFE film paper tube.

Bending rubber one 7-7 is PTFE film tensioning member, and its two ends are separately mounted in bending rubber bearing block 7-13, and bending rubber bearing block 7-13 is fixed on bearing support 7-14；Driven vee-pulley one 7-12 is installed on bending rubber one 7-7 end axis, on the horizontal toothed gearing electric motor 7-8 output shaft that actively vee-pulley one is arranged on reducer motor base 7-10, realized the rotation of bending rubber one 7-7 by Type B V-belt one 7-11, play the tension of PTFE film；Reducer motor base 7-10 and bearing support 7-14 is separately mounted on left plate 1-3.

Film feeding mechanism two includes gas expansion shaft two 8-1, bending rubber two 8-7.The type of drive of film feeding mechanism two is identical with film feeding mechanism one.Film feeding mechanism two works together with film feeding mechanism one when two-sided overlay film, completes two-sided for film.

Selvage guide mechanism 9 includes some short-range missile cloth rewinder roll one 9-1, short-range missile cloth rewinder roll two 9-2, short-range missile cloth rewinder roll three 9-3, short-range missile cloth rewinder roll four 9-4, short-range missile cloth rewinder roll five 9-5, short-range missile cloth rewinder roll six 9-6, short-range missile cloth rewinder roll seven 9-7, long fabric guide roll 9-8, bearing five, bearing block one 9-10, bearing block two；

Short-range missile cloth rewinder roll one 9-1 is arranged in bearing block two 9-11 being fixed on right plate 1-2, left plate 1-3 inwall (with other short-range missile cloth rewinder roll), and long fabric guide roll 9-8 is arranged in bearing block one 9-10 being fixed on right plate 1-2, left plate 1-3 end face.

One side film operation principle: glass-fiber-fabric passes sequentially through short-range missile cloth rewinder roll one 9-1, short-range missile cloth rewinder roll two 9-2；The PTFE film discharged from gas expansion shaft one 7-1 passes sequentially through bending rubber one 7-7, short-range missile cloth rewinder roll three 9-3 and simultaneously enters in composite structure 1 with glass-fiber-fabric, through hot-rolling one 5-1 and silica gel pressure roller one 5-2, silica gel pressure roller two 5-3 twice roll-in after, pass sequentially through short-range missile cloth rewinder roll six 9-6, short-range missile cloth rewinder roll seven 9-7, long fabric guide roll 9-8 again, enter in winder.

Two-sided overlay film operation principle: glass-fiber-fabric passes sequentially through short-range missile cloth rewinder roll one 9-1, short-range missile cloth rewinder roll two 9-2；The PTFE film discharged from gas expansion shaft one 7-1 passes sequentially through bending rubber one 7-7, short-range missile cloth rewinder roll three 9-3, simultaneously enter in composite structure 1 with glass-fiber-fabric, through hot-rolling one 5-1 and silica gel pressure roller one 5-2, silica gel pressure roller two 5-3 twice roll-in after, formed semi-finished product；The PTFE film discharged from gas expansion shaft one 8-1 passes sequentially through bending rubber one 8-7, short-range missile cloth rewinder roll four 9-4, simultaneously enter in composite structure 26 with the semi-finished product from composite structure 1, short-range missile cloth rewinder roll five 9-5, through hot-rolling two 6-1 and silica gel pressure roller three 6-2, silica gel pressure roller four 6-3 twice roll-in after, complete two-sided overlay film, again by short-range missile cloth rewinder roll six 9-6, short-range missile cloth rewinder roll seven 9-7, long fabric guide roll 9-8, enter in winder.

The above; it is only this utility model preferably detailed description of the invention; but protection domain of the present utility model is not limited thereto; any those familiar with the art is in the technical scope that this utility model discloses; the change that can readily occur in or replacement, all should contain within protection domain of the present utility model.Therefore, protection domain of the present utility model should be as the criterion with scope of the claims.

Claims (10)

1. a closed cooling type single, double surface glass-fiber-fabric laminating machine；It is characterized in that: include chassis assembly (1), guard shield (2), control panel (3), drive system (4), composite structure one (5), composite structure two (6), film feeding mechanism one (7), film feeding mechanism two (8), selvage guide mechanism (9), chiller (10)；Arrange guard shield (2) in described chassis assembly (1), in described guard shield (2), arrange film feeding mechanism one (7), composite structure one (5), film feeding mechanism two (8), composite structure two (6)；Composite structure one (5) is for glass-fiber-fabric one side film；Composite structure one (5) and composite structure two (6) are provided commonly for the two-sided overlay film of glass-fiber-fabric；Film feeding mechanism one (7) is for being used for the glass-fiber-fabric in composite structure two (6) for film for film, film feeding mechanism two (8) to the glass-fiber-fabric in composite structure one (5)；Chiller (10) arranges that guard shield (2) inner side is connected with composite structure one (5), composite structure two (6)；Selvage guide mechanism (9) for being delivered to composite structure by glass-fiber-fabric or film, and drive system (4) drives composite structure one (5) or composite structure two (6) start by gear set mechanism；Control panel (3) is used for controlling laminating machine duty；Composite structure one (5) is consistent with the rotating ratio of composite structure two (6).

Closed cooling type single, double surface glass-fiber-fabric laminating machine the most according to claim 1, it is characterized in that: described composite structure one (5) includes hot-rolling one (5-1), silica gel pressure roller one (5-2), silica gel pressure roller two (5-3), cylinder one (5-402), swing arm (5-405)；

Described hot-rolling one (5-1), silica gel pressure roller one (5-2), silica gel pressure roller two (5-3) are arranged parallel to；Cylinder one (5-402) and swing arm (5-405) are respectively symmetrically and are arranged on left and right side plate；Silica gel pressure roller one (5-2), the axial two ends of silica gel pressure roller two (5-3) are connected with one end of swing arm (5-405) by ball bearing respectively, the other end of swing arm (5-405) is connected with cylinder one (5-402) respectively by bearing pin, rotating shaft is arranged in swing arm (5-405) center, and swing arm (5-405) rotates along arm shaft；Cylinder one (5-402) drives swing arm (5-405) to rotate along arm shaft respectively, by drive swing arm (5-405) rotate drive the other end to connect silica gel pressure roller one (5-2), silica gel pressure roller two (5-3) and hot-rolling one (5-1) close with separate；Described film and glass-fiber-fabric are by hot-rolling one (5-1) and silica gel pressure roller one (5-2) roll-in, then by hot-rolling one (5-1) and silica gel pressure roller two (5-3) secondary roll-in, complete glass-fiber-fabric one side film roll-in.

Closed cooling type single, double surface glass-fiber-fabric laminating machine the most according to claim 1 and 2, it is characterized in that: described composite structure two (6) includes hot-rolling two (6-1), silica gel pressure roller three (6-2), silica gel pressure roller four (6-3), cylinder one (5-402), swing arm (5-405)；Described hot-rolling two (6-1), silica gel pressure roller three (6-2), silica gel pressure roller four (6-3) are arranged parallel to；Described cylinder one (5-402) and swing arm (5-405) are respectively symmetrically and are arranged on left and right side plate；Silica gel pressure roller three (6-2), the axial two ends of silica gel pressure roller four (6-3) are connected with one end of swing arm (5-405) by ball bearing respectively, the other end of swing arm (5-405) is connected by bearing pin cylinder one (5-402) respectively, arm shaft is arranged in swing arm (5-405) center, and swing arm (5-405) rotates along arm shaft；Cylinder one (5-402) drives swing arm (5-405) to rotate along arm shaft respectively；Cylinder one (5-402) drives swing arm (5-405) to rotate along arm shaft respectively, by drive swing arm (5-405) rotate drive the other end to connect silica gel pressure roller three (6-2), silica gel pressure roller four (6-3) and hot-rolling two (6-1) close with separate；Described glass-fiber-fabric is again introduced into hot-rolling two (6-1) and silica gel pressure roller three (6-2) roll-in after completing one side film roll-in, then by hot-rolling two (6-1) and silica gel pressure roller four (6-3) secondary roll-in, completes glass-fiber-fabric two-sided overlay film roll-in.

Closed cooling type single, double surface glass-fiber-fabric laminating machine the most according to claim 3, it is characterized in that: chiller includes: cooling fan (10-1), water tank (10-2), cooling steel rider one (10-2401), cylinder two (10-2304), cooling steel rider two (10-2301), water inlet pipe and return pipe；The described silica gel pressure roller three (6-2) in the silica gel pressure roller one (5-2) in composite structure one (5), silica gel pressure roller two (5-3) and composite structure two (6), silica gel pressure roller four (6-3), cooling steel rider one (10-2401), cooling steel rider two (10-2301) are hollow structure；

Cooling steel rider two (10-2301) axial two ends is connected with cylinder two (10-2304) respectively, cylinder two (10-2304) control cool down steel rider two (10-2301) with silica gel pressure roller three (6-2), silica gel pressure roller four (6-3) contact with separate；Cooling steel rider one (10-2401) axial two ends is connected with cylinder two (10-2304) respectively, cylinder two (10-2304) control cool down steel rider one (10-2401) with silica gel pressure roller one (5-2), silica gel pressure roller two (5-3) contact with separate；

The water inlet port connection return pipe of water tank (10-2), its water outlet port connection water inlet pipe；Cooling medium is filled in water tank (10-2)；Cooling medium enters water inlet pipe, silica gel pressure roller one (5-2) in composite structure one (5), silica gel pressure roller two (5-3), cooling steel rider one (10-2401), the silica gel pressure roller three (6-2) in composite structure two (6), silica gel pressure roller four (6-3), the two ends of cooling steel rider two (10-2301) are connected with return pipe with water inlet pipe respectively；Cooling medium flows in above-mentioned cooling steel rider from water inlet pipe and cools down, and the return pipe then flowing to the connection of the roller other end enters back into water tank (10-2) formation cooling circuit structure, cooling fan (10-1) water supply case (10-2) cooling.

Closed cooling type single, double surface glass-fiber-fabric laminating machine the most according to claim 4, it is characterized in that: between described water inlet pipe and silica gel pressure roller one (5-2), silica gel pressure roller two (5-3), cooling steel rider one (10-2401), separate connection is through, using flexible pipe to be mutually communicated between water inlet pipe and silica gel pressure roller one (5-2), silica gel pressure roller two (5-3), cooling steel rider one (10-2401), flexible pipe is with silica gel pressure roller one (5-2), silica gel pressure roller two (5-3), the moving and stretch or shrink of cooling steel rider one (10-2401).

Closed cooling type single, double surface glass-fiber-fabric laminating machine the most according to claim 4, it is characterized in that: between water inlet pipe and silica gel pressure roller three (6-2), silica gel pressure roller four (6-3), cooling steel rider two (10-2301), separate connection is through, water inlet pipe and silica gel pressure roller three (6-2), silica gel pressure roller four (6-3), cooling steel rider two (10-2301) use flexible pipe to be mutually communicated, and flexible pipe is with silica gel pressure roller three (6-2), silica gel pressure roller four (6-3), the moving and stretch or shrink of cooling steel rider two (10-2301).

Closed cooling type single, double surface glass-fiber-fabric laminating machine the most according to claim 4, it is characterised in that: the water inlet segment between described composite structure one (5) and composite structure two (6) is provided with valve (10-16)；When one side film, valve (10-16) is closed, and cooling medium flows to silica gel pressure roller one (5-2), silica gel pressure roller two (5-3), cooling steel rider one (10-2401)；When two-sided overlay film, valve (10-16) is in opening, and cooling medium flows to silica gel pressure roller one (5-2), silica gel pressure roller two (5-3), cooling steel rider one (10-2401) and silica gel pressure roller three (6-2), silica gel pressure roller four (6-3), cooling steel rider two (10-2301) simultaneously.

Closed cooling type single, double surface glass-fiber-fabric laminating machine the most according to claim 3, it is characterised in that: described drive system (4) includes frequency conversion motor one (4-1), reductor one (4-6) and freewheel clutch (4-7), clutch (4-28);Gear three (4-17) is arranged in the end of the hot-rolling one (5-1) in composite structure one (5)；Gear six (4-29) is arranged in the end of the hot-rolling two (6-1) in composite structure two (6)；

Frequency conversion motor one (4-1) drives reductor one (4-6) to rotate, and drives and assembles freewheel clutch (4-7) on reductor one (4-6), freewheel clutch (4-7) controls and drive composite structure one (5) to rotate；

Power transmission between gear three (4-17) and the gear six (4-29) of hot-rolling two (6-1) of hot-rolling one (5-1) is to be controlled by clutch (4-28)；When clutch (4-28) is in opening, composite structure one (5) completes glass-fiber-fabric one side film roll-in；When clutch (4-28) is in closure state, composite structure one (5) and composite structure two (6) have worked glass-fiber-fabric two-sided overlay film roll-in simultaneously.

Closed cooling type single, double surface glass-fiber-fabric laminating machine the most according to claim 8, it is characterised in that: described clutch (4-28) includes gear four (4-26)；Gear five (4-2801), handle (4-2802)；The described gear three (4-17) on composite structure one (5) engages with gear four (4-26), and gear four (4-26) engages with gear five (4-2801), and gear five (4-2801) engages with the gear six (4-29) on composite structure two (6) again；Handle (4-2802) is connected with gear five (4-2801), handle (4-2802) drive gear five (4-2801) with the engagement between gear four (4-26), gear six (4-29) with separate.

Closed cooling type single, double surface glass-fiber-fabric laminating machine the most according to claim 1, it is characterised in that: selvage guide mechanism (9) includes some short-range missile cloth rewinder rolls and long fabric guide roll；Some short-range missile cloth rewinder rolls are arranged in guard shield (2)；Some short-range missile cloth rewinder rolls are parallel with composite structure；Some short-range missile cloth rewinder rolls are used for receiving glass-fiber-fabric and carry out overlay film in film importing composite structure；Long fabric guide roll is arranged in guard shield (2) outside, is used for deriving finished product after glass-fiber-fabric overlay film.